Your search keyword '"Lohmann K."' showing total 64 results

1. Bilateral vestibulopathy in RFC1-positive CANVAS is distinctly different compared to FGF14-linked spinocerebellar ataxia 27B.

Author

Borsche, M, Thomsen, M, Szmulewicz, DJ, Lübbers, B, Hinrichs, F, Lockhart, PJ, Lohmann, K, Helmchen, C, Brüggemann, N, Borsche, M, Thomsen, M, Szmulewicz, DJ, Lübbers, B, Hinrichs, F, Lockhart, PJ, Lohmann, K, Helmchen, C, and Brüggemann, N

Published

2024

2. An intronic GAA repeat expansion in FGF14 causes the autosomal-dominant adult-onset ataxia SCA50/ATX-FGF14

Author

Rafehi, H, Read, J, Szmulewicz, DJ, Davies, KC, Snell, P, Fearnley, LG, Scott, L, Thomsen, M, Gillies, G, Pope, K, Bennett, MF, Munro, JE, Ngo, KJ, Chen, L, Wallis, MJ, Butler, EG, Kumar, KR, Wu, KHC, Tomlinson, SE, Tisch, S, Malhotra, A, Lee-Archer, M, Dolzhenko, E, Eberle, MA, Roberts, LJ, Fogel, BL, Bruggemann, N, Lohmann, K, Delatycki, MB, Bahlo, M, Lockhart, PJ, Rafehi, H, Read, J, Szmulewicz, DJ, Davies, KC, Snell, P, Fearnley, LG, Scott, L, Thomsen, M, Gillies, G, Pope, K, Bennett, MF, Munro, JE, Ngo, KJ, Chen, L, Wallis, MJ, Butler, EG, Kumar, KR, Wu, KHC, Tomlinson, SE, Tisch, S, Malhotra, A, Lee-Archer, M, Dolzhenko, E, Eberle, MA, Roberts, LJ, Fogel, BL, Bruggemann, N, Lohmann, K, Delatycki, MB, Bahlo, M, and Lockhart, PJ

Abstract

Adult-onset cerebellar ataxias are a group of neurodegenerative conditions that challenge both genetic discovery and molecular diagnosis. In this study, we identified an intronic (GAA) repeat expansion in fibroblast growth factor 14 (FGF14). Genetic analysis of 95 Australian individuals with adult-onset ataxia identified four (4.2%) with (GAA)>300 and a further nine individuals with (GAA)>250. PCR and long-read sequence analysis revealed these were pure (GAA) repeats. In comparison, no control subjects had (GAA)>300 and only 2/311 control individuals (0.6%) had a pure (GAA)>250. In a German validation cohort, 9/104 (8.7%) of affected individuals had (GAA)>335 and a further six had (GAA)>250, whereas 10/190 (5.3%) control subjects had (GAA)>250 but none were (GAA)>335. The combined data suggest (GAA)>335 are disease causing and fully penetrant (p = 6.0 × 10-8, OR = 72 [95% CI = 4.3-1,227]), while (GAA)>250 is likely pathogenic with reduced penetrance. Affected individuals had an adult-onset, slowly progressive cerebellar ataxia with variable features including vestibular impairment, hyper-reflexia, and autonomic dysfunction. A negative correlation between age at onset and repeat length was observed (R2 = 0.44, p = 0.00045, slope = -0.12) and identification of a shared haplotype in a minority of individuals suggests that the expansion can be inherited or generated de novo during meiotic division. This study demonstrates the power of genome sequencing and advanced bioinformatic tools to identify novel repeat expansions via model-free, genome-wide analysis and identifies SCA50/ATX-FGF14 as a frequent cause of adult-onset ataxia.

Published

2023

3. Embracing Monogenic Parkinson's Disease: The MJFF Global Genetic PD Cohort

Author

Vollstedt, E.J., Schaake, S., Lohmann, K., Padmanabhan, S., Brice, A., Lesage, S., Tesson, C., Vidailhet, M., Wurster, I., Hentati, F., Mirelman, A., Giladi, N., Marder, K., Waters, C., Fahn, S., Kasten, M., Brüggemann, N., Borsche, M., Foroud, T., Tolosa, E., Garrido, A., Annesi, G., Gagliardi, M., Bozi, M., Stefanis, L., Ferreira, J.J., Guedes, L. Correia, Avenali, M., Petrucci, S., Clark, L., Fedotova, E.Y., Abramycheva, N.Y., Alvarez, V., Menéndez-González, M., Maestre, S. Jesús, Gómez-Garre, P., Mir, P., Belin, A.C., Ran, C., Lin, Chih-Yu, Kuo, M.C., Crosiers, D., Wszolek, Z.K., Ross, O.A., Jankovic, J., Nishioka, K., Funayama, M., Clarimon, J., Williams-Gray, C.H., Camacho, M., Cornejo-Olivas, M., Torres-Ramirez, L., Wu, Y.R., Lee-Chen, G.J., Morgadinho, A., Pulkes, T., Termsarasab, P., Berg, D., Kuhlenbäumer, G., Kühn, A.A., Borngräber, F., Michele, G. de, Rosa, A. De, Zimprich, A., Puschmann, A., Mellick, G.D., Dorszewska, J., Carr, J., Ferese, R., Gambardella, S., Chase, B., Markopoulou, K., Satake, W., Toda, T., Rossi, M., Merello, M., Lynch, T., Olszewska, D.A., Lim, S.Y., Ahmad-Annuar, A., Tan, A.H., Al-Mubarak, B., Hanagasi, H., Koziorowski, D., Ertan, S., Genç, G., Aguiar, P. de Carvalho, Barkhuizen, M., Pimentel, M.M.G., Saunders-Pullman, R., Warrenburg, B.P.C. van de, Bressman, S., Toft, M., Appel-Cresswell, S., Lang, A.E., Skorvanek, M., Boon, A.J., Krüger, R., Sammler, E.M., Tumas, V., et al., Vollstedt, E.J., Schaake, S., Lohmann, K., Padmanabhan, S., Brice, A., Lesage, S., Tesson, C., Vidailhet, M., Wurster, I., Hentati, F., Mirelman, A., Giladi, N., Marder, K., Waters, C., Fahn, S., Kasten, M., Brüggemann, N., Borsche, M., Foroud, T., Tolosa, E., Garrido, A., Annesi, G., Gagliardi, M., Bozi, M., Stefanis, L., Ferreira, J.J., Guedes, L. Correia, Avenali, M., Petrucci, S., Clark, L., Fedotova, E.Y., Abramycheva, N.Y., Alvarez, V., Menéndez-González, M., Maestre, S. Jesús, Gómez-Garre, P., Mir, P., Belin, A.C., Ran, C., Lin, Chih-Yu, Kuo, M.C., Crosiers, D., Wszolek, Z.K., Ross, O.A., Jankovic, J., Nishioka, K., Funayama, M., Clarimon, J., Williams-Gray, C.H., Camacho, M., Cornejo-Olivas, M., Torres-Ramirez, L., Wu, Y.R., Lee-Chen, G.J., Morgadinho, A., Pulkes, T., Termsarasab, P., Berg, D., Kuhlenbäumer, G., Kühn, A.A., Borngräber, F., Michele, G. de, Rosa, A. De, Zimprich, A., Puschmann, A., Mellick, G.D., Dorszewska, J., Carr, J., Ferese, R., Gambardella, S., Chase, B., Markopoulou, K., Satake, W., Toda, T., Rossi, M., Merello, M., Lynch, T., Olszewska, D.A., Lim, S.Y., Ahmad-Annuar, A., Tan, A.H., Al-Mubarak, B., Hanagasi, H., Koziorowski, D., Ertan, S., Genç, G., Aguiar, P. de Carvalho, Barkhuizen, M., Pimentel, M.M.G., Saunders-Pullman, R., Warrenburg, B.P.C. van de, Bressman, S., Toft, M., Appel-Cresswell, S., Lang, A.E., Skorvanek, M., Boon, A.J., Krüger, R., Sammler, E.M., and Tumas, V., et al.

Abstract

Item does not contain fulltext, BACKGROUND: As gene-targeted therapies are increasingly being developed for Parkinson's disease (PD), identifying and characterizing carriers of specific genetic pathogenic variants is imperative. Only a small fraction of the estimated number of subjects with monogenic PD worldwide are currently represented in the literature and availability of clinical data and clinical trial-ready cohorts is limited. OBJECTIVE: The objectives are to (1) establish an international cohort of affected and unaffected individuals with PD-linked variants; (2) provide harmonized and quality-controlled clinical characterization data for each included individual; and (3) further promote collaboration of researchers in the field of monogenic PD. METHODS: We conducted a worldwide, systematic online survey to collect individual-level data on individuals with PD-linked variants in SNCA, LRRK2, VPS35, PRKN, PINK1, DJ-1, as well as selected pathogenic and risk variants in GBA and corresponding demographic, clinical, and genetic data. All registered cases underwent thorough quality checks, and pathogenicity scoring of the variants and genotype-phenotype relationships were analyzed. RESULTS: We collected 3888 variant carriers for our analyses, reported by 92 centers (42 countries) worldwide. Of the included individuals, 3185 had a diagnosis of PD (ie, 1306 LRRK2, 115 SNCA, 23 VPS35, 429 PRKN, 75 PINK1, 13 DJ-1, and 1224 GBA) and 703 were unaffected (ie, 328 LRRK2, 32 SNCA, 3 VPS35, 1 PRKN, 1 PINK1, and 338 GBA). In total, we identified 269 different pathogenic variants; 1322 individuals in our cohort (34%) were indicated as not previously published. CONCLUSIONS: Within the MJFF Global Genetic PD Study Group, we (1) established the largest international cohort of affected and unaffected individuals carrying PD-linked variants; (2) provide harmonized and quality-controlled clinical and genetic data for each included individual; (3) promote collaboration in the field of genetic PD with a view toward

Published

2023

4. Genotype-Phenotype Correlations for ATX-TBP (SCA17): MDSGene Systematic Review.

Author

Rossi, M., Hamed, M., Rodríguez-Antigüedad, J., Cornejo-Olivas, M., Breza, M., Lohmann, K., Klein, C., Rajalingam, R., Marras, C., Warrenburg, B.P.C. van de, Rossi, M., Hamed, M., Rodríguez-Antigüedad, J., Cornejo-Olivas, M., Breza, M., Lohmann, K., Klein, C., Rajalingam, R., Marras, C., and Warrenburg, B.P.C. van de

Abstract

Item does not contain fulltext, Spinocerebellar ataxia type 17 or ATX-TBP is a CAG/CAA repeat expansion disorder characterized by marked clinical heterogeneity. Reports of affected carriers with subthreshold repeat expansions and of patients with Parkinson's disease (PD) with expanded repeats have cast doubt on the established cutoff values of the expansions and the phenotypic spectrum of this disorder. The objective of this systematic review was to explore the genotype-phenotype relationships for repeat expansions in TBP to delineate the ATX-TBP phenotype and reevaluate the pathological range of repeat expansions. The International Parkinson and Movement Disorder Society Genetic Mutation Database (MDSGene) standardized data extraction protocol was followed. Clinically affected carriers of reported ATX-TBP expansions were included. Publications that contained repeat sizes in screened cohorts of patients with PD and/or healthy individuals were included for a separate evaluation of cutoff values. Phenotypic and genotypic data for 346 ATX-TBP patients were curated. Overall, 97.7% of the patients had ≥41 repeats, while 99.6% of patients with PD and 99.9% of healthy individuals had ≤42 repeats, with a gray zone of reduced penetrance between 41 and 45 repeats. Pure parkinsonism was more common in ATX-TBP patients with 41 to 45 repeats than in the group with ≥46 repeats, which conversely more often presented with a complex phenotype with mixed movement disorders. An updated genotype-phenotype assessment for ATX-TBP is provided, and new repeat expansion cutoff values of reduced penetrance (41-45 expanded repeats) and full penetrance (46-66 expanded repeats) are proposed. These adjusted cutoff values will have diagnostic and counseling implications and may guide future clinical trial protocol. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Published

2023

5. Embracing Monogenic Parkinson's Disease: The MJFF Global Genetic PD Cohort

Author

Vollstedt, E.J., Schaake, S., Lohmann, K., Padmanabhan, S., Brice, A., Lesage, S., Tesson, C., Vidailhet, M., Wurster, I., Hentati, F., Mirelman, A., Giladi, N., Marder, K., Waters, C., Fahn, S., Kasten, M., Brüggemann, N., Borsche, M., Foroud, T., Tolosa, E., Garrido, A., Annesi, G., Gagliardi, M., Bozi, M., Stefanis, L., Ferreira, J.J., Guedes, L. Correia, Avenali, M., Petrucci, S., Clark, L., Fedotova, E.Y., Abramycheva, N.Y., Alvarez, V., Menéndez-González, M., Maestre, S. Jesús, Gómez-Garre, P., Mir, P., Belin, A.C., Ran, C., Lin, Chih-Yu, Kuo, M.C., Crosiers, D., Wszolek, Z.K., Ross, O.A., Jankovic, J., Nishioka, K., Funayama, M., Clarimon, J., Williams-Gray, C.H., Camacho, M., Cornejo-Olivas, M., Torres-Ramirez, L., Wu, Y.R., Lee-Chen, G.J., Morgadinho, A., Pulkes, T., Termsarasab, P., Berg, D., Kuhlenbäumer, G., Kühn, A.A., Borngräber, F., Michele, G. de, Rosa, A. De, Zimprich, A., Puschmann, A., Mellick, G.D., Dorszewska, J., Carr, J., Ferese, R., Gambardella, S., Chase, B., Markopoulou, K., Satake, W., Toda, T., Rossi, M., Merello, M., Lynch, T., Olszewska, D.A., Lim, S.Y., Ahmad-Annuar, A., Tan, A.H., Al-Mubarak, B., Hanagasi, H., Koziorowski, D., Ertan, S., Genç, G., Aguiar, P. de Carvalho, Barkhuizen, M., Pimentel, M.M.G., Saunders-Pullman, R., Warrenburg, B.P.C. van de, Bressman, S., Toft, M., Appel-Cresswell, S., Lang, A.E., Skorvanek, M., Boon, A.J., Krüger, R., Sammler, E.M., Tumas, V., et al., Vollstedt, E.J., Schaake, S., Lohmann, K., Padmanabhan, S., Brice, A., Lesage, S., Tesson, C., Vidailhet, M., Wurster, I., Hentati, F., Mirelman, A., Giladi, N., Marder, K., Waters, C., Fahn, S., Kasten, M., Brüggemann, N., Borsche, M., Foroud, T., Tolosa, E., Garrido, A., Annesi, G., Gagliardi, M., Bozi, M., Stefanis, L., Ferreira, J.J., Guedes, L. Correia, Avenali, M., Petrucci, S., Clark, L., Fedotova, E.Y., Abramycheva, N.Y., Alvarez, V., Menéndez-González, M., Maestre, S. Jesús, Gómez-Garre, P., Mir, P., Belin, A.C., Ran, C., Lin, Chih-Yu, Kuo, M.C., Crosiers, D., Wszolek, Z.K., Ross, O.A., Jankovic, J., Nishioka, K., Funayama, M., Clarimon, J., Williams-Gray, C.H., Camacho, M., Cornejo-Olivas, M., Torres-Ramirez, L., Wu, Y.R., Lee-Chen, G.J., Morgadinho, A., Pulkes, T., Termsarasab, P., Berg, D., Kuhlenbäumer, G., Kühn, A.A., Borngräber, F., Michele, G. de, Rosa, A. De, Zimprich, A., Puschmann, A., Mellick, G.D., Dorszewska, J., Carr, J., Ferese, R., Gambardella, S., Chase, B., Markopoulou, K., Satake, W., Toda, T., Rossi, M., Merello, M., Lynch, T., Olszewska, D.A., Lim, S.Y., Ahmad-Annuar, A., Tan, A.H., Al-Mubarak, B., Hanagasi, H., Koziorowski, D., Ertan, S., Genç, G., Aguiar, P. de Carvalho, Barkhuizen, M., Pimentel, M.M.G., Saunders-Pullman, R., Warrenburg, B.P.C. van de, Bressman, S., Toft, M., Appel-Cresswell, S., Lang, A.E., Skorvanek, M., Boon, A.J., Krüger, R., Sammler, E.M., and Tumas, V., et al.

Abstract

Item does not contain fulltext, BACKGROUND: As gene-targeted therapies are increasingly being developed for Parkinson's disease (PD), identifying and characterizing carriers of specific genetic pathogenic variants is imperative. Only a small fraction of the estimated number of subjects with monogenic PD worldwide are currently represented in the literature and availability of clinical data and clinical trial-ready cohorts is limited. OBJECTIVE: The objectives are to (1) establish an international cohort of affected and unaffected individuals with PD-linked variants; (2) provide harmonized and quality-controlled clinical characterization data for each included individual; and (3) further promote collaboration of researchers in the field of monogenic PD. METHODS: We conducted a worldwide, systematic online survey to collect individual-level data on individuals with PD-linked variants in SNCA, LRRK2, VPS35, PRKN, PINK1, DJ-1, as well as selected pathogenic and risk variants in GBA and corresponding demographic, clinical, and genetic data. All registered cases underwent thorough quality checks, and pathogenicity scoring of the variants and genotype-phenotype relationships were analyzed. RESULTS: We collected 3888 variant carriers for our analyses, reported by 92 centers (42 countries) worldwide. Of the included individuals, 3185 had a diagnosis of PD (ie, 1306 LRRK2, 115 SNCA, 23 VPS35, 429 PRKN, 75 PINK1, 13 DJ-1, and 1224 GBA) and 703 were unaffected (ie, 328 LRRK2, 32 SNCA, 3 VPS35, 1 PRKN, 1 PINK1, and 338 GBA). In total, we identified 269 different pathogenic variants; 1322 individuals in our cohort (34%) were indicated as not previously published. CONCLUSIONS: Within the MJFF Global Genetic PD Study Group, we (1) established the largest international cohort of affected and unaffected individuals carrying PD-linked variants; (2) provide harmonized and quality-controlled clinical and genetic data for each included individual; (3) promote collaboration in the field of genetic PD with a view toward

Published

2023

6. Genotype-Phenotype Correlations for ATX-TBP (SCA17): MDSGene Systematic Review.

Author

Rossi, M., Hamed, M., Rodríguez-Antigüedad, J., Cornejo-Olivas, M., Breza, M., Lohmann, K., Klein, C., Rajalingam, R., Marras, C., Warrenburg, B.P.C. van de, Rossi, M., Hamed, M., Rodríguez-Antigüedad, J., Cornejo-Olivas, M., Breza, M., Lohmann, K., Klein, C., Rajalingam, R., Marras, C., and Warrenburg, B.P.C. van de

Abstract

Item does not contain fulltext, Spinocerebellar ataxia type 17 or ATX-TBP is a CAG/CAA repeat expansion disorder characterized by marked clinical heterogeneity. Reports of affected carriers with subthreshold repeat expansions and of patients with Parkinson's disease (PD) with expanded repeats have cast doubt on the established cutoff values of the expansions and the phenotypic spectrum of this disorder. The objective of this systematic review was to explore the genotype-phenotype relationships for repeat expansions in TBP to delineate the ATX-TBP phenotype and reevaluate the pathological range of repeat expansions. The International Parkinson and Movement Disorder Society Genetic Mutation Database (MDSGene) standardized data extraction protocol was followed. Clinically affected carriers of reported ATX-TBP expansions were included. Publications that contained repeat sizes in screened cohorts of patients with PD and/or healthy individuals were included for a separate evaluation of cutoff values. Phenotypic and genotypic data for 346 ATX-TBP patients were curated. Overall, 97.7% of the patients had ≥41 repeats, while 99.6% of patients with PD and 99.9% of healthy individuals had ≤42 repeats, with a gray zone of reduced penetrance between 41 and 45 repeats. Pure parkinsonism was more common in ATX-TBP patients with 41 to 45 repeats than in the group with ≥46 repeats, which conversely more often presented with a complex phenotype with mixed movement disorders. An updated genotype-phenotype assessment for ATX-TBP is provided, and new repeat expansion cutoff values of reduced penetrance (41-45 expanded repeats) and full penetrance (46-66 expanded repeats) are proposed. These adjusted cutoff values will have diagnostic and counseling implications and may guide future clinical trial protocol. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Published

2023

7. Establishing an online resource to facilitate global collaboration and inclusion of underrepresented populations: Experience from the MJFF Global Genetic Parkinson's Disease Project.

Author

Vollstedt, E.J., Madoev, H., Aasly, A., Ahmad-Annuar, A., Al-Mubarak, B., Alcalay, R.N., Alvarez, V., Amorin, I., Annesi, G., Arkadir, D., Bardien, S., Barker, R.A., Barkhuizen, M., Basak, A.N., Bonifati, V., Boon, A., Brighina, L., Brockmann, K., Carmine Belin, A., Carr, J., Clarimon, J., Cornejo-Olivas, M., Correia Guedes, L., Corvol, J.C., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P. de, Rosa, A. De, Dorszewska, J., Ertan, S., Ferese, R., Ferreira, J., Gatto, E., Genç, G., Giladi, N., Gómez-Garre, P., Hanagasi, H., Hattori, N., Hentati, F., Hoffman-Zacharska, D., Illarioshkin, S.N., Jankovic, J., Jesús, S., Kaasinen, V., Kievit, A., Klivenyi, P., Kostic, V., Koziorowski, D., Kühn, A.A., Lang, A.E., Lim, S.Y., Lin, Chih-Yu, Lohmann, K., Markovic, V., Martikainen, M.H., Mellick, G., Merello, M., Milanowski, L., Mir, P., Öztop-Çakmak, Ö., Pimentel, M.M.G., Pulkes, T., Puschmann, A., Rogaeva, E., Sammler, E.M., Skaalum Petersen, M., Skorvanek, M., Spitz, M., Suchowersky, O., Tan, A.H., Termsarasab, P., Thaler, Avner, Tumas, V., Valente, E.M., Warrenburg, B.P.C. van de, Williams-Gray, C.H., Wu, R.M., Zhang, B., Zimprich, A., Solle, J., Padmanabhan, S., Klein, Christine, Vollstedt, E.J., Madoev, H., Aasly, A., Ahmad-Annuar, A., Al-Mubarak, B., Alcalay, R.N., Alvarez, V., Amorin, I., Annesi, G., Arkadir, D., Bardien, S., Barker, R.A., Barkhuizen, M., Basak, A.N., Bonifati, V., Boon, A., Brighina, L., Brockmann, K., Carmine Belin, A., Carr, J., Clarimon, J., Cornejo-Olivas, M., Correia Guedes, L., Corvol, J.C., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P. de, Rosa, A. De, Dorszewska, J., Ertan, S., Ferese, R., Ferreira, J., Gatto, E., Genç, G., Giladi, N., Gómez-Garre, P., Hanagasi, H., Hattori, N., Hentati, F., Hoffman-Zacharska, D., Illarioshkin, S.N., Jankovic, J., Jesús, S., Kaasinen, V., Kievit, A., Klivenyi, P., Kostic, V., Koziorowski, D., Kühn, A.A., Lang, A.E., Lim, S.Y., Lin, Chih-Yu, Lohmann, K., Markovic, V., Martikainen, M.H., Mellick, G., Merello, M., Milanowski, L., Mir, P., Öztop-Çakmak, Ö., Pimentel, M.M.G., Pulkes, T., Puschmann, A., Rogaeva, E., Sammler, E.M., Skaalum Petersen, M., Skorvanek, M., Spitz, M., Suchowersky, O., Tan, A.H., Termsarasab, P., Thaler, Avner, Tumas, V., Valente, E.M., Warrenburg, B.P.C. van de, Williams-Gray, C.H., Wu, R.M., Zhang, B., Zimprich, A., Solle, J., Padmanabhan, S., and Klein, Christine

Abstract

Item does not contain fulltext, Parkinson's disease (PD) is the fastest-growing neurodegenerative disorder, currently affecting ~7 million people worldwide. PD is clinically and genetically heterogeneous, with at least 10% of all cases explained by a monogenic cause or strong genetic risk factor. However, the vast majority of our present data on monogenic PD is based on the investigation of patients of European White ancestry, leaving a large knowledge gap on monogenic PD in underrepresented populations. Gene-targeted therapies are being developed at a fast pace and have started entering clinical trials. In light of these developments, building a global network of centers working on monogenic PD, fostering collaborative research, and establishing a clinical trial-ready cohort is imperative. Based on a systematic review of the English literature on monogenic PD and a successful team science approach, we have built up a network of 59 sites worldwide and have collected information on the availability of data, biomaterials, and facilities. To enable access to this resource and to foster collaboration across centers, as well as between academia and industry, we have developed an interactive map and online tool allowing for a quick overview of available resources, along with an option to filter for specific items of interest. This initiative is currently being merged with the Global Parkinson's Genetics Program (GP2), which will attract additional centers with a focus on underrepresented sites. This growing resource and tool will facilitate collaborative research and impact the development and testing of new therapies for monogenic and potentially for idiopathic PD patients.

Published

2023

8. Embracing monogenic Parkinson's disease: the MJFF Global Genetic PD cohort

Author

Ertan, Fatoş Sibel (ORCID 0000-0003-1339-243X & YÖK ID 112829), Vollstedt, E.J.; Schaake, S.; Lohmann, K.; Padmanabhan, S.; Brice, A.; Lesage, S.; Tesson, C.; Vidailhet, M.; Wurster, I.; Hentati, F.; Mirelman, A.; Giladi, N.; Marder, K.; Waters, C.; Fahn, S.; Kasten, M.; Brüggemann, N.; Borsche, M.; Foroud, T.; Tolosa, E.; Garrido, A.; Annesi, G.; Gagliardi, M.; Bozi, M.; Stefanis, L.; Ferreira, J.J.; Guedes, L.C.; Avenali, M.; Petrucci, S.; Clark, L.; Fedotova, E.Y.; Abramycheva, N.Y.; Alvarez, V.; Menéndez-González, M.; Maestre, SJ.; Gómez-Garre, P.; Mir, P.; Belin, A.C.; Ran, C.; Lin, C.H.; Kuo, M.C.; Crosiers, D.; Wszolek, Z.K.; Ross, O.A.; Jankovic, J.; Nishioka, K.; Funayama, M.; Clarimon, J.; Williams-Gray, C.H.; Camacho, M.; Cornejo-Olivas, M.; Torres-Ramirez, L.; Wu, YR.; Lee-Chen, G.J.; Morgadinho, A.; Pulkes, T.; Termsarasab, P.; Berg, D.; Kuhlenbäumer, G.; Kühn, A.A.; Borngräber, F.; de Michele, G.; De Rosa, A.; Zimprich, A.; Puschmann, A.; Mellick, GD.; Dorszewska, J.; Carr, J.; Ferese, R.; Gambardella, S.; Chase, B.; Markopoulou, K.; Satake, W.; Toda, T.; Rossi, M.; Merello, M.; Lynch, T.; Olszewska, D.A.; Lim, S.Y.; Ahmad-Annuar, A.; Tan, A.H.; Al-Mubarak, B.; Hanagasi, H.; Koziorowski, D.; Genç, G.; Aguiar, P.D.; Barkhuizen, M.; Pimentel, M.M.G.; Saunders-Pullman, R.; van de Warrenburg, B.; Bressman, S.; Toft, M.; Appel-Cresswell, S.; Lang, A.E.; Skorvanek, M.; Boon, A.J.W.; Krüger, R.; Sammler, E.M.; Tumas, V.; Zhang, B.R.; Garraux, G.; Chung, SJ.; Kim, Y.J.; Winkelmann, J.; Sue, C.M.; Tan, E.K.; Damásio, J.; Klivényi, P.; Kostic, V.S.; Arkadir, D.; Martikainen, M.; Borges, V.; Hertz, J.M.; Brighina, L.; Spitz, M.; Suchowersky, O.; Riess, O.; Das, P.; Mollenhauer, B.; Gatto, E.M.; Petersen, M.S.; Hattori, N.; Wu, R.M.; Illarioshkin, S.N.; Valente, E.M.; Aasly, J.O.; Aasly, A.; Alcalay, R.N.; Thaler, A.; Farrer, M.J.; Brockmann, K.; Corvol, J.C.; Klein, C., School of Medicine, Ertan, Fatoş Sibel (ORCID 0000-0003-1339-243X & YÖK ID 112829), Vollstedt, E.J.; Schaake, S.; Lohmann, K.; Padmanabhan, S.; Brice, A.; Lesage, S.; Tesson, C.; Vidailhet, M.; Wurster, I.; Hentati, F.; Mirelman, A.; Giladi, N.; Marder, K.; Waters, C.; Fahn, S.; Kasten, M.; Brüggemann, N.; Borsche, M.; Foroud, T.; Tolosa, E.; Garrido, A.; Annesi, G.; Gagliardi, M.; Bozi, M.; Stefanis, L.; Ferreira, J.J.; Guedes, L.C.; Avenali, M.; Petrucci, S.; Clark, L.; Fedotova, E.Y.; Abramycheva, N.Y.; Alvarez, V.; Menéndez-González, M.; Maestre, SJ.; Gómez-Garre, P.; Mir, P.; Belin, A.C.; Ran, C.; Lin, C.H.; Kuo, M.C.; Crosiers, D.; Wszolek, Z.K.; Ross, O.A.; Jankovic, J.; Nishioka, K.; Funayama, M.; Clarimon, J.; Williams-Gray, C.H.; Camacho, M.; Cornejo-Olivas, M.; Torres-Ramirez, L.; Wu, YR.; Lee-Chen, G.J.; Morgadinho, A.; Pulkes, T.; Termsarasab, P.; Berg, D.; Kuhlenbäumer, G.; Kühn, A.A.; Borngräber, F.; de Michele, G.; De Rosa, A.; Zimprich, A.; Puschmann, A.; Mellick, GD.; Dorszewska, J.; Carr, J.; Ferese, R.; Gambardella, S.; Chase, B.; Markopoulou, K.; Satake, W.; Toda, T.; Rossi, M.; Merello, M.; Lynch, T.; Olszewska, D.A.; Lim, S.Y.; Ahmad-Annuar, A.; Tan, A.H.; Al-Mubarak, B.; Hanagasi, H.; Koziorowski, D.; Genç, G.; Aguiar, P.D.; Barkhuizen, M.; Pimentel, M.M.G.; Saunders-Pullman, R.; van de Warrenburg, B.; Bressman, S.; Toft, M.; Appel-Cresswell, S.; Lang, A.E.; Skorvanek, M.; Boon, A.J.W.; Krüger, R.; Sammler, E.M.; Tumas, V.; Zhang, B.R.; Garraux, G.; Chung, SJ.; Kim, Y.J.; Winkelmann, J.; Sue, C.M.; Tan, E.K.; Damásio, J.; Klivényi, P.; Kostic, V.S.; Arkadir, D.; Martikainen, M.; Borges, V.; Hertz, J.M.; Brighina, L.; Spitz, M.; Suchowersky, O.; Riess, O.; Das, P.; Mollenhauer, B.; Gatto, E.M.; Petersen, M.S.; Hattori, N.; Wu, R.M.; Illarioshkin, S.N.; Valente, E.M.; Aasly, J.O.; Aasly, A.; Alcalay, R.N.; Thaler, A.; Farrer, M.J.; Brockmann, K.; Corvol, J.C.; Klein, C., and School of Medicine

Abstract

Background: as gene-targeted therapies are increasingly being developed for Parkinson's disease (PD), identifying and characterizing carriers of specific genetic pathogenic variants is imperative. Only a small fraction of the estimated number of subjects with monogenic PD worldwide are currently represented in the literature and availability of clinical data and clinical trial-ready cohorts is limited. Objective: the objectives are to (1) establish an international cohort of affected and unaffected individuals with PD-linked variants; (2) provide harmonized and quality-controlled clinical characterization data for each included individual; and (3) further promote collaboration of researchers in the field of monogenic PD. Methods: we conducted a worldwide, systematic online survey to collect individual-level data on individuals with PD-linked variants in SNCA, LRRK2, VPS35, PRKN, PINK1, DJ-1, as well as selected pathogenic and risk variants in GBA and corresponding demographic, clinical, and genetic data. All registered cases underwent thorough quality checks, and pathogenicity scoring of the variants and genotype–phenotype relationships were analyzed. Results: we collected 3888 variant carriers for our analyses, reported by 92 centers (42 countries) worldwide. Of the included individuals, 3185 had a diagnosis of PD (ie, 1306 LRRK2, 115 SNCA, 23 VPS35, 429 PRKN, 75 PINK1, 13 DJ-1, and 1224 GBA) and 703 were unaffected (ie, 328 LRRK2, 32 SNCA, 3 VPS35, 1 PRKN, 1 PINK1, and 338 GBA). In total, we identified 269 different pathogenic variants; 1322 individuals in our cohort (34%) were indicated as not previously published. Conclusions: within the MJFF Global Genetic PD Study Group, we (1) established the largest international cohort of affected and unaffected individuals carrying PD-linked variants; (2) provide harmonized and quality-controlled clinical and genetic data for each included individual; (3) promote collaboration in the field of genetic PD with a view toward, Open Access funding enabled and organized by Projekt DEAL. Funding text 1: Carolyn M. Sue: Intellectual Property Rights: WO 2015/157794 A1. Advisory Boards: AbbVie. Employment: Northern Sydney Local Health District, Sydney, Australia. Honoraria: The International Movement Disorder Society for course directorships and invited lectures. Patents: WO 2015/157794 A1. Grants: 2018–22 NHMRC Partnership grant (APP1151906); 2018–22 MRFF NHMRC Practitioner Fellowship (App1136800); 2020–2025 NHMRC Partnership grant (APP11179029); 2020–2023 NHMRC Ideas Grant (APP1184403); 2021–5 MRFF 2020 Genomics Health Futures Mission Grant (APP2007959); 2021–23 ASAP Project grant ; Funding text 2: Natalya Y. Abramycheva: Employment: Research Center of Neurology, Ministry of Science and Higher Education of the Russian Federation, Moscow, Russia. Grants: Russian Science Foundation ; Funding text 3: Rachel Saunders?Pullman: Employment: Icahn School of Medicine at Mount Sinai, New York City, New York, USA. Grants: NIH 1U01NS107016?01A1; Bigglesworth Family Foundation. Others: Bachmann?Strauss Chair ; Funding text 4: Zbigniew K. Wszolek: Advisory Boards: Vigil Neuroscience, Inc. Employment: Mayo Clinic, Jacksonville, Florida, USA. Grants: NIH/NIA and NIH/NINDS (1U19AG063911, FAIN: U19AG063911), Mayo Clinic Center for Regenerative Medicine, PI or co?PI on Biohaven Pharmaceuticals, Inc. (BHV4157?206 and BHV3241?301), Neuraly, Inc. (NLY01?PD?1), and Vigil Neuroscience, Inc. (VGL101?01.001 and VGL101?01.002). He also serves as the co?PI of the Mayo Clinic APDA Center for Advanced Research. Others: Donations from the Donald G. and Jodi P. Heeringa Family, the Haworth Family Professorship in Neurodegenerative Diseases fund, and The Albertson Parkinson's Research Foundation ; Funding text 5: Vladimir S. Kostic: Employment: School of Medicine, University of Belgrade, Serbia. Grants: Project No 175090 Ministry of Education, Science and Technological Development of Serbia. Project ??28 Serbian Academy of S

Published

2023

9. Nomenclature of Genetic Movement Disorders: Recommendations of the International Parkinson and Movement Disorder Society Task Force - An Update

Author

Lange, L.M., Gonzalez-Latapi, P., Rajalingam, R., Tijssen, Marina A. J., Ebrahimi-Fakhari, D., Gabbert, C., Ganos, C., Ghosh, R., Kumar, K.R., Lang, A.E., Rossi, M., Veen, S. ter, Warrenburg, B.P.C. van de, Warner, T., Lohmann, K., Klein, C., Marras, C., Lange, L.M., Gonzalez-Latapi, P., Rajalingam, R., Tijssen, Marina A. J., Ebrahimi-Fakhari, D., Gabbert, C., Ganos, C., Ghosh, R., Kumar, K.R., Lang, A.E., Rossi, M., Veen, S. ter, Warrenburg, B.P.C. van de, Warner, T., Lohmann, K., Klein, C., and Marras, C.

Abstract

Contains fulltext : 252096.pdf (Publisher’s version ) (Open Access), In 2016, the Movement Disorder Society Task Force for the Nomenclature of Genetic Movement Disorders presented a new system for naming genetically determined movement disorders and provided a criterion-based list of confirmed monogenic movement disorders. Since then, a substantial number of novel disease-causing genes have been described, which warrant classification using this system. In addition, with this update, we further refined the system and propose dissolving the imaging-based categories of Primary Familial Brain Calcification and Neurodegeneration with Brain Iron Accumulation and reclassifying these genetic conditions according to their predominant phenotype. We also introduce the novel category of Mixed Movement Disorders (MxMD), which includes conditions linked to multiple equally prominent movement disorder phenotypes. In this article, we present updated lists of newly confirmed monogenic causes of movement disorders. We found a total of 89 different newly identified genes that warrant a prefix based on our criteria; 6 genes for parkinsonism, 21 for dystonia, 38 for dominant and recessive ataxia, 5 for chorea, 7 for myoclonus, 13 for spastic paraplegia, 3 for paroxysmal movement disorders, and 6 for mixed movement disorder phenotypes; 10 genes were linked to combined phenotypes and have been assigned two new prefixes. The updated lists represent a resource for clinicians and researchers alike and they have also been published on the website of the Task Force for the Nomenclature of Genetic Movement Disorders on the homepage of the International Parkinson and Movement Disorder Society (https://www.movementdisorders.org/MDS/About/Committees--Other-Groups/MDS-Task-Forces/Task-Force-on-Nomenclature-in-Movement-Disorders.htm). © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society.

Published

2022

10. Nomenclature of Genetic Movement Disorders: Recommendations of the International Parkinson and Movement Disorder Society Task Force - An Update

Author

Lange, L.M., Gonzalez-Latapi, P., Rajalingam, R., Tijssen, Marina A. J., Ebrahimi-Fakhari, D., Gabbert, C., Ganos, C., Ghosh, R., Kumar, K.R., Lang, A.E., Rossi, M., Veen, S. ter, Warrenburg, B.P.C. van de, Warner, T., Lohmann, K., Klein, C., Marras, C., Lange, L.M., Gonzalez-Latapi, P., Rajalingam, R., Tijssen, Marina A. J., Ebrahimi-Fakhari, D., Gabbert, C., Ganos, C., Ghosh, R., Kumar, K.R., Lang, A.E., Rossi, M., Veen, S. ter, Warrenburg, B.P.C. van de, Warner, T., Lohmann, K., Klein, C., and Marras, C.

Abstract

Contains fulltext : 252096.pdf (Publisher’s version ) (Open Access), In 2016, the Movement Disorder Society Task Force for the Nomenclature of Genetic Movement Disorders presented a new system for naming genetically determined movement disorders and provided a criterion-based list of confirmed monogenic movement disorders. Since then, a substantial number of novel disease-causing genes have been described, which warrant classification using this system. In addition, with this update, we further refined the system and propose dissolving the imaging-based categories of Primary Familial Brain Calcification and Neurodegeneration with Brain Iron Accumulation and reclassifying these genetic conditions according to their predominant phenotype. We also introduce the novel category of Mixed Movement Disorders (MxMD), which includes conditions linked to multiple equally prominent movement disorder phenotypes. In this article, we present updated lists of newly confirmed monogenic causes of movement disorders. We found a total of 89 different newly identified genes that warrant a prefix based on our criteria; 6 genes for parkinsonism, 21 for dystonia, 38 for dominant and recessive ataxia, 5 for chorea, 7 for myoclonus, 13 for spastic paraplegia, 3 for paroxysmal movement disorders, and 6 for mixed movement disorder phenotypes; 10 genes were linked to combined phenotypes and have been assigned two new prefixes. The updated lists represent a resource for clinicians and researchers alike and they have also been published on the website of the Task Force for the Nomenclature of Genetic Movement Disorders on the homepage of the International Parkinson and Movement Disorder Society (https://www.movementdisorders.org/MDS/About/Committees--Other-Groups/MDS-Task-Forces/Task-Force-on-Nomenclature-in-Movement-Disorders.htm). © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society.

Published

2022

11. Using global team science to identify genetic parkinson's disease worldwide

Author

Vollstedt, E, Kasten, M, Klein, C, Aasly, J, Adler, C, Ahmad-Annuar, A, Albanese, A, Alcalay, R, Al-Mubarak, B, Alvarez, V, Andree-Munoz, B, Annesi, G, Appel-Cresswell, S, Arkadir, D, Armasu, S, Barber, T, Bardien, S, Barkhuizen, M, Barrett, M, Basak, A, Beach, T, Benitez, B, Berg, D, Bhatia, K, Binkofski, F, Blauwendraat, C, Bonifati, V, Borges, V, Bozi, M, Brice, A, Brighina, L, Brockmann, K, Brucke, T, Bruggemann, N, Camacho, M, Cardoso, F, Belin, A, Carr, J, Chan, P, Chang-Castello, J, Chase, B, Chen-Plotkin, A, Ju Chung, S, Cilia, R, Clarimon, J, Clark, L, Cornejo-Olivas, M, Corvol, J, Cosentino, C, Cras, P, Crosiers, D, Damasio, J, Das, P, de Carvalho Aguiar, P, De Michele, G, De Rosa, A, Dieguez, E, Dorszewska, J, Erer, S, Ertan, S, Farrer, M, Fedotova, E, Ferese, R, Ferrarese, C, Ferraz, H, Fiala, O, Foroud, T, Friedman, A, Frigerio, R, Funayama, M, Gambardella, S, Garraux, G, Gatto, E, Genc, G, Giladi, N, Goldwurm, S, Gomez-Esteban, J, Gomez-Garre, P, Gorostidi, A, Grosset, D, Hanagasi, H, Hardy, J, Hassan, A, Hattori, N, Hauser, R, Hedera, P, Hentati, F, Hertz, J, Holton, J, Houlden, H, Hutz, M, Ikeuchi, T, Illarioshkin, S, Inca-Martinez, M, Infante, J, Jankovic, J, Jeon, B, Jesus, S, Jimenez-Del-Rio, M, Kaasinen, V, Kataoka, H, Kawakami, H, Kim, Y, Klivenyi, P, Koks, S, Konig, I, Kostic, V, Koziorowski, D, Kruger, R, Krygowska-Wajs, A, Kulisevsky, J, Lai, D, Lang, A, Ledoux, M, Lesage, S, Lim, S, Lin, C, Lohmann, K, Lopera, F, Lopez, G, Lu, C, Lynch, T, Machaczka, M, Madoev, H, Magalhaes, M, Majamaa, K, Maraganore, D, Marder, K, Markopoulou, K, Martikainen, M, Mata, I, Mazzetti, P, Mellick, G, Menendez-Gonzalez, M, Micheli, F, Mirelman, A, Mir, P, Morino, H, Morris, H, Munhoz, R, Naito, A, Olszewska, D, Ozelius, L, Padmanabhan, S, Paisan-Ruiz, C, Payami, H, Peluso, S, Petkovic, S, Petrucci, S, Pezzoli, G, Pimentel, M, Pirker, W, Pramstaller, P, Pulkes, T, Puschmann, A, Quattrone, A, Raggio, V, Ransmayr, G, Rieder, C, Riess, O, Rodriguez-Porcel, F, Rogaeva, E, Ross, O, Ruiz-Martinez, J, Sammler, E, San Luciano, M, Satake, W, Saunders-Pullman, R, Sazci, A, Scherzer, C, Schrag, A, Schumacher-Schuh, A, Sharma, M, Sidransky, E, Singleton, A, Petersen, M, Smolders, S, Spitz, M, Stefanis, L, Struhal, W, Sue, C, Swan, M, Swanberg, M, Taba, P, Taipa, R, Tan, M, Tan, A, Tan, E, Tang, B, Tayebi, N, Thaler, A, Thomas, A, Toda, T, Toft, M, Torres, L, Tumas, V, Valente, E, Van Broeckhoven, C, Vecsei, L, Velez-Pardo, C, Vidailhet, M, Warner, T, Williams-Gray, C, Winkelmann, J, Woitalla, D, Wood, N, Wszolek, Z, Wu, R, Wu, Y, Xie, T, Yoshino, H, Zhang, B, Zimprich, A, Vollstedt E. -J., Kasten M., Klein C., Aasly J., Adler C., Ahmad-Annuar A., Albanese A., Alcalay R. N., Al-Mubarak B., Alvarez V., Andree-Munoz B., Annesi G., Appel-Cresswell S., Arkadir D., Armasu S., Barber T. R., Bardien S., Barkhuizen M., Barrett M. J., Basak A. N., Beach T., Benitez B. A., Berg D., Bhatia K., Binkofski F., Blauwendraat C., Bonifati V., Borges V., Bozi M., Brice A., Brighina L., Brockmann K., Brucke T., Bruggemann N., Camacho M., Cardoso F., Belin A. C., Carr J., Chan P., Chang-Castello J., Chase B., Chen-Plotkin A., Ju Chung S., Cilia R., Clarimon J., Clark L., Cornejo-Olivas M., Corvol J. -C., Cosentino C., Cras P., Crosiers D., Damasio J., Das P., de Carvalho Aguiar P., De Michele G., De Rosa A., Dieguez E., Dorszewska J., Erer S., Ertan S., Farrer M., Fedotova E., Ferese R., Ferrarese C., Ferraz H., Fiala O., Foroud T., Friedman A., Frigerio R., Funayama M., Gambardella S., Garraux G., Gatto E. M., Genc G., Giladi N., Goldwurm S., Gomez-Esteban J. C., Gomez-Garre P., Gorostidi A., Grosset D., Hanagasi H., Hardy J., Hassan A., Hattori N., Hauser R. A., Hedera P., Hentati F., Hertz J. M., Holton J. L., Houlden H., Hutz M. H., Ikeuchi T., Illarioshkin S., Inca-Martinez M., Infante J., Jankovic J., Jeon B. S., Jesus S., Jimenez-Del-Rio M., Kaasinen V., Kataoka H., Kawakami H., Kim Y. J., Klivenyi P., Koks S., Konig I. R., Kostic V., Koziorowski D., Kruger R., Krygowska-Wajs A., Kulisevsky J., Lai D., Lang A., LeDoux M., Lesage S., Lim S. -Y., Lin C. -H., Lohmann K., Lopera F., Lopez G., Lu C. -S., Lynch T., Machaczka M., Madoev H., Magalhaes M., Majamaa K., Maraganore D., Marder K., Markopoulou K., Martikainen M. H., Mata I., Mazzetti P., Mellick G., Menendez-Gonzalez M., Micheli F., Mirelman A., Mir P., Morino H., Morris H., Munhoz R. P., Naito A., Olszewska D. A., Ozelius L. J., Padmanabhan S., Paisan-Ruiz C., Payami H., Peluso S., Petkovic S., Petrucci S., Pezzoli G., Pimentel M., Pirker W., Pramstaller P. P., Pulkes T., Puschmann A., Quattrone A., Raggio V., Ransmayr G., Rieder C., Riess O., Rodriguez-Porcel F., Rogaeva E., Ross O. A., Ruiz-Martinez J., Sammler E., San Luciano M., Satake W., Saunders-Pullman R., Sazci A., Scherzer C., Schrag A., Schumacher-Schuh A., Sharma M., Sidransky E., Singleton A. B., Petersen M. S., Smolders S., Spitz M., Stefanis L., Struhal W., Sue C. M., Swan M., Swanberg M., Taba P., Taipa R., Tan M., Tan A. H., Tan E. -K., Tang B., Tayebi N., Thaler A., Thomas A., Toda T., Toft M., Torres L., Tumas V., Valente E. M., Van Broeckhoven C., Vecsei L., Velez-Pardo C., Vidailhet M., Warner T. T., Williams-Gray C. H., Winkelmann J., Woitalla D., Wood N. W., Wszolek Z. K., Wu R. -M., Wu Y. -R., Xie T., Yoshino H., Zhang B., Zimprich A., Vollstedt, E, Kasten, M, Klein, C, Aasly, J, Adler, C, Ahmad-Annuar, A, Albanese, A, Alcalay, R, Al-Mubarak, B, Alvarez, V, Andree-Munoz, B, Annesi, G, Appel-Cresswell, S, Arkadir, D, Armasu, S, Barber, T, Bardien, S, Barkhuizen, M, Barrett, M, Basak, A, Beach, T, Benitez, B, Berg, D, Bhatia, K, Binkofski, F, Blauwendraat, C, Bonifati, V, Borges, V, Bozi, M, Brice, A, Brighina, L, Brockmann, K, Brucke, T, Bruggemann, N, Camacho, M, Cardoso, F, Belin, A, Carr, J, Chan, P, Chang-Castello, J, Chase, B, Chen-Plotkin, A, Ju Chung, S, Cilia, R, Clarimon, J, Clark, L, Cornejo-Olivas, M, Corvol, J, Cosentino, C, Cras, P, Crosiers, D, Damasio, J, Das, P, de Carvalho Aguiar, P, De Michele, G, De Rosa, A, Dieguez, E, Dorszewska, J, Erer, S, Ertan, S, Farrer, M, Fedotova, E, Ferese, R, Ferrarese, C, Ferraz, H, Fiala, O, Foroud, T, Friedman, A, Frigerio, R, Funayama, M, Gambardella, S, Garraux, G, Gatto, E, Genc, G, Giladi, N, Goldwurm, S, Gomez-Esteban, J, Gomez-Garre, P, Gorostidi, A, Grosset, D, Hanagasi, H, Hardy, J, Hassan, A, Hattori, N, Hauser, R, Hedera, P, Hentati, F, Hertz, J, Holton, J, Houlden, H, Hutz, M, Ikeuchi, T, Illarioshkin, S, Inca-Martinez, M, Infante, J, Jankovic, J, Jeon, B, Jesus, S, Jimenez-Del-Rio, M, Kaasinen, V, Kataoka, H, Kawakami, H, Kim, Y, Klivenyi, P, Koks, S, Konig, I, Kostic, V, Koziorowski, D, Kruger, R, Krygowska-Wajs, A, Kulisevsky, J, Lai, D, Lang, A, Ledoux, M, Lesage, S, Lim, S, Lin, C, Lohmann, K, Lopera, F, Lopez, G, Lu, C, Lynch, T, Machaczka, M, Madoev, H, Magalhaes, M, Majamaa, K, Maraganore, D, Marder, K, Markopoulou, K, Martikainen, M, Mata, I, Mazzetti, P, Mellick, G, Menendez-Gonzalez, M, Micheli, F, Mirelman, A, Mir, P, Morino, H, Morris, H, Munhoz, R, Naito, A, Olszewska, D, Ozelius, L, Padmanabhan, S, Paisan-Ruiz, C, Payami, H, Peluso, S, Petkovic, S, Petrucci, S, Pezzoli, G, Pimentel, M, Pirker, W, Pramstaller, P, Pulkes, T, Puschmann, A, Quattrone, A, Raggio, V, Ransmayr, G, Rieder, C, Riess, O, Rodriguez-Porcel, F, Rogaeva, E, Ross, O, Ruiz-Martinez, J, Sammler, E, San Luciano, M, Satake, W, Saunders-Pullman, R, Sazci, A, Scherzer, C, Schrag, A, Schumacher-Schuh, A, Sharma, M, Sidransky, E, Singleton, A, Petersen, M, Smolders, S, Spitz, M, Stefanis, L, Struhal, W, Sue, C, Swan, M, Swanberg, M, Taba, P, Taipa, R, Tan, M, Tan, A, Tan, E, Tang, B, Tayebi, N, Thaler, A, Thomas, A, Toda, T, Toft, M, Torres, L, Tumas, V, Valente, E, Van Broeckhoven, C, Vecsei, L, Velez-Pardo, C, Vidailhet, M, Warner, T, Williams-Gray, C, Winkelmann, J, Woitalla, D, Wood, N, Wszolek, Z, Wu, R, Wu, Y, Xie, T, Yoshino, H, Zhang, B, Zimprich, A, Vollstedt E. -J., Kasten M., Klein C., Aasly J., Adler C., Ahmad-Annuar A., Albanese A., Alcalay R. N., Al-Mubarak B., Alvarez V., Andree-Munoz B., Annesi G., Appel-Cresswell S., Arkadir D., Armasu S., Barber T. R., Bardien S., Barkhuizen M., Barrett M. J., Basak A. N., Beach T., Benitez B. A., Berg D., Bhatia K., Binkofski F., Blauwendraat C., Bonifati V., Borges V., Bozi M., Brice A., Brighina L., Brockmann K., Brucke T., Bruggemann N., Camacho M., Cardoso F., Belin A. C., Carr J., Chan P., Chang-Castello J., Chase B., Chen-Plotkin A., Ju Chung S., Cilia R., Clarimon J., Clark L., Cornejo-Olivas M., Corvol J. -C., Cosentino C., Cras P., Crosiers D., Damasio J., Das P., de Carvalho Aguiar P., De Michele G., De Rosa A., Dieguez E., Dorszewska J., Erer S., Ertan S., Farrer M., Fedotova E., Ferese R., Ferrarese C., Ferraz H., Fiala O., Foroud T., Friedman A., Frigerio R., Funayama M., Gambardella S., Garraux G., Gatto E. M., Genc G., Giladi N., Goldwurm S., Gomez-Esteban J. C., Gomez-Garre P., Gorostidi A., Grosset D., Hanagasi H., Hardy J., Hassan A., Hattori N., Hauser R. A., Hedera P., Hentati F., Hertz J. M., Holton J. L., Houlden H., Hutz M. H., Ikeuchi T., Illarioshkin S., Inca-Martinez M., Infante J., Jankovic J., Jeon B. S., Jesus S., Jimenez-Del-Rio M., Kaasinen V., Kataoka H., Kawakami H., Kim Y. J., Klivenyi P., Koks S., Konig I. R., Kostic V., Koziorowski D., Kruger R., Krygowska-Wajs A., Kulisevsky J., Lai D., Lang A., LeDoux M., Lesage S., Lim S. -Y., Lin C. -H., Lohmann K., Lopera F., Lopez G., Lu C. -S., Lynch T., Machaczka M., Madoev H., Magalhaes M., Majamaa K., Maraganore D., Marder K., Markopoulou K., Martikainen M. H., Mata I., Mazzetti P., Mellick G., Menendez-Gonzalez M., Micheli F., Mirelman A., Mir P., Morino H., Morris H., Munhoz R. P., Naito A., Olszewska D. A., Ozelius L. J., Padmanabhan S., Paisan-Ruiz C., Payami H., Peluso S., Petkovic S., Petrucci S., Pezzoli G., Pimentel M., Pirker W., Pramstaller P. P., Pulkes T., Puschmann A., Quattrone A., Raggio V., Ransmayr G., Rieder C., Riess O., Rodriguez-Porcel F., Rogaeva E., Ross O. A., Ruiz-Martinez J., Sammler E., San Luciano M., Satake W., Saunders-Pullman R., Sazci A., Scherzer C., Schrag A., Schumacher-Schuh A., Sharma M., Sidransky E., Singleton A. B., Petersen M. S., Smolders S., Spitz M., Stefanis L., Struhal W., Sue C. M., Swan M., Swanberg M., Taba P., Taipa R., Tan M., Tan A. H., Tan E. -K., Tang B., Tayebi N., Thaler A., Thomas A., Toda T., Toft M., Torres L., Tumas V., Valente E. M., Van Broeckhoven C., Vecsei L., Velez-Pardo C., Vidailhet M., Warner T. T., Williams-Gray C. H., Winkelmann J., Woitalla D., Wood N. W., Wszolek Z. K., Wu R. -M., Wu Y. -R., Xie T., Yoshino H., Zhang B., and Zimprich A.

Published

2019

12. EIF2AK2 Missense Variants Associated with Early Onset Generalized Dystonia

Author

Kuipers, D. (Demy), Mandemakers, W.J. (Wim), Lu, C.-S. (Chin-Song), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Fevga, C. (Christina), Tadic, V. (Vera), Carecchio, M. (Miryam), Osterman, B. (Bradley), Sagi-Dain, L. (Lena), Wu-Chou, Y.H. (Yah-Huei), Chen, C.C. (Chiung C.), Chang, H.C. (Hsiu-Chen), Wu, S.-L. (Shey-Lin), Yeh, T.-H. (Tu-Hsueh), Weng, Y.H. (Yi Hsin), Elia, A.E. (Antonio E.), Panteghini, C. (Celeste), Marotta, N. (Nicolas), Pauly, M.G. (Martje G.), Kühn, A.A. (Andrea A.), Volkmann, J. (Jens), Lace, B. (Baiba), Meijer, I.A. (Inge A.), Kandaswamy, K. (Krishna), Quadri, M. (Marialuisa), Garavaglia, B. (Barbara), Lohmann, K. (Katja), Bauer, P. (Peter), Mencacci, N.E. (Niccolo), Lubbe, S.J. (Steven J.), Klein, C. (Christoph), Bertoli Avella, A.M. (Aida), Bonifati, V. (Vincenzo), Kuipers, D. (Demy), Mandemakers, W.J. (Wim), Lu, C.-S. (Chin-Song), Olgiati, S. (Simone), Breedveld, G.J. (Guido), Fevga, C. (Christina), Tadic, V. (Vera), Carecchio, M. (Miryam), Osterman, B. (Bradley), Sagi-Dain, L. (Lena), Wu-Chou, Y.H. (Yah-Huei), Chen, C.C. (Chiung C.), Chang, H.C. (Hsiu-Chen), Wu, S.-L. (Shey-Lin), Yeh, T.-H. (Tu-Hsueh), Weng, Y.H. (Yi Hsin), Elia, A.E. (Antonio E.), Panteghini, C. (Celeste), Marotta, N. (Nicolas), Pauly, M.G. (Martje G.), Kühn, A.A. (Andrea A.), Volkmann, J. (Jens), Lace, B. (Baiba), Meijer, I.A. (Inge A.), Kandaswamy, K. (Krishna), Quadri, M. (Marialuisa), Garavaglia, B. (Barbara), Lohmann, K. (Katja), Bauer, P. (Peter), Mencacci, N.E. (Niccolo), Lubbe, S.J. (Steven J.), Klein, C. (Christoph), Bertoli Avella, A.M. (Aida), and Bonifati, V. (Vincenzo)

Abstract

Objective: The study was undertaken to identify a monogenic cause of early onset, generalized dystonia. Methods: Methods consisted of genome-wide linkage analysis, exome and Sanger sequencing, clinical neurological examination, brain magnetic resonance imaging, and protein expression studies in skin fibroblasts from patients. Results: We identified a heterozygous variant, c.388G>A, p.Gly130Arg, in the eukaryotic tra

Published

2020

13. Northern Hemisphere blocking simulation in current climate models: evaluating progress from the Climate Model Intercomparison Project Phase 5 to 6 and sensitivity to resolution

Author

Ministerio de Economía y Competitividad (España), Schiemann R., Athanasiadis P., Barriopedro, David, Doblas-Reyes F., Lohmann K., Roberts M.J., Sein D.V., Roberts C.D., Terray L., Ministerio de Economía y Competitividad (España), Schiemann R., Athanasiadis P., Barriopedro, David, Doblas-Reyes F., Lohmann K., Roberts M.J., Sein D.V., Roberts C.D., and Terray L.

Abstract

Global climate models (GCMs) are known to suffer from biases in the simulation of atmospheric blocking, and this study provides an assessment of how blocking is represented by the latest generation of GCMs. It is evaluated (i) how historical CMIP6 (Climate Model Intercomparison Project Phase 6) simulations perform compared to CMIP5 simulations and (ii) how horizontal model resolution affects the simulation of blocking in the CMIP6-HighResMIP (PRIMAVERA ¿ PRocess-based climate sIMulation: AdVances in high-resolution modelling and European climate Risk Assessment) model ensemble, which is designed to address this type of question. Two blocking indices are used to evaluate the simulated mean blocking frequency and blocking persistence for the Euro-Atlantic and Pacific regions in winter and summer against the corresponding estimates from atmospheric reanalysis data. There is robust evidence that CMIP6 models simulate blocking frequency and persistence better than CMIP5 models in the Atlantic and Pacific and during winter and summer. This improvement is sizeable so that, for example, winter blocking frequency in the median CMIP5 model in a large Euro-Atlantic domain is underestimated by 33% using the absolute geopotential height (AGP) blocking index, whereas the same number is 18% for the median CMIP6 model. As for the sensitivity of simulated blocking to resolution, it is found that the resolution increase, from typically 100 to 20 km grid spacing, in most of the PRIMAVERA models, which are not re-tuned at the higher resolutions, benefits the mean blocking frequency in the Atlantic in winter and summer and in the Pacific in summer. Simulated blocking persistence, however, is not seen to improve with resolution. Our results are consistent with previous studies suggesting that resolution is one of a number of interacting factors necessary for an adequate simulation of blocking in GCMs. The improvements reported in this study hold promise for further reductions in blocking

Published

2020

14. Using global team science to identify genetic Parkinson's disease worldwide

Author

Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., Zimprich, A., Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., and Zimprich, A.

Abstract

Talks on rare diseases in the field of neurology often start with a statement like this: “About 80% of all rare diseases have a neurologic manifestation and about 80% of those are genetic in origin.” Although these numbers probably represent more of an estimate than well‐documented evidence, rapidly advancing and cost‐effective sequencing technologies have led to the quickly growing identification of patients with hereditary neurological diseases...

Published

2019

15. Using global team science to identify genetic Parkinson's disease worldwide

Author

Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., Zimprich, A., Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., and Zimprich, A.

Abstract

Talks on rare diseases in the field of neurology often start with a statement like this: “About 80% of all rare diseases have a neurologic manifestation and about 80% of those are genetic in origin.” Although these numbers probably represent more of an estimate than well‐documented evidence, rapidly advancing and cost‐effective sequencing technologies have led to the quickly growing identification of patients with hereditary neurological diseases...

Published

2019

16. Using global team science to identify genetic Parkinson's disease worldwide

Author

Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., Zimprich, A., Vollstedt, E‐J, Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad‐Annuar, A., Albanese, A., Alcalay, R., Al‐Mubarak, B., Alvarez, V., Andree‐Muñoz, B., Annesi, G., Appel‐Cresswell, S., Arkadir, D., Armasu, S., Barber, T.R., Bardien, S., Barkhuizen, M., Barrett, M.J., BaŞak, A.N., Beach, T., Benitez, B.A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brüggemann, N., Camacho, M., Cardoso, F., Belin, A.C., Carr, J., Chan, P., Chang‐Castello, J., Chase, B., Chen‐Plotkin, A., Chung, S.J., Cilia, R., Clarimon, J., Clark, L., Cornejo‐Olivas, M., Corvol, J‐C, Cosentino, C., Cras, P., Crosiers, D., Damásio, J., Das, P., Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E.M., Genç, G., Goldwurm, S., Gomez‐Esteban, J.C., Gómez‐Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R.A., Hedera, P., Hentati, F., Hertz, J.M., Holton, J.L., Houlden, H., Hutz, M.H., Ikeuchi, T., Illarioshkin, S., Inca‐Martinez, M., Infante, J., Jankovic, J., Jeon, B.S., Jesús, S., Jimenez‐Del‐Rio, M., Kataoka, H., Kawakami, H., Kim, Y.J., Klivényi, P., Kõks, S., König, I.R., KostiĆ, V., Koziorowski, D., Krüger, R., Krygowska‐Wajs, A., Kulisevsky, J., Lang, A., LeDoux, M., Lesage, S., Lim, S‐Y, Lin, C‐H, Lohmann, K., Lopera, F., Lopez, G., Lu, C‐S, Lynch, T., Machaczka, M., Madoev, H., Magalhães, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M.H., Mata, I., Mazzetti, P., Mellick, G., Menéndez‐González, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R.P., Naito, A., Olszewska, D.A., Ozelius, L.J., Padmanabhan, S., Paisán‐Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P.P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez‐Porcel, F., Rogaeva, E., Ross, O.A., Ruiz‐Martinez, J., Sammler, E., Luciano, M.S., Satake, W., Saunders‐Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher‐Schuh, A., Sharma, M., Sidransky, E., Singleton, A.B., Petersen, M.S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A.H., Tan, E‐K, Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E.M., Van Broeckhoven, C., Vecsei, L., Velez‐Pardo, C., Vidailhet, M., Warner, T.T., Williams‐Gray, C.H., Winkelmann, J., Woitalla, D., Wood, N.W., Wszolek, Z.K., Wu, R‐M, Wu, Y‐R, Xie, T., Yoshino, H., Zhang, B., and Zimprich, A.

Abstract

Talks on rare diseases in the field of neurology often start with a statement like this: “About 80% of all rare diseases have a neurologic manifestation and about 80% of those are genetic in origin.” Although these numbers probably represent more of an estimate than well‐documented evidence, rapidly advancing and cost‐effective sequencing technologies have led to the quickly growing identification of patients with hereditary neurological diseases...

Published

2019

17. Using global team science to identify genetic parkinson's disease worldwide

Author

Vollstedt, E. -J., Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad-Annuar, A., Albanese, Alberto, Alcalay, R. N., Al-Mubarak, B., Alvarez, V., Andree-Munoz, B., Annesi, G., Appel-Cresswell, S., Arkadir, D., Armasu, S., Barber, T. R., Bardien, S., Barkhuizen, M., Barrett, M. J., Basak, A. N., Beach, T., Benitez, B. A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brucke, T., Bruggemann, N., Camacho, M., Cardoso, F., Belin, A. C., Carr, J., Chan, P., Chang-Castello, J., Chase, B., Chen-Plotkin, A., Ju Chung, S., Cilia, R., Clarimon, J., Clark, L., Cornejo-Olivas, M., Corvol, J. -C., Cosentino, C., Cras, P., Crosiers, D., Damasio, J., Das, P., de Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E. M., Genc, G., Giladi, N., Goldwurm, S., Gomez-Esteban, J. C., Gomez-Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R. A., Hedera, P., Hentati, F., Hertz, J. M., Holton, J. L., Houlden, H., Hutz, M. H., Ikeuchi, T., Illarioshkin, S., Inca-Martinez, M., Infante, J., Jankovic, J., Jeon, B. S., Jesus, S., Jimenez-Del-Rio, M., Kaasinen, V., Kataoka, H., Kawakami, H., Kim, Y. J., Klivenyi, P., Koks, S., Konig, I. R., Kostic, V., Koziorowski, D., Kruger, R., Krygowska-Wajs, A., Kulisevsky, J., Lai, D., Lang, A., Ledoux, M., Lesage, S., Lim, S. -Y., Lin, C. -H., Lohmann, K., Lopera, F., Lopez, G., Lu, C. -S., Lynch, T., Machaczka, M., Madoev, H., Magalhaes, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M. H., Mata, I., Mazzetti, P., Mellick, G., Menendez-Gonzalez, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R. P., Naito, A., Olszewska, D. A., Ozelius, L. J., Padmanabhan, S., Paisan-Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P. P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez-Porcel, F., Rogaeva, E., Ross, O. A., Ruiz-Martinez, J., Sammler, E., San Luciano, M., Satake, W., Saunders-Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher-Schuh, A., Sharma, M., Sidransky, E., Singleton, A. B., Petersen, M. S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C. M., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A. H., Tan, E. -K., Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E. M., Van Broeckhoven, C., Vecsei, L., Velez-Pardo, C., Vidailhet, M., Warner, T. T., Williams-Gray, C. H., Winkelmann, J., Woitalla, D., Wood, N. W., Wszolek, Z. K., Wu, R. -M., Wu, Y. -R., Xie, T., Yoshino, H., Zhang, B., Zimprich, A., Albanese A. (ORCID:0000-0002-5864-0006), Vollstedt, E. -J., Kasten, M., Klein, C., Aasly, J., Adler, C., Ahmad-Annuar, A., Albanese, Alberto, Alcalay, R. N., Al-Mubarak, B., Alvarez, V., Andree-Munoz, B., Annesi, G., Appel-Cresswell, S., Arkadir, D., Armasu, S., Barber, T. R., Bardien, S., Barkhuizen, M., Barrett, M. J., Basak, A. N., Beach, T., Benitez, B. A., Berg, D., Bhatia, K., Binkofski, F., Blauwendraat, C., Bonifati, V., Borges, V., Bozi, M., Brice, A., Brighina, L., Brockmann, K., Brucke, T., Bruggemann, N., Camacho, M., Cardoso, F., Belin, A. C., Carr, J., Chan, P., Chang-Castello, J., Chase, B., Chen-Plotkin, A., Ju Chung, S., Cilia, R., Clarimon, J., Clark, L., Cornejo-Olivas, M., Corvol, J. -C., Cosentino, C., Cras, P., Crosiers, D., Damasio, J., Das, P., de Carvalho Aguiar, P., De Michele, G., De Rosa, A., Dieguez, E., Dorszewska, J., Erer, S., Ertan, S., Farrer, M., Fedotova, E., Ferese, R., Ferrarese, C., Ferraz, H., Fiala, O., Foroud, T., Friedman, A., Frigerio, R., Funayama, M., Gambardella, S., Garraux, G., Gatto, E. M., Genc, G., Giladi, N., Goldwurm, S., Gomez-Esteban, J. C., Gomez-Garre, P., Gorostidi, A., Grosset, D., Hanagasi, H., Hardy, J., Hassan, A., Hattori, N., Hauser, R. A., Hedera, P., Hentati, F., Hertz, J. M., Holton, J. L., Houlden, H., Hutz, M. H., Ikeuchi, T., Illarioshkin, S., Inca-Martinez, M., Infante, J., Jankovic, J., Jeon, B. S., Jesus, S., Jimenez-Del-Rio, M., Kaasinen, V., Kataoka, H., Kawakami, H., Kim, Y. J., Klivenyi, P., Koks, S., Konig, I. R., Kostic, V., Koziorowski, D., Kruger, R., Krygowska-Wajs, A., Kulisevsky, J., Lai, D., Lang, A., Ledoux, M., Lesage, S., Lim, S. -Y., Lin, C. -H., Lohmann, K., Lopera, F., Lopez, G., Lu, C. -S., Lynch, T., Machaczka, M., Madoev, H., Magalhaes, M., Majamaa, K., Maraganore, D., Marder, K., Markopoulou, K., Martikainen, M. H., Mata, I., Mazzetti, P., Mellick, G., Menendez-Gonzalez, M., Micheli, F., Mirelman, A., Mir, P., Morino, H., Morris, H., Munhoz, R. P., Naito, A., Olszewska, D. A., Ozelius, L. J., Padmanabhan, S., Paisan-Ruiz, C., Payami, H., Peluso, S., Petkovic, S., Petrucci, S., Pezzoli, G., Pimentel, M., Pirker, W., Pramstaller, P. P., Pulkes, T., Puschmann, A., Quattrone, A., Raggio, V., Ransmayr, G., Rieder, C., Riess, O., Rodriguez-Porcel, F., Rogaeva, E., Ross, O. A., Ruiz-Martinez, J., Sammler, E., San Luciano, M., Satake, W., Saunders-Pullman, R., Sazci, A., Scherzer, C., Schrag, A., Schumacher-Schuh, A., Sharma, M., Sidransky, E., Singleton, A. B., Petersen, M. S., Smolders, S., Spitz, M., Stefanis, L., Struhal, W., Sue, C. M., Swan, M., Swanberg, M., Taba, P., Taipa, R., Tan, M., Tan, A. H., Tan, E. -K., Tang, B., Tayebi, N., Thaler, A., Thomas, A., Toda, T., Toft, M., Torres, L., Tumas, V., Valente, E. M., Van Broeckhoven, C., Vecsei, L., Velez-Pardo, C., Vidailhet, M., Warner, T. T., Williams-Gray, C. H., Winkelmann, J., Woitalla, D., Wood, N. W., Wszolek, Z. K., Wu, R. -M., Wu, Y. -R., Xie, T., Yoshino, H., Zhang, B., Zimprich, A., and Albanese A. (ORCID:0000-0002-5864-0006)

Abstract

Talks on rare diseases in the field of neurology often start with a statement like this: “About 80% of all rare diseases have a neurologic manifestation and about 80% of those are genetic in origin.” Although these numbers probably represent more of an estimate than well-documented evidence, rapidly advancing and cost-effective sequencing technologies have led to the quickly growing identification of patients with hereditary neurological diseases. Although the importance of genetics for diagnosis and genetic counseling is undisputed, the recent development of first genetargeted therapies entering clinical trial1,2 is adding an important new layer to the (re-)consideration of genetic testing in neurology. However, establishing accurate genotype– phenotype and genotype–treatment relationships requires large sample sizes. Systematic reviews can serve as instruments to combine information from several small samples, but unfortunately, this is often complicated by inconsistent and incomplete reporting of clinical and genetic data across studies. Thus, large multicenter approaches are necessary to systematically and uniformly characterize patients with genetic neurologic conditions and to eventually establish sizable clinical trial-ready cohorts.

Published

2019

18. Nomenclature of genetic movement disorders: Recommendations of the International Parkinson and Movement Disorder Society task force [2016 Review of the year winner]

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext

Published

2017

19. Nomenclature of genetic movement disorders: Recommendations of the International Parkinson and Movement Disorder Society task force [2016 Review of the year winner]

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext

Published

2017

20. Nomenclature of genetic movement disorders: Recommendations of the International Parkinson and Movement Disorder Society task force [2016 Review of the year winner]

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext

Published

2017

21. Nomenclature of genetic movement disorders: Recommendations of the international Parkinson and movement disorder society task force

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext, The system of assigning locus symbols to specify chromosomal regions that are associated with a familial disorder has a number of problems when used as a reference list of genetically determined disorders,including (I) erroneously assigned loci, (II) duplicated loci, (III) missing symbols or loci, (IV) unconfirmed loci and genes, (V) a combination of causative genes and risk factor genes in the same list, and (VI) discordance between phenotype and list assignment. In this article, we report on the recommendations of the International Parkinson and Movement Disorder Society Task Force for Nomenclature of Genetic Movement Disorders and present a system for naming genetically determined movement disorders that addresses these problems. We demonstrate how the system would be applied to currently known genetically determined parkinsonism, dystonia, dominantly inherited ataxia, spastic paraparesis, chorea, paroxysmal movement disorders, neurodegeneration with brain iron accumulation, and primary familial brain calcifications. This system provides a resource for clinicians and researchers that, unlike the previous system, can be considered an accurate and criterion-based list of confirmed genetically determined movement disorders at the time it was last updated. (c) 2016 International Parkinson and Movement Disorder Society.

Published

2016

22. Reply letter to Jinnah 'Locus pocus' and Albanese 'Complex dystonia is not a category in the new 2013 consensus classification': Necessary evolution, no magic!

Author

Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., Marras, C., Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., and Marras, C.

Abstract

Item does not contain fulltext

Published

2016

23. Nomenclature of genetic movement disorders: Recommendations of the international Parkinson and movement disorder society task force

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext, The system of assigning locus symbols to specify chromosomal regions that are associated with a familial disorder has a number of problems when used as a reference list of genetically determined disorders,including (I) erroneously assigned loci, (II) duplicated loci, (III) missing symbols or loci, (IV) unconfirmed loci and genes, (V) a combination of causative genes and risk factor genes in the same list, and (VI) discordance between phenotype and list assignment. In this article, we report on the recommendations of the International Parkinson and Movement Disorder Society Task Force for Nomenclature of Genetic Movement Disorders and present a system for naming genetically determined movement disorders that addresses these problems. We demonstrate how the system would be applied to currently known genetically determined parkinsonism, dystonia, dominantly inherited ataxia, spastic paraparesis, chorea, paroxysmal movement disorders, neurodegeneration with brain iron accumulation, and primary familial brain calcifications. This system provides a resource for clinicians and researchers that, unlike the previous system, can be considered an accurate and criterion-based list of confirmed genetically determined movement disorders at the time it was last updated. (c) 2016 International Parkinson and Movement Disorder Society.

Published

2016

24. Nomenclature of genetic movement disorders: Recommendations of the international Parkinson and movement disorder society task force

Author

Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., Klein, C., Marras, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Lohmann, K., Kostic, V., and Klein, C.

Abstract

Item does not contain fulltext, The system of assigning locus symbols to specify chromosomal regions that are associated with a familial disorder has a number of problems when used as a reference list of genetically determined disorders,including (I) erroneously assigned loci, (II) duplicated loci, (III) missing symbols or loci, (IV) unconfirmed loci and genes, (V) a combination of causative genes and risk factor genes in the same list, and (VI) discordance between phenotype and list assignment. In this article, we report on the recommendations of the International Parkinson and Movement Disorder Society Task Force for Nomenclature of Genetic Movement Disorders and present a system for naming genetically determined movement disorders that addresses these problems. We demonstrate how the system would be applied to currently known genetically determined parkinsonism, dystonia, dominantly inherited ataxia, spastic paraparesis, chorea, paroxysmal movement disorders, neurodegeneration with brain iron accumulation, and primary familial brain calcifications. This system provides a resource for clinicians and researchers that, unlike the previous system, can be considered an accurate and criterion-based list of confirmed genetically determined movement disorders at the time it was last updated. (c) 2016 International Parkinson and Movement Disorder Society.

Published

2016

25. Reply letter to Jinnah 'Locus pocus' and Albanese 'Complex dystonia is not a category in the new 2013 consensus classification': Necessary evolution, no magic!

Author

Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., Marras, C., Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., and Marras, C.

Abstract

Item does not contain fulltext

Published

2016

26. Reply letter to Jinnah 'Locus pocus' and Albanese 'Complex dystonia is not a category in the new 2013 consensus classification': Necessary evolution, no magic!

Author

Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., Marras, C., Klein, C., Lang, A., Warrenburg, B.P.C. van de, Sue, C.M., Tabrizi, S.J., Bertram, L., Mercimek-Mahmutoglu, S., Ebrahimi-Fakhari, D., Warner, T.T., Durr, A., Assmann, B., Kostic, V., Lohmann, K., and Marras, C.

Abstract

Item does not contain fulltext

Published

2016

27. Short- and long-term outcome of chronic pallidal neurostimulation in monogenic isolated dystonia

Author

Luxembourg Centre for Systems Biomedicine (LCSB): Clinical & Experimental Neuroscience (Krüger Group) [research center], Bruggemann, N., Kuhn, A., Schneider, S. A., Kamm, C., Wolters, A., Krause, P., Moro, E., Steigerwald, F., Wittstock, M., Tronnier, V., Lozano, A. M., Hamani, C., Poon, Y. Y., Zittel, S., Wachter, T., Deuschl, G., Krüger, Rejko, Kupsch, A., Munchau, A., Lohmann, K., Volkmann, J., Klein, C., Luxembourg Centre for Systems Biomedicine (LCSB): Clinical & Experimental Neuroscience (Krüger Group) [research center], Bruggemann, N., Kuhn, A., Schneider, S. A., Kamm, C., Wolters, A., Krause, P., Moro, E., Steigerwald, F., Wittstock, M., Tronnier, V., Lozano, A. M., Hamani, C., Poon, Y. Y., Zittel, S., Wachter, T., Deuschl, G., Krüger, Rejko, Kupsch, A., Munchau, A., Lohmann, K., Volkmann, J., and Klein, C.

Abstract

OBJECTIVES: Deep brain stimulation of the internal pallidum (GPi-DBS) is an established therapeutic option in treatment-refractory dystonia, and the identification of factors predicting surgical outcome is needed to optimize patient selection. METHODS: In this retrospective multicenter study, GPi-DBS outcome of 8 patients with DYT6, 9 with DYT1, and 38 with isolated dystonia without known monogenic cause (non-DYT) was assessed at early (1-16 months) and late (22-92 months) follow-up using Burke-Fahn-Marsden Dystonia Rating Scale (BFMDRS) scores. RESULTS: At early follow-up, mean reduction of dystonia severity was greater in patients with DYT1 (BFMDRS score: -60%) and non-DYT dystonia (-52%) than in patients with DYT6 dystonia (-32%; p = 0.046). Accordingly, the rate of responders was considerably lower in the latter group (57% vs >90%; p = 0.017). At late follow-up, however, GPi-DBS resulted in comparable improvement in all 3 groups (DYT6, -42%; DYT1, -44; non-DYT, -61%). Additional DBS of the same or another brain target was performed in 3 of 8 patients with DYT6 dystonia with varying results. Regardless of the genotype, patients with a shorter duration from onset of dystonia to surgery had better control of dystonia postoperatively. CONCLUSIONS: Long-term GPi-DBS is effective in patients with DYT6, DYT1, and non-DYT dystonia. However, the effect of DBS appears to be less predictable in patients with DYT6, suggesting that pre-DBS genetic testing and counseling for known dystonia gene mutations may be indicated. GPi-DBS should probably be considered earlier in the disease course. CLASSIFICATION OF EVIDENCE: This study provides Class IV evidence that long-term GPi-DBS improves dystonia in patients with DYT1, DYT6, and non-DYT dystonia.

Published

2015

28. Short- and long-term outcome of chronic pallidal neurostimulation in monogenic isolated dystonia

Author

Luxembourg Centre for Systems Biomedicine (LCSB): Clinical & Experimental Neuroscience (Krüger Group) [research center], Bruggemann, N., Kuhn, A., Schneider, S. A., Kamm, C., Wolters, A., Krause, P., Moro, E., Steigerwald, F., Wittstock, M., Tronnier, V., Lozano, A. M., Hamani, C., Poon, Y. Y., Zittel, S., Wachter, T., Deuschl, G., Krüger, Rejko, Kupsch, A., Munchau, A., Lohmann, K., Volkmann, J., Klein, C., Luxembourg Centre for Systems Biomedicine (LCSB): Clinical & Experimental Neuroscience (Krüger Group) [research center], Bruggemann, N., Kuhn, A., Schneider, S. A., Kamm, C., Wolters, A., Krause, P., Moro, E., Steigerwald, F., Wittstock, M., Tronnier, V., Lozano, A. M., Hamani, C., Poon, Y. Y., Zittel, S., Wachter, T., Deuschl, G., Krüger, Rejko, Kupsch, A., Munchau, A., Lohmann, K., Volkmann, J., and Klein, C.

Abstract

OBJECTIVES: Deep brain stimulation of the internal pallidum (GPi-DBS) is an established therapeutic option in treatment-refractory dystonia, and the identification of factors predicting surgical outcome is needed to optimize patient selection. METHODS: In this retrospective multicenter study, GPi-DBS outcome of 8 patients with DYT6, 9 with DYT1, and 38 with isolated dystonia without known monogenic cause (non-DYT) was assessed at early (1-16 months) and late (22-92 months) follow-up using Burke-Fahn-Marsden Dystonia Rating Scale (BFMDRS) scores. RESULTS: At early follow-up, mean reduction of dystonia severity was greater in patients with DYT1 (BFMDRS score: -60%) and non-DYT dystonia (-52%) than in patients with DYT6 dystonia (-32%; p = 0.046). Accordingly, the rate of responders was considerably lower in the latter group (57% vs >90%; p = 0.017). At late follow-up, however, GPi-DBS resulted in comparable improvement in all 3 groups (DYT6, -42%; DYT1, -44; non-DYT, -61%). Additional DBS of the same or another brain target was performed in 3 of 8 patients with DYT6 dystonia with varying results. Regardless of the genotype, patients with a shorter duration from onset of dystonia to surgery had better control of dystonia postoperatively. CONCLUSIONS: Long-term GPi-DBS is effective in patients with DYT6, DYT1, and non-DYT dystonia. However, the effect of DBS appears to be less predictable in patients with DYT6, suggesting that pre-DBS genetic testing and counseling for known dystonia gene mutations may be indicated. GPi-DBS should probably be considered earlier in the disease course. CLASSIFICATION OF EVIDENCE: This study provides Class IV evidence that long-term GPi-DBS improves dystonia in patients with DYT1, DYT6, and non-DYT dystonia.

Published

2015

29. Exome sequencing identifies a de novo SCN2A mutation in a patient with intractable seizures, severe intellectual disability, optic atrophy, muscular hypotonia, and brain abnormalities

Author

Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., Lohmann, K., Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., and Lohmann, K.

Abstract

Item does not contain fulltext, Epilepsy is a phenotypically and genetically highly heterogeneous disorder with >200 genes linked to inherited forms of the disease. To identify the underlying genetic cause in a patient with intractable seizures, optic atrophy, severe intellectual disability (ID), brain abnormalities, and muscular hypotonia, we performed exome sequencing in a 5-year-old girl and her unaffected parents. In the patient, we detected a novel, de novo missense mutation in the SCN2A (c.5645G>T; p.R1882L) gene encoding the alphaII -subunit of the voltage-gated sodium channel Nav 1.2. A literature review revealed 33 different SCN2A mutations in 14 families with benign forms of epilepsy and in 21 cases with severe phenotypes. Although almost all benign mutations were inherited, the majority of severe mutations occurred de novo. Of interest, de novo SCN2A mutations have also been reported in five patients without seizures but with ID (n = 3) and/or autism (n = 3). In the present study, we successfully used exome sequencing to detect a de novo mutation in a genetically heterogeneous disorder with epilepsy and ID. Using this approach, we expand the phenotypic spectrum of SCN2A mutations. Our own and literature data indicate that SCN2A-linked severe phenotypes are more likely to be caused by de novo mutations. A PowerPoint slide summarizing this article is available for download in the Supporting Information section here.

Published

2014

30. Exome sequencing identifies a de novo SCN2A mutation in a patient with intractable seizures, severe intellectual disability, optic atrophy, muscular hypotonia, and brain abnormalities

Author

Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., Lohmann, K., Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., and Lohmann, K.

Abstract

Item does not contain fulltext, Epilepsy is a phenotypically and genetically highly heterogeneous disorder with >200 genes linked to inherited forms of the disease. To identify the underlying genetic cause in a patient with intractable seizures, optic atrophy, severe intellectual disability (ID), brain abnormalities, and muscular hypotonia, we performed exome sequencing in a 5-year-old girl and her unaffected parents. In the patient, we detected a novel, de novo missense mutation in the SCN2A (c.5645G>T; p.R1882L) gene encoding the alphaII -subunit of the voltage-gated sodium channel Nav 1.2. A literature review revealed 33 different SCN2A mutations in 14 families with benign forms of epilepsy and in 21 cases with severe phenotypes. Although almost all benign mutations were inherited, the majority of severe mutations occurred de novo. Of interest, de novo SCN2A mutations have also been reported in five patients without seizures but with ID (n = 3) and/or autism (n = 3). In the present study, we successfully used exome sequencing to detect a de novo mutation in a genetically heterogeneous disorder with epilepsy and ID. Using this approach, we expand the phenotypic spectrum of SCN2A mutations. Our own and literature data indicate that SCN2A-linked severe phenotypes are more likely to be caused by de novo mutations. A PowerPoint slide summarizing this article is available for download in the Supporting Information section here.

Published

2014

31. Exome sequencing identifies a de novo SCN2A mutation in a patient with intractable seizures, severe intellectual disability, optic atrophy, muscular hypotonia, and brain abnormalities

Author

Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., Lohmann, K., Baasch, A.L., Huning, I., Gilissen, C., Klepper, J., Veltman, J.A., Gillessen-Kaesbach, G., Hoischen, A., and Lohmann, K.

Abstract

Item does not contain fulltext, Epilepsy is a phenotypically and genetically highly heterogeneous disorder with >200 genes linked to inherited forms of the disease. To identify the underlying genetic cause in a patient with intractable seizures, optic atrophy, severe intellectual disability (ID), brain abnormalities, and muscular hypotonia, we performed exome sequencing in a 5-year-old girl and her unaffected parents. In the patient, we detected a novel, de novo missense mutation in the SCN2A (c.5645G>T; p.R1882L) gene encoding the alphaII -subunit of the voltage-gated sodium channel Nav 1.2. A literature review revealed 33 different SCN2A mutations in 14 families with benign forms of epilepsy and in 21 cases with severe phenotypes. Although almost all benign mutations were inherited, the majority of severe mutations occurred de novo. Of interest, de novo SCN2A mutations have also been reported in five patients without seizures but with ID (n = 3) and/or autism (n = 3). In the present study, we successfully used exome sequencing to detect a de novo mutation in a genetically heterogeneous disorder with epilepsy and ID. Using this approach, we expand the phenotypic spectrum of SCN2A mutations. Our own and literature data indicate that SCN2A-linked severe phenotypes are more likely to be caused by de novo mutations. A PowerPoint slide summarizing this article is available for download in the Supporting Information section here.

Published

2014

32. The role of subpolar deep water formation and Nordic Seas overflows in simulated multidecadal variability of the Atlantic meridional overturning circulation

Author

Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, Lorenz, S., Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, and Lorenz, S.

Abstract

We investigate the respective role of variations in subpolar deep water formation and Nordic Seas overflows for the decadal to multidecadal variability of the Atlantic meridional overturning circulation (AMOC). This is partly done by analysing long (order of 1000 years) control simulations with five coupled climate models. For all models, the maximum influence of variations in subpolar deep water formation is found at about 45° N, while the maximum influence of variations in Nordic Seas overflows is rather found at 55 to 60° N. Regarding the two overflow branches, the influence of variations in the Denmark Strait overflow is, for all models, substantially larger than that of variations in the overflow across the Iceland–Scotland Ridge. The latter might, however, be underestimated, as the models in general do not realistically simulate the flow path of the Iceland–Scotland overflow water south of the Iceland–Scotland Ridge. The influence of variations in subpolar deep water formation is, on multimodel average, larger than that of variations in the Denmark Strait overflow. This is true both at 45° N, where the maximum standard deviation of decadal to multidecadal AMOC variability is located for all but one model, and at the more classical latitude of 30° N. At 30° N, variations in subpolar deep water formation and Denmark Strait overflow explain, on multimodel average, about half and one-third respectively of the decadal to multidecadal AMOC variance. Apart from analysing multimodel control simulations, we have performed sensitivity experiments with one of the models, in which we suppress the variability of either subpolar deep water formation or Nordic Seas overflows. The sensitivity experiments indicate that variations in subpolar deep water formation and Nordic Seas overflows are not completely independent. We further conclude from these experiments that the decadal to multidecadal AMOC variability north of about 50° N is mainly related to variations in Nordic Seas

Published

2014

33. The role of subpolar deep water formation and Nordic Seas overflows in simulated multidecadal variability of the Atlantic meridional overturning circulation

Author

Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, Lorenz, S., Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, and Lorenz, S.

Abstract

We investigate the respective role of variations in subpolar deep water formation and Nordic Seas overflows for the decadal to multidecadal variability of the Atlantic meridional overturning circulation (AMOC). This is partly done by analysing long (order of 1000 years) control simulations with five coupled climate models. For all models, the maximum influence of variations in subpolar deep water formation is found at about 45° N, while the maximum influence of variations in Nordic Seas overflows is rather found at 55 to 60° N. Regarding the two overflow branches, the influence of variations in the Denmark Strait overflow is, for all models, substantially larger than that of variations in the overflow across the Iceland–Scotland Ridge. The latter might, however, be underestimated, as the models in general do not realistically simulate the flow path of the Iceland–Scotland overflow water south of the Iceland–Scotland Ridge. The influence of variations in subpolar deep water formation is, on multimodel average, larger than that of variations in the Denmark Strait overflow. This is true both at 45° N, where the maximum standard deviation of decadal to multidecadal AMOC variability is located for all but one model, and at the more classical latitude of 30° N. At 30° N, variations in subpolar deep water formation and Denmark Strait overflow explain, on multimodel average, about half and one-third respectively of the decadal to multidecadal AMOC variance. Apart from analysing multimodel control simulations, we have performed sensitivity experiments with one of the models, in which we suppress the variability of either subpolar deep water formation or Nordic Seas overflows. The sensitivity experiments indicate that variations in subpolar deep water formation and Nordic Seas overflows are not completely independent. We further conclude from these experiments that the decadal to multidecadal AMOC variability north of about 50° N is mainly related to variations in Nordic Seas

Published

2014

34. The role of subpolar deep water formation and Nordic Seas overflows in simulated multidecadal variability of the Atlantic meridional overturning circulation

Author

Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, Lorenz, S., Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, and Lorenz, S.

Abstract

We investigate the respective role of variations in subpolar deep water formation and Nordic Seas overflows for the decadal to multidecadal variability of the Atlantic meridional overturning circulation (AMOC). This is partly done by analysing long (order of 1000 years) control simulations with five coupled climate models. For all models, the maximum influence of variations in subpolar deep water formation is found at about 45° N, while the maximum influence of variations in Nordic Seas overflows is rather found at 55 to 60° N. Regarding the two overflow branches, the influence of variations in the Denmark Strait overflow is, for all models, substantially larger than that of variations in the overflow across the Iceland–Scotland Ridge. The latter might, however, be underestimated, as the models in general do not realistically simulate the flow path of the Iceland–Scotland overflow water south of the Iceland–Scotland Ridge. The influence of variations in subpolar deep water formation is, on multimodel average, larger than that of variations in the Denmark Strait overflow. This is true both at 45° N, where the maximum standard deviation of decadal to multidecadal AMOC variability is located for all but one model, and at the more classical latitude of 30° N. At 30° N, variations in subpolar deep water formation and Denmark Strait overflow explain, on multimodel average, about half and one-third respectively of the decadal to multidecadal AMOC variance. Apart from analysing multimodel control simulations, we have performed sensitivity experiments with one of the models, in which we suppress the variability of either subpolar deep water formation or Nordic Seas overflows. The sensitivity experiments indicate that variations in subpolar deep water formation and Nordic Seas overflows are not completely independent. We further conclude from these experiments that the decadal to multidecadal AMOC variability north of about 50° N is mainly related to variations in Nordic Seas

Published

2014

35. The role of subpolar deep water formation and Nordic Seas overflows in simulated multidecadal variability of the Atlantic meridional overturning circulation

Author

Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, Lorenz, S., Lohmann, K., Jungclaus, J. H., Matei, D., Mignot, J., Menary, M., Langehaug, H. R., Ba, Jin, Gao, Y., Otterå, O. H., Park, Wonsun, and Lorenz, S.

Abstract

We investigate the respective role of variations in subpolar deep water formation and Nordic Seas overflows for the decadal to multidecadal variability of the Atlantic meridional overturning circulation (AMOC). This is partly done by analysing long (order of 1000 years) control simulations with five coupled climate models. For all models, the maximum influence of variations in subpolar deep water formation is found at about 45° N, while the maximum influence of variations in Nordic Seas overflows is rather found at 55 to 60° N. Regarding the two overflow branches, the influence of variations in the Denmark Strait overflow is, for all models, substantially larger than that of variations in the overflow across the Iceland–Scotland Ridge. The latter might, however, be underestimated, as the models in general do not realistically simulate the flow path of the Iceland–Scotland overflow water south of the Iceland–Scotland Ridge. The influence of variations in subpolar deep water formation is, on multimodel average, larger than that of variations in the Denmark Strait overflow. This is true both at 45° N, where the maximum standard deviation of decadal to multidecadal AMOC variability is located for all but one model, and at the more classical latitude of 30° N. At 30° N, variations in subpolar deep water formation and Denmark Strait overflow explain, on multimodel average, about half and one-third respectively of the decadal to multidecadal AMOC variance. Apart from analysing multimodel control simulations, we have performed sensitivity experiments with one of the models, in which we suppress the variability of either subpolar deep water formation or Nordic Seas overflows. The sensitivity experiments indicate that variations in subpolar deep water formation and Nordic Seas overflows are not completely independent. We further conclude from these experiments that the decadal to multidecadal AMOC variability north of about 50° N is mainly related to variations in Nordic Seas

Published

2014

36. Glucocerebrosidase mutations in a Serbian Parkinson's disease population.

Author

Kumar, K. R., Ramirez, A., Gobel, A., Kresojevic, N., Svetel, M., Lohmann, K., M Sue, C., Rolfs, A., Mazzulli, J. R., Alcalay, R. N., Krainc, D., Klein, Christine, Kostic, V., Grünewald, Anne, Kumar, K. R., Ramirez, A., Gobel, A., Kresojevic, N., Svetel, M., Lohmann, K., M Sue, C., Rolfs, A., Mazzulli, J. R., Alcalay, R. N., Krainc, D., Klein, Christine, Kostic, V., and Grünewald, Anne

Abstract

BACKGROUND AND PURPOSE: To screen for glucocerebrosidase (GBA) mutations in a Serbian Parkinson's disease (PD) population. METHODS: Glucocerebrosidase exons 8-11 harbouring the most common mutations were sequenced in 360 patients with PD and 348 controls from Serbia. Haplotype analysis was performed for the N370S mutation and compared with German and Ashkenazi Jewish carriers. RESULTS: Glucocerebrosidase mutations were significantly more frequent in patients with PD (21/360; 5.8%) vs. controls (5/348; 1.4%; OR = 4.25; CI, 1.58-11.40; P = 0.0041). Two patients with PD carried homozygous or compound heterozygous mutations in GBA. The N370S mutation accounted for about half of the mutated alleles in patients (10/23) but was absent amongst controls. Three novel variants were detected including two non-synonymous variants (D380V, N392S) in the patient group and one synonymous change (V459V) in a control. Carriers of the D409H mutation were also sequenced for H255Q, and all were found to carry the [D409H; H255Q] double-mutant allele. Genotyping suggested a common haplotype for all N370S carriers. CONCLUSION: Glucocerebrosidase mutations represent a PD risk factor in the Serbian population.

Published

2013

37. Glucocerebrosidase mutations in a Serbian Parkinson's disease population.

Author

Kumar, K. R., Ramirez, A., Gobel, A., Kresojevic, N., Svetel, M., Lohmann, K., M Sue, C., Rolfs, A., Mazzulli, J. R., Alcalay, R. N., Krainc, D., Klein, Christine, Kostic, V., Grünewald, Anne, Kumar, K. R., Ramirez, A., Gobel, A., Kresojevic, N., Svetel, M., Lohmann, K., M Sue, C., Rolfs, A., Mazzulli, J. R., Alcalay, R. N., Krainc, D., Klein, Christine, Kostic, V., and Grünewald, Anne

Abstract

BACKGROUND AND PURPOSE: To screen for glucocerebrosidase (GBA) mutations in a Serbian Parkinson's disease (PD) population. METHODS: Glucocerebrosidase exons 8-11 harbouring the most common mutations were sequenced in 360 patients with PD and 348 controls from Serbia. Haplotype analysis was performed for the N370S mutation and compared with German and Ashkenazi Jewish carriers. RESULTS: Glucocerebrosidase mutations were significantly more frequent in patients with PD (21/360; 5.8%) vs. controls (5/348; 1.4%; OR = 4.25; CI, 1.58-11.40; P = 0.0041). Two patients with PD carried homozygous or compound heterozygous mutations in GBA. The N370S mutation accounted for about half of the mutated alleles in patients (10/23) but was absent amongst controls. Three novel variants were detected including two non-synonymous variants (D380V, N392S) in the patient group and one synonymous change (V459V) in a control. Carriers of the D409H mutation were also sequenced for H255Q, and all were found to carry the [D409H; H255Q] double-mutant allele. Genotyping suggested a common haplotype for all N370S carriers. CONCLUSION: Glucocerebrosidase mutations represent a PD risk factor in the Serbian population.

Published

2013

38. Depression and quality of life in monogenic compared to idiopathic, early-onset Parkinson's disease.

Author

Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., Klein, C., Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., and Klein, C.

Abstract

1 mei 2012, Item does not contain fulltext, Quality of life (QoL) is decreased in PD and is linked with depression and anxiety. However, little is known about QoL in monogenic PD. Subjects with mutations in PD genes were recruited from ongoing family and genetic studies (manifesting carriers, n = 23; nonmanifesting carriers, n = 19). For comparison purposes, we included patients with idiopathic PD (IPD; n = 128; early onset, n = 38; late onset, n = 90), healthy controls (n = 127), and data on depressive symptoms of 144 patients with major depression (treated controls). Depression affected 31% of early-onset PD cases, 21% of late-onset cases, and 44% of manifesting carriers of mutations in PD genes, but was rare in the nonmanifesting carriers (7%) and healthy controls (5%). Subjects with Parkinson-associated depression reported fewer feelings of guilt or self-doubt than treated controls, but the occurrence of suicidal ideation was associated with severity of depression only. Social phobia (P = 0.018) and agoraphobia (P = 0.059) were more common in manifesting carriers than in any other group. QoL was decreased in the Parkinson groups, particularly in the early-onset cases (P < 0.001), and QoL correlated with depression in all analyses. In our study, monogenic and IPD cases were comparable in QoL and depression characteristics. The QoL and, possibly, overall prognosis of all PD patients can be improved by appropriate attention and treatment for depression, sleep impairments, and anxiety, even if the treatment of the motor problems cannot be further optimized.

Published

2012

39. Depression and quality of life in monogenic compared to idiopathic, early-onset Parkinson's disease.

Author

Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., Klein, C., Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., and Klein, C.

Abstract

01 mei 2012, Item does not contain fulltext, Quality of life (QoL) is decreased in PD and is linked with depression and anxiety. However, little is known about QoL in monogenic PD. Subjects with mutations in PD genes were recruited from ongoing family and genetic studies (manifesting carriers, n = 23; nonmanifesting carriers, n = 19). For comparison purposes, we included patients with idiopathic PD (IPD; n = 128; early onset, n = 38; late onset, n = 90), healthy controls (n = 127), and data on depressive symptoms of 144 patients with major depression (treated controls). Depression affected 31% of early-onset PD cases, 21% of late-onset cases, and 44% of manifesting carriers of mutations in PD genes, but was rare in the nonmanifesting carriers (7%) and healthy controls (5%). Subjects with Parkinson-associated depression reported fewer feelings of guilt or self-doubt than treated controls, but the occurrence of suicidal ideation was associated with severity of depression only. Social phobia (P = 0.018) and agoraphobia (P = 0.059) were more common in manifesting carriers than in any other group. QoL was decreased in the Parkinson groups, particularly in the early-onset cases (P < 0.001), and QoL correlated with depression in all analyses. In our study, monogenic and IPD cases were comparable in QoL and depression characteristics. The QoL and, possibly, overall prognosis of all PD patients can be improved by appropriate attention and treatment for depression, sleep impairments, and anxiety, even if the treatment of the motor problems cannot be further optimized.

Published

2012

40. Depression and quality of life in monogenic compared to idiopathic, early-onset Parkinson's disease.

Author

Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., Klein, C., Kasten, M., Kertelge, L., Tadic, V., Bruggemann, N., Schmidt, A., Vegt, J.P.M. van der, Siebner, H., Buhmann, C., Lencer, R., Kumar, K.R., Lohmann, K., Hagenah, J., and Klein, C.

Abstract

01 mei 2012, Item does not contain fulltext, Quality of life (QoL) is decreased in PD and is linked with depression and anxiety. However, little is known about QoL in monogenic PD. Subjects with mutations in PD genes were recruited from ongoing family and genetic studies (manifesting carriers, n = 23; nonmanifesting carriers, n = 19). For comparison purposes, we included patients with idiopathic PD (IPD; n = 128; early onset, n = 38; late onset, n = 90), healthy controls (n = 127), and data on depressive symptoms of 144 patients with major depression (treated controls). Depression affected 31% of early-onset PD cases, 21% of late-onset cases, and 44% of manifesting carriers of mutations in PD genes, but was rare in the nonmanifesting carriers (7%) and healthy controls (5%). Subjects with Parkinson-associated depression reported fewer feelings of guilt or self-doubt than treated controls, but the occurrence of suicidal ideation was associated with severity of depression only. Social phobia (P = 0.018) and agoraphobia (P = 0.059) were more common in manifesting carriers than in any other group. QoL was decreased in the Parkinson groups, particularly in the early-onset cases (P < 0.001), and QoL correlated with depression in all analyses. In our study, monogenic and IPD cases were comparable in QoL and depression characteristics. The QoL and, possibly, overall prognosis of all PD patients can be improved by appropriate attention and treatment for depression, sleep impairments, and anxiety, even if the treatment of the motor problems cannot be further optimized.

Published

2012

41. A multimodel comparison of centennial Atlantic meridional overturning circulation variability

Author

Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, Jungclauss, J. H., Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, and Jungclauss, J. H.

Abstract

A mechanism contributing to centennial variability of the Atlantic Meridional Overturning Circulation (AMOC) is tested with multi-millennial control simulations of several coupled general circulation models (CGCMs). These are a substantially extended integration of the 3rd Hadley Centre Coupled Climate Model (HadCM3), the Kiel Climate Model (KCM), and the Max Plank Institute Earth System Model (MPI-ESM). Significant AMOC variability on time scales of around 100 years is simulated in these models. The centennial mechanism links changes in the strength of the AMOC with oceanic salinities and surface temperatures, and atmospheric phenomena such as the Intertropical Convergence Zone (ITCZ). 2 of the 3 models reproduce all aspects of the mechanism, with the third (MPI-ESM) reproducing most of them. A comparison with a high resolution paleo-proxy for Sea Surface Temperatures (SSTs) north of Iceland over the last 4,000 years, also linked to the ITCZ, suggests that elements of this mechanism may also be detectable in the real world.

Published

2012

42. Bi-decadal variability excited in the coupled ocean–atmosphere system by strong tropical volcanic eruptions

Author

Zanchettin, D., Timmreck, C., Graf, H.-F., Rubino, A., Lorenz, S., Lohmann, K., Krüger, Kirstin, Jungclaus, J. H., Zanchettin, D., Timmreck, C., Graf, H.-F., Rubino, A., Lorenz, S., Lohmann, K., Krüger, Kirstin, and Jungclaus, J. H.

Abstract

Decadal and bi-decadal climate responses to tropical strong volcanic eruptions (SVEs) are inspected in an ensemble simulation covering the last millennium based on the Max Planck Institute—Earth system model. An unprecedentedly large collection of pre-industrial SVEs (up to 45) producing a peak annual-average top-of-atmosphere radiative perturbation larger than −1.5 Wm−2 is investigated by composite analysis. Post-eruption oceanic and atmospheric anomalies coherently describe a fluctuation in the coupled ocean–atmosphere system with an average length of 20–25 years. The study provides a new physically consistent theoretical framework to interpret decadal Northern Hemisphere (NH) regional winter climates variability during the last millennium. The fluctuation particularly involves interactions between the Atlantic meridional overturning circulation and the North Atlantic gyre circulation closely linked to the state of the winter North Atlantic Oscillation. It is characterized by major distinctive details. Among them, the most prominent are: (a) a strong signal amplification in the Arctic region which allows for a sustained strengthened teleconnection between the North Pacific and the North Atlantic during the first post-eruption decade and which entails important implications from oceanic heat transport and from post-eruption sea ice dynamics, and (b) an anomalous surface winter warming emerging over the Scandinavian/Western Russian region around 10–12 years after a major eruption. The simulated long-term climate response to SVEs depends, to some extent, on background conditions. Consequently, ensemble simulations spanning different phases of background multidecadal and longer climate variability are necessary to constrain the range of possible post-eruption decadal evolution of NH regional winter climates.

Published

2012

43. A multimodel comparison of centennial Atlantic meridional overturning circulation variability

Author

Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, Jungclauss, J. H., Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, and Jungclauss, J. H.

Abstract

A mechanism contributing to centennial variability of the Atlantic Meridional Overturning Circulation (AMOC) is tested with multi-millennial control simulations of several coupled general circulation models (CGCMs). These are a substantially extended integration of the 3rd Hadley Centre Coupled Climate Model (HadCM3), the Kiel Climate Model (KCM), and the Max Plank Institute Earth System Model (MPI-ESM). Significant AMOC variability on time scales of around 100 years is simulated in these models. The centennial mechanism links changes in the strength of the AMOC with oceanic salinities and surface temperatures, and atmospheric phenomena such as the Intertropical Convergence Zone (ITCZ). 2 of the 3 models reproduce all aspects of the mechanism, with the third (MPI-ESM) reproducing most of them. A comparison with a high resolution paleo-proxy for Sea Surface Temperatures (SSTs) north of Iceland over the last 4,000 years, also linked to the ITCZ, suggests that elements of this mechanism may also be detectable in the real world.

Published

2012

44. A multimodel comparison of centennial Atlantic meridional overturning circulation variability

Author

Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, Jungclauss, J. H., Menary, M., Park, Wonsun, Lohmann, K., Vellinga, M., Palmer, M. D., Latif, Mojib, and Jungclauss, J. H.

Abstract

A mechanism contributing to centennial variability of the Atlantic Meridional Overturning Circulation (AMOC) is tested with multi-millennial control simulations of several coupled general circulation models (CGCMs). These are a substantially extended integration of the 3rd Hadley Centre Coupled Climate Model (HadCM3), the Kiel Climate Model (KCM), and the Max Plank Institute Earth System Model (MPI-ESM). Significant AMOC variability on time scales of around 100 years is simulated in these models. The centennial mechanism links changes in the strength of the AMOC with oceanic salinities and surface temperatures, and atmospheric phenomena such as the Intertropical Convergence Zone (ITCZ). 2 of the 3 models reproduce all aspects of the mechanism, with the third (MPI-ESM) reproducing most of them. A comparison with a high resolution paleo-proxy for Sea Surface Temperatures (SSTs) north of Iceland over the last 4,000 years, also linked to the ITCZ, suggests that elements of this mechanism may also be detectable in the real world.

Published

2012

45. Bi-decadal variability excited in the coupled ocean–atmosphere system by strong tropical volcanic eruptions

Author

Zanchettin, D., Timmreck, C., Graf, H.-F., Rubino, A., Lorenz, S., Lohmann, K., Krüger, Kirstin, Jungclaus, J. H., Zanchettin, D., Timmreck, C., Graf, H.-F., Rubino, A., Lorenz, S., Lohmann, K., Krüger, Kirstin, and Jungclaus, J. H.

Abstract

Decadal and bi-decadal climate responses to tropical strong volcanic eruptions (SVEs) are inspected in an ensemble simulation covering the last millennium based on the Max Planck Institute—Earth system model. An unprecedentedly large collection of pre-industrial SVEs (up to 45) producing a peak annual-average top-of-atmosphere radiative perturbation larger than −1.5 Wm−2 is investigated by composite analysis. Post-eruption oceanic and atmospheric anomalies coherently describe a fluctuation in the coupled ocean–atmosphere system with an average length of 20–25 years. The study provides a new physically consistent theoretical framework to interpret decadal Northern Hemisphere (NH) regional winter climates variability during the last millennium. The fluctuation particularly involves interactions between the Atlantic meridional overturning circulation and the North Atlantic gyre circulation closely linked to the state of the winter North Atlantic Oscillation. It is characterized by major distinctive details. Among them, the most prominent are: (a) a strong signal amplification in the Arctic region which allows for a sustained strengthened teleconnection between the North Pacific and the North Atlantic during the first post-eruption decade and which entails important implications from oceanic heat transport and from post-eruption sea ice dynamics, and (b) an anomalous surface winter warming emerging over the Scandinavian/Western Russian region around 10–12 years after a major eruption. The simulated long-term climate response to SVEs depends, to some extent, on background conditions. Consequently, ensemble simulations spanning different phases of background multidecadal and longer climate variability are necessary to constrain the range of possible post-eruption decadal evolution of NH regional winter climates.

Published

2012

46. Independent and joint effects of the MAPT and SNCA genes in Parkinson disease

Author

Elbaz, A, Ross, O, Ioannidis, J, Soto Ortolaza, A, Moisan, F, Aasly, J, Annesi, G, Bozi, M, Brighina, L, Chartier Harlin, M, Destée, A, Ferrarese, C, Ferraris, A, Gibson, J, Gispert, S, Hadjigeorgiou, G, Jasinska Myga, B, Klein, C, Krüger, R, Lambert, J, Lohmann, K, van de Loo, S, Loriot, M, Lynch, T, Mellick, G, Mutez, E, Nilsson, C, Opala, G, Puschmann, A, Quattrone, A, Sharma, M, Silburn, P, Stefanis, L, Uitti, R, Valente, E, Vilariño Güell, C, Wirdefeldt, K, Wszolek, Z, Xiromerisiou, G, Maraganore, D, Farrer, M, Farrer, M., FERRARESE, CARLO, Elbaz, A, Ross, O, Ioannidis, J, Soto Ortolaza, A, Moisan, F, Aasly, J, Annesi, G, Bozi, M, Brighina, L, Chartier Harlin, M, Destée, A, Ferrarese, C, Ferraris, A, Gibson, J, Gispert, S, Hadjigeorgiou, G, Jasinska Myga, B, Klein, C, Krüger, R, Lambert, J, Lohmann, K, van de Loo, S, Loriot, M, Lynch, T, Mellick, G, Mutez, E, Nilsson, C, Opala, G, Puschmann, A, Quattrone, A, Sharma, M, Silburn, P, Stefanis, L, Uitti, R, Valente, E, Vilariño Güell, C, Wirdefeldt, K, Wszolek, Z, Xiromerisiou, G, Maraganore, D, Farrer, M, Farrer, M., and FERRARESE, CARLO

Abstract

We studied the independent and joint effects of the genes encoding alpha-synuclein (SNCA) and microtubule-associated protein tau (MAPT) in Parkinson disease (PD) as part of a large meta-analysis of individual data from case-control studies participating in the Genetic Epidemiology of Parkinson's Disease (GEO-PD) consortium.

Published

2011

47. Independent and joint effects of the MAPT and SNCA genes in Parkinson disease

Author

Elbaz, A, Ross, Oa, Ioannidis, Jp, Soto Ortolaza, Ai, Aasly, J, Bozi, M, Chartier Harlin, Mc, Destée, A, Ferrarese, C, Ferraris, A, Gibson, Jm, Hadjigeorgiou, Gm, Jasinska Myga, B, Klein C, Krüger R, Lohmann, K, Loriot, Ma, Mellick, Gd, Mutez, E, Nilsson, C, Puschmann, A, Quattrone, A, Sharma, M, Silburn, Pa, Stefanis, L, Valente, Em, Vilariño Güell, C, Wirdefeldt, K, Wszolek, Zk, Xiromerisiou, G, Farrer, Mj, Amouyel, P, Tzourio, C, Mulot, C, Bacon, Ja, Cobb, Sa, Sutherland, Gt, Siebert, Ga, Dissanayaka, N, O'Sullivan, Jd, Boyle, R, Bordet, R, Legendre, Jp, Auburger, G, Abahuni, N, Winkler, S, Gasser, T, Riess, O, Berg, D, Schulte, C, Vassilatis, D, Stamboulis, E, Dardiotis, E, Patramani, I, Kountra, Pm, Vogiatzi, C, Markou, K, Tarantino, P, Annesi, F, Bentivoglio, Anna Rita, Guidubaldi, Arianna, Caccialupi, M, De Nigris, Francesca, Pedersen, Nl, Reimer, J, Lash, J, Searcy, J, Strongosky, A., Bentivoglio, Anna Rita (ORCID:0000-0002-9663-095X), Elbaz, A, Ross, Oa, Ioannidis, Jp, Soto Ortolaza, Ai, Aasly, J, Bozi, M, Chartier Harlin, Mc, Destée, A, Ferrarese, C, Ferraris, A, Gibson, Jm, Hadjigeorgiou, Gm, Jasinska Myga, B, Klein C, Krüger R, Lohmann, K, Loriot, Ma, Mellick, Gd, Mutez, E, Nilsson, C, Puschmann, A, Quattrone, A, Sharma, M, Silburn, Pa, Stefanis, L, Valente, Em, Vilariño Güell, C, Wirdefeldt, K, Wszolek, Zk, Xiromerisiou, G, Farrer, Mj, Amouyel, P, Tzourio, C, Mulot, C, Bacon, Ja, Cobb, Sa, Sutherland, Gt, Siebert, Ga, Dissanayaka, N, O'Sullivan, Jd, Boyle, R, Bordet, R, Legendre, Jp, Auburger, G, Abahuni, N, Winkler, S, Gasser, T, Riess, O, Berg, D, Schulte, C, Vassilatis, D, Stamboulis, E, Dardiotis, E, Patramani, I, Kountra, Pm, Vogiatzi, C, Markou, K, Tarantino, P, Annesi, F, Bentivoglio, Anna Rita, Guidubaldi, Arianna, Caccialupi, M, De Nigris, Francesca, Pedersen, Nl, Reimer, J, Lash, J, Searcy, J, Strongosky, A., and Bentivoglio, Anna Rita (ORCID:0000-0002-9663-095X)

Abstract

OBJECTIVE: We studied the independent and joint effects of the genes encoding alpha-synuclein (SNCA) and microtubule-associated protein tau (MAPT) in Parkinson disease (PD) as part of a large meta-analysis of individual data from case-control studies participating in the Genetic Epidemiology of Parkinson's Disease (GEO-PD) consortium. METHODS: Participants of Caucasian ancestry were genotyped for a total of 4 SNCA (rs2583988, rs181489, rs356219, rs11931074) and 2 MAPT (rs1052553, rs242557) single nucleotide polymorphism (SNPs). Individual and joint effects of SNCA and MAPT SNPs were investigated using fixed- and random-effects logistic regression models. Interactions were studied on both a multiplicative and an additive scale, and using a case-control and case-only approach. RESULTS: Fifteen GEO-PD sites contributed a total of 5,302 cases and 4,161 controls. All 4 SNCA SNPs and the MAPT H1-haplotype-defining SNP (rs1052553) displayed a highly significant marginal association with PD at the significance level adjusted for multiple comparisons. For SNCA, the strongest associations were observed for SNPs located at the 3' end of the gene. There was no evidence of statistical interaction between any of the 4 SNCA SNPs and rs1052553 or rs242557, neither on the multiplicative nor on the additive scale. INTERPRETATION: This study confirms the association between PD and both SNCA SNPs and the H1 MAPT haplotype. It shows, based on a variety of approaches, that the joint action of variants in these 2 loci is consistent with independent effects of the genes without additional interacting effects.

Published

2011

48. Heterozygous carriers of a Parkin or PINK1 mutation share a common functional endophenotype.

Author

Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., Siebner, H.R., Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., and Siebner, H.R.

Abstract

Contains fulltext : 80510.pdf (publisher's version ) (Open Access), OBJECTIVE: To use a combined neurogenetic-neuroimaging approach to examine the functional consequences of preclinical dopaminergic nigrostriatal dysfunction in the human motor system. Specifically, we examined how a single heterozygous mutation in different genes associated with recessively inherited Parkinson disease alters the cortical control of sequential finger movements. METHODS: Nonmanifesting individuals carrying a single heterozygous Parkin (n = 13) or PINK1 (n = 9) mutation and 23 healthy controls without these mutations were studied with functional MRI (fMRI). During fMRI, participants performed simple sequences of three thumb-to-finger opposition movements with their right dominant hand. Since heterozygous Parkin and PINK1 mutations cause a latent dopaminergic nigrostriatal dysfunction, we predicted a compensatory recruitment of those rostral premotor areas that are normally implicated in the control of complex motor sequences. We expected this overactivity to be independent of the underlying genotype. RESULTS: Task performance was comparable for all groups. The performance of a simple motor sequence task consistently activated the rostral supplementary motor area and right rostral dorsal premotor cortex in mutation carriers but not in controls. Task-related activation of these premotor areas was similar in carriers of a Parkin or PINK1 mutation. CONCLUSION: Mutations in different genes linked to recessively inherited Parkinson disease are associated with an additional recruitment of rostral supplementary motor area and rostral dorsal premotor cortex during a simple motor sequence task. These premotor areas were recruited independently of the underlying genotype. The observed activation most likely reflects a "generic" compensatory mechanism to maintain motor function in the context of a mild dopaminergic deficit.

Published

2009

49. Heterozygous carriers of a Parkin or PINK1 mutation share a common functional endophenotype.

Author

Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., Siebner, H.R., Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., and Siebner, H.R.

Abstract

Contains fulltext : 80510.pdf (publisher's version ) (Open Access), OBJECTIVE: To use a combined neurogenetic-neuroimaging approach to examine the functional consequences of preclinical dopaminergic nigrostriatal dysfunction in the human motor system. Specifically, we examined how a single heterozygous mutation in different genes associated with recessively inherited Parkinson disease alters the cortical control of sequential finger movements. METHODS: Nonmanifesting individuals carrying a single heterozygous Parkin (n = 13) or PINK1 (n = 9) mutation and 23 healthy controls without these mutations were studied with functional MRI (fMRI). During fMRI, participants performed simple sequences of three thumb-to-finger opposition movements with their right dominant hand. Since heterozygous Parkin and PINK1 mutations cause a latent dopaminergic nigrostriatal dysfunction, we predicted a compensatory recruitment of those rostral premotor areas that are normally implicated in the control of complex motor sequences. We expected this overactivity to be independent of the underlying genotype. RESULTS: Task performance was comparable for all groups. The performance of a simple motor sequence task consistently activated the rostral supplementary motor area and right rostral dorsal premotor cortex in mutation carriers but not in controls. Task-related activation of these premotor areas was similar in carriers of a Parkin or PINK1 mutation. CONCLUSION: Mutations in different genes linked to recessively inherited Parkinson disease are associated with an additional recruitment of rostral supplementary motor area and rostral dorsal premotor cortex during a simple motor sequence task. These premotor areas were recruited independently of the underlying genotype. The observed activation most likely reflects a "generic" compensatory mechanism to maintain motor function in the context of a mild dopaminergic deficit.

Published

2009

50. Heterozygous carriers of a Parkin or PINK1 mutation share a common functional endophenotype.

Author

Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., Siebner, H.R., Nuenen, B.F.L. van, Weiss, M.M., Bloem, B.R., Reetz, K., Eimeren, T. van, Lohmann, K., Hagenah, J., Pramstaller, P.P., Binkofski, F., Klein, C., and Siebner, H.R.

Abstract

Contains fulltext : 80510.pdf (publisher's version ) (Open Access), OBJECTIVE: To use a combined neurogenetic-neuroimaging approach to examine the functional consequences of preclinical dopaminergic nigrostriatal dysfunction in the human motor system. Specifically, we examined how a single heterozygous mutation in different genes associated with recessively inherited Parkinson disease alters the cortical control of sequential finger movements. METHODS: Nonmanifesting individuals carrying a single heterozygous Parkin (n = 13) or PINK1 (n = 9) mutation and 23 healthy controls without these mutations were studied with functional MRI (fMRI). During fMRI, participants performed simple sequences of three thumb-to-finger opposition movements with their right dominant hand. Since heterozygous Parkin and PINK1 mutations cause a latent dopaminergic nigrostriatal dysfunction, we predicted a compensatory recruitment of those rostral premotor areas that are normally implicated in the control of complex motor sequences. We expected this overactivity to be independent of the underlying genotype. RESULTS: Task performance was comparable for all groups. The performance of a simple motor sequence task consistently activated the rostral supplementary motor area and right rostral dorsal premotor cortex in mutation carriers but not in controls. Task-related activation of these premotor areas was similar in carriers of a Parkin or PINK1 mutation. CONCLUSION: Mutations in different genes linked to recessively inherited Parkinson disease are associated with an additional recruitment of rostral supplementary motor area and rostral dorsal premotor cortex during a simple motor sequence task. These premotor areas were recruited independently of the underlying genotype. The observed activation most likely reflects a "generic" compensatory mechanism to maintain motor function in the context of a mild dopaminergic deficit.

Published

2009