Your search keyword '"Unolt, M."' showing total 45 results

1. Maternal origin of familial 22Q11.2 deletions negatively impacts FSIQ scores

Author

McGinn, D. E., Unolt, M., Crowley, T. B., Emanuel, B. S., Zackai, E. H., Moss, E., Morrow, B., Vermeesch, J., Swillen, A., and McDonald-McGinn, D. M.

Published

2017

2. Coexisting genetic findings in a cohort of patients with laboratory confirmation of 22q11.2 deletion syndrome

Author

Pugnaloni, F., Putotto, C., Mastromoro, G., Pulvirenti, F., Maiolo, S., Unolt, M., Digilio, M. C., Giovannetti, A., Caputo, V., Versacci, P., and Marino, B.

Subjects

22q11.2 deletion syndrome

Published

2022

3. Genetic contributors to risk of schizophrenia in the presence of a 22q11.2 deletion

Author

Cleynen, I., Engchuan, W., Hestand, M. S., Heung, T., Holleman, A. M., Johnston, H. R., Monfeuga, T., McDonald-McGinn, D. M., Gur, R. E., Morrow, B. E., Swillen, A., Vorstman, J. A. S., Bearden, C. E., Chow, E. W. C., van den Bree, M., Emanuel, B. S., Vermeesch, J. R., Warren, S. T., Owen, M. J., Chopra, P., Cutler, D. J., Duncan, R., Kotlar, A. V., Mulle, J. G., Voss, A. J., Zwick, M. E., Diacou, A., Golden, A., Guo, T., Lin, J. -R., Wang, T., Zhang, Z., Zhao, Yu Yang, Marshall, C., Merico, D., Jin, A., Lilley, B., Salmons, H. I., Tran, O., Holmans, P., Pardinas, A., Walters, J. T. R., Demaerel, W., Boot, E., Butcher, N. J., Costain, G. A., Lowther, C., Evers, R., van Amelsvoort, T. A. M. J., van Duin, E., Vingerhoets, C., Breckpot, J., Devriendt, K., Vergaelen, E., Vogels, A., Crowley, T. B., Mcginn, D. E., Moss, E. M., Sharkus, R. J., Unolt, M., Zackai, E. H., Calkins, M. E., Gallagher, R. S., Gur, R. C., Tang, S. X., Fritsch, R., Ornstein, C., Repetto, G. M., Breetvelt, E., Duijff, S. N., Fiksinski, A., Moss, H., Niarchou, M., Murphy, K. C., Prasad, S. E., Daly, E. M., Gudbrandsen, M., Murphy, C. M., Murphy, D. G., Buzzanca, A., Fabio, F. D., Digilio, M. C., Pontillo, M., Marino, B., Vicari, Stefano, Coleman, K., Cubells, J. F., Ousley, O. Y., Carmel, M., Gothelf, D., Mekori-Domachevsky, E., Michaelovsky, E., Weinberger, R., Weizman, A., Kushan, L., Jalbrzikowski, M., Armando, M., Eliez, S., Sandini, C., Schneider, M., Bena, F. S., Antshel, K. M., Fremont, W., Kates, W. R., Belzeaux, R., Busa, T., Philip, N., Campbell, L. E., Mccabe, K. L., Hooper, S. R., Schoch, K., Shashi, V., Simon, T. J., Tassone, F., Arango, C., Fraguas, D., Garcia-Minaur, S., Morey-Canyelles, J., Rosell, J., Suner, D. H., Raventos-Simic, J., Epstein, M. P., Williams, N. M., Bassett, A. S., Zhao Y., Vicari S. (ORCID:0000-0002-5395-2262), Cleynen, I., Engchuan, W., Hestand, M. S., Heung, T., Holleman, A. M., Johnston, H. R., Monfeuga, T., McDonald-McGinn, D. M., Gur, R. E., Morrow, B. E., Swillen, A., Vorstman, J. A. S., Bearden, C. E., Chow, E. W. C., van den Bree, M., Emanuel, B. S., Vermeesch, J. R., Warren, S. T., Owen, M. J., Chopra, P., Cutler, D. J., Duncan, R., Kotlar, A. V., Mulle, J. G., Voss, A. J., Zwick, M. E., Diacou, A., Golden, A., Guo, T., Lin, J. -R., Wang, T., Zhang, Z., Zhao, Yu Yang, Marshall, C., Merico, D., Jin, A., Lilley, B., Salmons, H. I., Tran, O., Holmans, P., Pardinas, A., Walters, J. T. R., Demaerel, W., Boot, E., Butcher, N. J., Costain, G. A., Lowther, C., Evers, R., van Amelsvoort, T. A. M. J., van Duin, E., Vingerhoets, C., Breckpot, J., Devriendt, K., Vergaelen, E., Vogels, A., Crowley, T. B., Mcginn, D. E., Moss, E. M., Sharkus, R. J., Unolt, M., Zackai, E. H., Calkins, M. E., Gallagher, R. S., Gur, R. C., Tang, S. X., Fritsch, R., Ornstein, C., Repetto, G. M., Breetvelt, E., Duijff, S. N., Fiksinski, A., Moss, H., Niarchou, M., Murphy, K. C., Prasad, S. E., Daly, E. M., Gudbrandsen, M., Murphy, C. M., Murphy, D. G., Buzzanca, A., Fabio, F. D., Digilio, M. C., Pontillo, M., Marino, B., Vicari, Stefano, Coleman, K., Cubells, J. F., Ousley, O. Y., Carmel, M., Gothelf, D., Mekori-Domachevsky, E., Michaelovsky, E., Weinberger, R., Weizman, A., Kushan, L., Jalbrzikowski, M., Armando, M., Eliez, S., Sandini, C., Schneider, M., Bena, F. S., Antshel, K. M., Fremont, W., Kates, W. R., Belzeaux, R., Busa, T., Philip, N., Campbell, L. E., Mccabe, K. L., Hooper, S. R., Schoch, K., Shashi, V., Simon, T. J., Tassone, F., Arango, C., Fraguas, D., Garcia-Minaur, S., Morey-Canyelles, J., Rosell, J., Suner, D. H., Raventos-Simic, J., Epstein, M. P., Williams, N. M., Bassett, A. S., Zhao Y., and Vicari S. (ORCID:0000-0002-5395-2262)

Abstract

Schizophrenia occurs in about one in four individuals with 22q11.2 deletion syndrome (22q11.2DS). The aim of this International Brain and Behavior 22q11.2DS Consortium (IBBC) study was to identify genetic factors that contribute to schizophrenia, in addition to the ~20-fold increased risk conveyed by the 22q11.2 deletion. Using whole-genome sequencing data from 519 unrelated individuals with 22q11.2DS, we conducted genome-wide comparisons of common and rare variants between those with schizophrenia and those with no psychotic disorder at age ≥25 years. Available microarray data enabled direct comparison of polygenic risk for schizophrenia between 22q11.2DS and independent population samples with no 22q11.2 deletion, with and without schizophrenia (total n = 35,182). Polygenic risk for schizophrenia within 22q11.2DS was significantly greater for those with schizophrenia (padj = 6.73 × 10−6). Novel reciprocal case–control comparisons between the 22q11.2DS and population-based cohorts showed that polygenic risk score was significantly greater in individuals with psychotic illness, regardless of the presence of the 22q11.2 deletion. Within the 22q11.2DS cohort, results of gene-set analyses showed some support for rare variants affecting synaptic genes. No common or rare variants within the 22q11.2 deletion region were significantly associated with schizophrenia. These findings suggest that in addition to the deletion conferring a greatly increased risk to schizophrenia, the risk is higher when the 22q11.2 deletion and common polygenic risk factors that contribute to schizophrenia in the general population are both present.

Published

2020

4. Double outlet right ventricle versus aortic dextroposition: morphologically distinct defects

Author

Restivo, A, Unolt, M, Putotto, C, and MARINO TAUSSIG DE BODONIA, Bruno

Published

2013

5. 156 CHANGES OF TOTAL AND FREE CARBAMAZEPINE LEVELS

Author

Kozik, A, Orzechowska-Juzwenko, K, Ujma-Czapska, B, and Hurkacz, J Unolt M

Published

1995

6. Atypical cardiac defects in patients with RASopathies: Updated data on CARNET study

Author

Giulio Calcagni, Maria Giovanna Russo, Gabriella Agnoletti, Giuseppe Pacileo, Maurizio Brighenti, Roberto Formigari, Giulia Tuo, Sonia B. Albanese, Ornella Milanesi, Marta Unolt, Francesca Cairello, Giuseppina Baldassarre, Enrica De Luca, Maria Cristina Digilio, Bruno Dallapiccola, Giovanni Battista Ferrero, Bruno Marino, Elena Banaudi, Maurizio Marasini, Anwar Baban, Fabrizio Drago, Jan Marek, Giulia Gagliostro, Giuseppe Limongelli, Luca Ragni, Andrea Donti, Marco Tartaglia, Juan Pablo Kaski, Paolo Versacci, Andrea Madrigali, Calcagni, G., Gagliostro, G., Limongelli, G., Unolt, M., De Luca, E., Digilio, M. C., Baban, A., Albanese, S. B., Ferrero, G. B., Baldassarre, G., Agnoletti, G., Banaudi, E., Marek, J., Kaski, J. P., Tuo, G., Marasini, M., Cairello, F., Madrigali, A., Pacileo, G., Russo, M. G., Milanesi, O., Formigari, R., Brighenti, M., Ragni, L., Donti, A., Drago, F., Dallapiccola, B., Tartaglia, M., Marino, B., and Versacci, P.

Subjects

0301 basic medicine, Aortic valve, Adult, Heart Defects, Congenital, Embryology, medicine.medical_specialty, Adolescent, Health, Toxicology and Mutagenesis, medicine.medical_treatment, 030105 genetics & heredity, RASopathy, Toxicology, Pericardial effusion, CardioFacioCutaneous syndrome, 03 medical and health sciences, Young Adult, Ectodermal Dysplasia, Internal medicine, medicine, Noonan syndrome multiple lentigines, Noonan syndrome multiple lentigine, Humans, Noonan syndrome, Child, RASopathies, Retrospective Studies, congenital heart disease, business.industry, Mitral valve replacement, Hypertrophic cardiomyopathy, Middle Aged, medicine.disease, Cardiac surgery, Failure to Thrive, 030104 developmental biology, medicine.anatomical_structure, Pediatrics, Perinatology and Child Health, Pulmonary valve stenosis, Cardiology, ras Proteins, business, Developmental Biology

Abstract

Background RASopathies are a set of relatively common autosomal dominant clinically and genetically heterogeneous disorders. Cardiac outcomes in terms of mortality and morbidity for common heart defects (such as pulmonary valve stenosis and hypertrophic cardiomyopathy) have been reported. Nevertheless, also Atypical Cardiac Defects (ACDs) are described. The aim of the present study was to report both prevalence and cardiac outcome of ACDs in patients with RASopathies. Methods A retrospective, multicentric observational study (CArdiac Rasopathy NETwork-CARNET study) was carried out. Clinical, surgical, and genetic data of the patients who were followed until December 2019 were collected. Results Forty-five patients out of 440 followed in CARNET centers had ACDs. Noonan Syndrome (NS), NS Multiple Lentigines (NSML) and CardioFacioCutaneous Syndrome (CFCS) were present in 36, 5 and 4 patients, respectively. Median age at last follow-up was 20.1 years (range 6.9-47 years). Different ACDs were reported, including mitral and aortic valve dysfunction, ascending and descending aortic arch anomalies, coronary arteries dilation, enlargement of left atrial appendage and isolated pulmonary branches diseases. Five patients (11%) underwent cardiac surgery and one of them underwent a second intervention for mitral valve replacement and severe pericardial effusion. No patients died in our cohort until December 2019. Conclusions Patients with RASopathies present a distinct CHD spectrum. Present data suggest that also ACDs must be carefully investigated for their possible impact on the clinical outcome. A careful longitudinal follow up until the individuals reach an adult age is recommended.

Published

2020

7. Congenital heart disease and genetic syndromes: new insights into molecular mechanisms

Author

Marta Unolt, Anwar Baban, Marco Tartaglia, Bruno Marino, Maria Cristina Digilio, Giulio Calcagni, Antonio Baldini, Paolo Versacci, Calcagni, G., Unolt, M., Digilio, M. C., Baban, A., Versacci, P., Tartaglia, M., Baldini, A., and Marino, B.

Subjects

Genetic Markers, 0301 basic medicine, Heart Defects, Congenital, Down syndrome, Heart disease, Genetic syndromes, Genotype, 030204 cardiovascular system & hematology, Biology, Chromosome Aberration, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, RASopathy syndrome, DiGeorge syndrome, Genetic Marker, Genetics, medicine, Humans, Noonan syndrome, Molecular Biology, Genetic Association Studies, Chromosome Aberrations, Congenital heart defect, 22q11 2ds, 22q11.2DS, Syndrome, medicine.disease, congenital heart defects, trisomy 21, 030104 developmental biology, Phenotype, Mutation, Etiology, Molecular Medicine, Identification (biology), Human

Abstract

Introduction: Advances in genetics allowed a better definition of the role of specific genetic background in the etiology of syndromic congenital heart defects (CHDs). The identification of a number of disease genes responsible for different syndromes have led to the identification of several transcriptional regulators and signaling transducers and modulators that are critical for heart morphogenesis. Understanding the genetic background of syndromic CHDs allowed a better characterization of the genetic basis of non-syndromic CHDs. In this sense, the well-known association of typical CHDs in Down syndrome, 22q11.2 microdeletion and Noonan syndrome represent paradigms as chromosomal aneuploidy, chromosomal microdeletion and intragenic mutation, respectively. Area covered: For each syndrome the anatomical features, distinctive cardiac phenotype and molecular mechanisms are discussed. Moreover, the authors include recent genetic findings that may shed light on some aspects of still unclear molecular mechanisms of these syndromes. Expert commentary: Further investigations are needed to enhance the translational approach in the field of genetics of CHDs. When there is a well-established definition of genotype-phenotype (reverse medicine) and genotype-prognosis (predictive and personalized medicine) correlations, hopefully preventive medicine will make its way in this field. Subsequently a reduction will be achieved in the morbidity and mortality of children with CHDs.

Published

2017

8. Laterality, heterotaxy, and isolated congenital heart defects : The genetic basis of the segmental nature of the heart.

Author

Putotto C, Pugnaloni F, Unolt M, Calcagni G, Versacci P, and Marino B

Subjects

Humans, Nodal Protein genetics, Nodal Protein metabolism, Heart, Mutation, Animals, Heterotaxy Syndrome genetics, Heart Defects, Congenital genetics

Abstract

To date, the role of NODAL in normal and abnormal L-R asymmetry has been well established. In a recent paper, mutations of this gene have been reported in heterotaxy but also in transposition with D- or L-ventricular loop. The effects of NODAL and other laterality genes can be recognized separately in all three cardiac segments: for topology and septation of the atria, for ventricular looping, and for spiralization and alignment of the great arteries., (© 2024. The Author(s).)

Published

2024

9. Long-term incidence of arrhythmias in extracardiac conduit Fontan and comparison between systemic left and right ventricle.

Author

Di Mambro C, Yammine ML, Tamborrino PP, Giordano U, Righi D, Unolt M, Cantarutti N, Maiolo S, Albanese S, Carotti A, Amodeo A, Galletti L, and Drago F

Subjects

Humans, Male, Female, Incidence, Child, Adolescent, Adult, Middle Aged, Young Adult, Heart Defects, Congenital surgery, Heart Defects, Congenital epidemiology, Retrospective Studies, Time Factors, Univentricular Heart surgery, Univentricular Heart epidemiology, Univentricular Heart physiopathology, Postoperative Complications epidemiology, Postoperative Complications etiology, Risk Factors, Fontan Procedure adverse effects, Arrhythmias, Cardiac epidemiology, Arrhythmias, Cardiac physiopathology, Arrhythmias, Cardiac diagnosis, Heart Ventricles physiopathology, Heart Ventricles diagnostic imaging

Abstract

Aims: The extracardiac conduit-Fontan (ECC) has become the preferred technique for univentricular heart palliation, but there are currently no data on the incidence of long-term arrhythmias. This study investigated the incidence of arrhythmias and relation to single ventricle morphology in the long-term follow-up (FU) in ECC., Methods and Results: All patients with ECC performed in our Centre between 1987 and 2017 were included (minimum FU 5 years). Of 353 consecutive patients, 303 [57.8% males, aging 8-50 (median 20) years at last FU] were considered and divided into two groups depending on left (194 in Group 1) or right (109 in Group 2) ventricular morphology. Eighty-five (28%) experienced ≥1 arrhythmic complications, with early and late arrhythmias in 17 (5.6%) and 73 (24.1%) patients, respectively. Notably, late bradyarrhythmias occurred after 6 years in 21 (11%) patients in Group 1, and in 15 (13.8%) in Group 2 [P = 0.48]. Late tachyarrhythmias occurred in 55 (18.2%) patients after 12 years: 33 (17%) in Group 1 and 22 (20.2%) patients in Group 2 [P  = 0.5]. Ventricular tachycardias (VT) were documented after 12.5 years in 14 (7.2%) patients of Group 1 and 15 (13.8%) of Group 2 [P = 0.06] with a higher incidence in Group 2 during the FU [P = 0.005]., Conclusion: Extracardiac conduit is related to a significant arrhythmic risk in the long-term FU, higher than previously reported. Bradyarrhythmias occur earlier but are less frequent than tachyarrhythmias. Interestingly, patients with systemic right ventricle have a significantly higher incidence of VT, especially in a very long FU., Competing Interests: Conflict of interest: none by any of the authors., (© The Author(s) 2024. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2024

10. Prenatal vs postnatal diagnosis of 22q11.2 deletion syndrome: cardiac and noncardiac outcomes through 1 year of age.

Author

Freud LR, Galloway S, Crowley TB, Moldenhauer J, Swillen A, Breckpot J, Borrell A, Vora NL, Cuneo B, Hoffman H, Gilbert L, Nowakowska B, Geremek M, Kutkowska-Kaźmierczak A, Vermeesch JR, Devriendt K, Busa T, Sigaudy S, Vigneswaran T, Simpson JM, Dungan J, Gotteiner N, Gloning KP, Digilio MC, Unolt M, Putotto C, Marino B, Repetto G, Fadic M, Garcia-Minaur S, Achón Buil A, Thomas MA, Fruitman D, Beecroft T, Hui PW, Oskarsdottir S, Bradshaw R, Criebaum A, Norton ME, Lee T, Geiger M, Dunnington L, Isaac J, Wilkins-Haug L, Hunter L, Izzi C, Toscano M, Ghi T, McGlynn J, Romana Grati F, Emanuel BS, Gaiser K, Gaynor JW, Goldmuntz E, McGinn DE, Schindewolf E, Tran O, Zackai EH, Yan Q, Bassett AS, Wapner R, and McDonald-McGinn DM

Subjects

Infant, Infant, Newborn, Pregnancy, Female, Humans, Male, Retrospective Studies, Prenatal Diagnosis, Prenatal Care, DiGeorge Syndrome diagnosis, DiGeorge Syndrome genetics, Heart Defects, Congenital diagnosis, Heart Defects, Congenital epidemiology, Heart Defects, Congenital genetics

Abstract

Background: The 22q11.2 deletion syndrome is the most common microdeletion syndrome and is frequently associated with congenital heart disease. Prenatal diagnosis of 22q11.2 deletion syndrome is increasingly offered. It is unknown whether there is a clinical benefit to prenatal detection as compared with postnatal diagnosis., Objective: This study aimed to determine differences in perinatal and infant outcomes between patients with prenatal and postnatal diagnosis of 22q11.2 deletion syndrome., Study Design: This was a retrospective cohort study across multiple international centers (30 sites, 4 continents) from 2006 to 2019. Participants were fetuses, neonates, or infants with a genetic diagnosis of 22q11.2 deletion syndrome by 1 year of age with or without congenital heart disease; those with prenatal diagnosis or suspicion (suggestive ultrasound findings and/or high-risk cell-free fetal DNA screen for 22q11.2 deletion syndrome with postnatal confirmation) were compared with those with postnatal diagnosis. Perinatal management, cardiac and noncardiac morbidity, and mortality by 1 year were assessed. Outcomes were adjusted for presence of critical congenital heart disease, gestational age at birth, and site., Results: A total of 625 fetuses, neonates, or infants with 22q11.2 deletion syndrome (53.4% male) were included: 259 fetuses were prenatally diagnosed (156 [60.2%] were live-born) and 122 neonates were prenatally suspected with postnatal confirmation, whereas 244 infants were postnatally diagnosed. In the live-born cohort (n=522), 1-year mortality was 5.9%, which did not differ between groups but differed by the presence of critical congenital heart disease (hazard ratio, 4.18; 95% confidence interval, 1.56-11.18; P<.001) and gestational age at birth (hazard ratio, 0.78 per week; 95% confidence interval, 0.69-0.89; P<.001). Adjusting for critical congenital heart disease and gestational age at birth, the prenatal cohort was less likely to deliver at a local community hospital (5.1% vs 38.2%; odds ratio, 0.11; 95% confidence interval, 0.06-0.23; P<.001), experience neonatal cardiac decompensation (1.3% vs 5.0%; odds ratio, 0.11; 95% confidence interval, 0.03-0.49; P=.004), or have failure to thrive by 1 year (43.4% vs 50.3%; odds ratio, 0.58; 95% confidence interval, 0.36-0.91; P=.019)., Conclusion: Prenatal detection of 22q11.2 deletion syndrome was associated with improved delivery management and less cardiac and noncardiac morbidity, but not mortality, compared with postnatal detection., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

11. Chromatin regulators in the TBX1 network confer risk for conotruncal heart defects in 22q11.2DS.

Author

Zhao Y, Wang Y, Shi L, McDonald-McGinn DM, Crowley TB, McGinn DE, Tran OT, Miller D, Lin JR, Zackai E, Johnston HR, Chow EWC, Vorstman JAS, Vingerhoets C, van Amelsvoort T, Gothelf D, Swillen A, Breckpot J, Vermeesch JR, Eliez S, Schneider M, van den Bree MBM, Owen MJ, Kates WR, Repetto GM, Shashi V, Schoch K, Bearden CE, Digilio MC, Unolt M, Putotto C, Marino B, Pontillo M, Armando M, Vicari S, Angkustsiri K, Campbell L, Busa T, Heine-Suñer D, Murphy KC, Murphy D, García-Miñaúr S, Fernández L, Zhang ZD, Goldmuntz E, Gur RE, Emanuel BS, Zheng D, Marshall CR, Bassett AS, Wang T, and Morrow BE

Abstract

Congenital heart disease (CHD) affecting the conotruncal region of the heart, occurs in 40-50% of patients with 22q11.2 deletion syndrome (22q11.2DS). This syndrome is a rare disorder with relative genetic homogeneity that can facilitate identification of genetic modifiers. Haploinsufficiency of TBX1, encoding a T-box transcription factor, is one of the main genes responsible for the etiology of the syndrome. We suggest that genetic modifiers of conotruncal defects in patients with 22q11.2DS may be in the TBX1 gene network. To identify genetic modifiers, we analyzed rare, predicted damaging variants in whole genome sequence of 456 cases with conotruncal defects and 537 controls, with 22q11.2DS. We then performed gene set approaches and identified chromatin regulatory genes as modifiers. Chromatin genes with recurrent damaging variants include EP400, KAT6A, KMT2C, KMT2D, NSD1, CHD7 and PHF21A. In total, we identified 37 chromatin regulatory genes, that may increase risk for conotruncal heart defects in 8.5% of 22q11.2DS cases. Many of these genes were identified as risk factors for sporadic CHD in the general population. These genes are co-expressed in cardiac progenitor cells with TBX1, suggesting that they may be in the same genetic network. The genes KAT6A, KMT2C, CHD7 and EZH2, have been previously shown to genetically interact with TBX1 in mouse models. Our findings indicate that disturbance of chromatin regulatory genes impact the TBX1 gene network serving as genetic modifiers of 22q11.2DS and sporadic CHD, suggesting that there are some shared mechanisms involving the TBX1 gene network in the etiology of CHD., (© 2023. The Author(s).)

Published

2023

12. Updated clinical practice recommendations for managing children with 22q11.2 deletion syndrome.

Author

Óskarsdóttir S, Boot E, Crowley TB, Loo JCY, Arganbright JM, Armando M, Baylis AL, Breetvelt EJ, Castelein RM, Chadehumbe M, Cielo CM, de Reuver S, Eliez S, Fiksinski AM, Forbes BJ, Gallagher E, Hopkins SE, Jackson OA, Levitz-Katz L, Klingberg G, Lambert MP, Marino B, Mascarenhas MR, Moldenhauer J, Moss EM, Nowakowska BA, Orchanian-Cheff A, Putotto C, Repetto GM, Schindewolf E, Schneider M, Solot CB, Sullivan KE, Swillen A, Unolt M, Van Batavia JP, Vingerhoets C, Vorstman J, Bassett AS, and McDonald-McGinn DM

Subjects

Adolescent, Humans, Child, Genetic Counseling, Surveys and Questionnaires, DiGeorge Syndrome genetics, DiGeorge Syndrome therapy

Abstract

This review aimed to update the clinical practice guidelines for managing children and adolescents with 22q11.2 deletion syndrome (22q11.2DS). The 22q11.2 Society, the international scientific organization studying chromosome 22q11.2 differences and related conditions, recruited expert clinicians worldwide to revise the original 2011 pediatric clinical practice guidelines in a stepwise process: (1) a systematic literature search (1992-2021), (2) study selection and data extraction by clinical experts from 9 different countries, covering 24 subspecialties, and (3) creation of a draft consensus document based on the literature and expert opinion, which was further shaped by survey results from family support organizations regarding perceived needs. Of 2441 22q11.2DS-relevant publications initially identified, 2344 received full-text reviews, including 1545 meeting criteria for potential relevance to clinical care of children and adolescents. Informed by the available literature, recommendations were formulated. Given evidence base limitations, multidisciplinary recommendations represent consensus statements of good practice for this evolving field. These recommendations provide contemporary guidance for evaluation, surveillance, and management of the many 22q11.2DS-associated physical, cognitive, behavioral, and psychiatric morbidities while addressing important genetic counseling and psychosocial issues., Competing Interests: Conflict of Interest The authors declare no conflicts of interest., (Copyright © 2022 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published

2023

13. Cardiac function in adolescents and young adults with 22q11.2 deletion syndrome without congenital heart disease.

Author

Putotto C, Unolt M, Lambiase C, Marchetti F, Anaclerio S, Favoriti A, Tancredi G, Mastromoro G, Pugnaloni F, Liberati N, De Luca E, Tarani L, De Canditiis D, Caputo V, Bernardini L, Digilio MC, Marino B, and Versacci P

Subjects

Humans, Young Adult, Adolescent, Adult, Echocardiography methods, Heart Ventricles diagnostic imaging, Prognosis, DiGeorge Syndrome, Heart Defects, Congenital

Abstract

Background: Diagnosis and treatment of 22q11.2 deletion syndrome (22q11.2DS) have led to improved life expectancy and achievement of adulthood. Limited data on long-term outcomes reported an increased risk of premature death for cardiovascular causes, even without congenital heart disease (CHD). The aim of this study was to assess the cardiac function in adolescents and young adults with 22q11.2DS without CHDs., Methods: A total of 32 patients (20M, 12F; mean age 26.00 ± 8.08 years) and a healthy control group underwent transthoracic echocardiography, including Tissue Doppler Imaging (TDI) and 2-dimensional Speckle Tracking Echocardiography (2D-STE)., Results: Compared to controls, 22q11.2DS patients showed a significant increase of the left ventricle (LV) diastolic and systolic diameters (p = 0.029 and p = 0.035 respectively), interventricular septum thickness (p = 0.005), LV mass index (p < 0.001) and aortic root size (p < 0.001). 2D-STE analysis revealed a significant reduction of LV global longitudinal strain (p < 0.001) in 22q11.2DS than controls. Moreover, several LV diastolic parameters were significantly different between groups., Conclusions: Our results suggest that an echocardiographic follow-up in 22q11.2DS patients without CHDs can help to identify subclinical impairment of the LV and evaluate a potential progression of aortic root dilation over time, improving outcomes, reducing long-term complications and allowing for a better prognosis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Masson SAS. All rights reserved.)

Published

2023

14. Improved Outcomes in Patients with 22q11.2 Deletion Syndrome and Diagnosis of Interrupted Aortic Arch Prior to Birth Hospital Discharge, a Retrospective Study.

Author

Ron HA, Crowley TB, Liu Y, Unolt M, Schindewolf E, Moldenhauer J, Rychik J, Goldmuntz E, Emanuel BS, Ryba D, Gaynor JW, Zackai EH, Hakonarson H, and McDonald-McGinn DM

Subjects

Infant, Infant, Newborn, Child, Pregnancy, Female, Humans, Retrospective Studies, Aorta, Thoracic abnormalities, Patient Discharge, DiGeorge Syndrome diagnosis, DiGeorge Syndrome genetics, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics

Abstract

Interruption of the aortic arch (IAA) is a rare but life-threatening congenital heart defect if not corrected in the neonatal period. IAA type B is highly correlated with 22q11.2 deletion syndrome (22q11.2DS); approximately 50% of patients with IAA type B also have 22q11.2DS (Peyvandi et al.; Goldmuntz et al.). Early identification and repair of IAA can prevent severe morbidity and death. However, IAA is challenging to identify prenatally, or even in the neonatal period. In this study, we examined infants with IAA, diagnosed during pregnancy and prior to discharge (PPTD) from the birth hospital vs. those diagnosed following discharge (FD) from the newborn nursery. Our goals were to determine: (1) if early diagnosis improved outcomes; and (2) if patients with IAA and without 22q11.2DS had similar outcomes. In total, 135 patients with a diagnosis of 22q11.2DS and IAA were ascertained through the 22q and You Center at the Children's Hospital of Philadelphia (CHOP). The examined outcomes included: timing of diagnosis; age at diagnosis (days); hospital length of stay (LOS); duration of intensive care unit (ICU) stay; mechanical ventilation (days); duration of inotrope administration (days); year of surgical intervention; birth hospital trauma level; and overall morbidity. These outcomes were then compared with 40 CHOP patients with IAA but without 22q11.2DS. The results revealed that the PPTD neonates had fewer days of intubation, inotrope administration, and hospital LOS when compared to the FD group. The outcomes between deleted and non-deleted individuals with IAA differed significantly, in terms of the LOS (40 vs. 39 days) and time in ICU (28 vs. 24 days), respectively. These results support the early detection of 22q11.2DS via prenatal screening/diagnostics/newborn screening, as IAA can evade routine prenatal ultrasound and postnatal pulse oximetry. However, as previously reported in patients with 22q11.2DS and congenital heart disease (CHD), patients with 22q11.2DS tend to fare poorer compared to non-deleted neonates with IAA.

Published

2022

15. Clinical Risk Factors for Aortic Root Dilation in Patients with 22q11.2 Deletion Syndrome: A Longitudinal Single-Center Study.

Author

Putotto C, Pulvirenti F, Pugnaloni F, Isufi I, Unolt M, Anaclerio S, Caputo V, Bernardini L, Messina E, Moretti C, Tarani L, Marino B, and Versacci P

Subjects

Adult, Adolescent, Humans, Aorta, Thoracic, Dilatation, Aorta diagnostic imaging, Aorta pathology, Risk Factors, DiGeorge Syndrome complications

Abstract

Background: Aortic root dilation (ARD) has been described in 22q11.2DS, even without congenital heart disease (CHD). However, the clinical implications and longitudinal course are unclear. In this study, we evaluated aortic root (AR) dimensions in 22q112.DS adolescents/adults without major intracardiac CHDs, analyzed the progression over time and investigated correlations with extracardiac comorbidities., Methods: AR dimensions were evaluated in 74 patients, measuring the sinus of Valsalva (VS) and proximal ascending aorta (AA), using Z-score to define mild, moderate and severe degrees. Changes in AR dimensions during longitudinal echocardiographic follow-up were investigated. Phenotypic characteristics have been collected., Results: Twenty-four patients (32.4%) showed ARD in terms of VS Z-score (2.43; IQR 2.08-3.01), eight (33.3%) of a moderate/severe degree. Thirteen (54.2%) had concomitant AAD (Z-score 2.34; IQR 1.60-2.85). The risk of ARD was significantly directly related to skeletal/connective tissue disorders (OR 12.82, 95% CI 1.43-115.31; p = 0.023) and inversely related to BMI (OR 0.86, 95% CI 0.77-0.97; p = 0.011). A significant increase in AR diameter's absolute value ( p = 0.001) over time has been detected., Conclusion: Isolated ARD is common in 22q11.2DS. Although some clinical risk factors have been identified, pathogenetic mechanisms and risk of complications are undefined. Regular cardiac evaluations should be part of the 22q11.2DS follow-up, and also in non-CHDs patients, to improve long-term outcome.

Published

2022

16. Crossed pulmonary arteries: An underestimated cardiovascular variant with a strong association with genetic syndromes-A report of 74 cases with systematic review of the literature.

Author

Mastromoro G, Calcagni G, Vignaroli W, Anaclerio S, Pugnaloni F, Rinelli G, Secinaro A, Bordonaro V, Putotto C, Unolt M, Digilio MC, Marino B, and Versacci P

Subjects

Chromosome Deletion, Chromosomes, Human, Pair 22, Humans, Lung, Pulmonary Artery diagnostic imaging, DiGeorge Syndrome diagnosis, DiGeorge Syndrome genetics, Heart Defects, Congenital diagnosis

Abstract

Crossed pulmonary arteries (CPAs) represent an uncommon anatomic variant, usually associated with some specific syndromes and conotruncal defects. This finding has been described in 22q11.2 Deletion Syndrome (22q11.2DS). We evaluated the correlation between CPAs and genetic diseases, in order to better define the characteristics of this variant, considered a rare anatomic pattern. An in-depth analysis of CPAs genotype-phenotype correlations was performed via a literature review. We detected 74 CPAs patients through echocardiography. Of these 74 patients, 35.1% of patients showed additional intracardiac malformations, while 29.7% showed extracardiac vascular anomalies, of which 16.2% were associated with intracardiac defects and 13.5% were not. In all, 62.2% of patients were diagnosed with genetic diseases and 52.2% of them were 22q11.2DS patients. In conclusions, CPAs represent a cardiovascular variant, which is detectable in nonsyndromic individuals, but especially in various genetic syndromes and in particular in 22q11.2DS patients. Data on the real prevalence of this morphology is lacking in literature. Knowledge of this anatomic variant is useful to interpret the unusual course of the pulmonary branches and is helpful information before cardiovascular surgical correction. Moreover, due to the strong association of CPAs with some genetic syndromes, the identification of this anatomic pattern can indicate the utility of a genetic assessment of these patients., (© 2022 Wiley Periodicals LLC.)

Published

2022

17. 22q11.2 Deletion Syndrome: Impact of Genetics in the Treatment of Conotruncal Heart Defects.

Author

Putotto C, Pugnaloni F, Unolt M, Maiolo S, Trezzi M, Digilio MC, Cirillo A, Limongelli G, Marino B, Calcagni G, and Versacci P

Abstract

Congenital heart diseases represent one of the hallmarks of 22q11.2 deletion syndrome. In particular, conotruncal heart defects are the most frequent cardiac malformations and are often associated with other specific additional cardiovascular anomalies. These findings, together with extracardiac manifestations, may affect perioperative management and influence clinical and surgical outcome. Over the past decades, advances in genetic and clinical diagnosis and surgical treatment have led to increased survival of these patients and to progressive improvements in postoperative outcome. Several studies have investigated long-term follow-up and results of cardiac surgery in this syndrome. The aim of our review is to examine the current literature data regarding cardiac outcome and surgical prognosis of patients with 22q11.2 deletion syndrome. We thoroughly evaluate the most frequent conotruncal heart defects associated with this syndrome, such as tetralogy of Fallot, pulmonary atresia with major aortopulmonary collateral arteries, aortic arch interruption, and truncus arteriosus, highlighting the impact of genetic aspects, comorbidities, and anatomical features on cardiac surgical treatment.

Published

2022

18. Congenital heart defects in molecularly confirmed KBG syndrome patients.

Author

Digilio MC, Calcagni G, Gnazzo M, Versacci P, Dentici ML, Capolino R, Sinibaldi L, Baban A, Putotto C, Alfieri P, Unolt M, Lepri FR, Alesi V, Genovese S, Novelli A, Marino B, and Dallapiccola B

Subjects

Chromosome Deletion, Facies, Heart Septal Defects, Humans, Transcription Factors, Abnormalities, Multiple diagnosis, Abnormalities, Multiple epidemiology, Abnormalities, Multiple genetics, Bone Diseases, Developmental genetics, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics, Intellectual Disability genetics, Tooth Abnormalities genetics

Abstract

Congenital heart defects (CHDs) are known to occur in 9%-25% of patients with KBG syndrome. In this study we analyzed the prevalence and anatomic types of CHDs in 46 personal patients with KBG syndrome, carrying pathogenetic variants in ANKRD11 or 16q24.3 deletion, and reviewed CHDs in patients with molecular diagnosis of KBG syndrome from the literature. CHD was diagnosed in 15/40 (38%) patients with ANKRD11 variant, and in one patient with 16q24.3 deletion. Left ventricular outflow tract obstructions have been diagnosed in 9/15 (60%), subaortic or muscular ventricular septal defect in 5/15 (33%), dextrocardia in 1/15 (8%). The single patient with 16q24.3 deletion and CHD had complete atrioventricular septal defect (AVSD) with aortic coarctation. Review of KBG patients from the literature and present series showed that septal defects have been diagnosed in 44% (27/61) of the cases, left ventricular tract obstructions in 31% (19/61), AVSD in 18% (11/61). Septal defects have been diagnosed in 78% of total patients with 16q24.3 deletion. Valvar anomalies are frequently diagnosed, prevalently involving the left side of the heart. A distinctive association with AVSD is identifiable and could represent a marker to suggest the diagnosis in younger patients. In conclusion, after precise molecular diagnosis and systematic cardiological screening the prevalence of CHD in KBG syndrome seems to be higher than previously reported in clinical articles. In addition to septal defects, left-sided anomalies and AVSD should be considered. Clinical management of KBG syndrome should include accurate and detailed echocardiogram at time of diagnosis., (© 2021 Wiley Periodicals LLC.)

Published

2022

19. Genetic contributors to risk of schizophrenia in the presence of a 22q11.2 deletion.

Author

Cleynen I, Engchuan W, Hestand MS, Heung T, Holleman AM, Johnston HR, Monfeuga T, McDonald-McGinn DM, Gur RE, Morrow BE, Swillen A, Vorstman JAS, Bearden CE, Chow EWC, van den Bree M, Emanuel BS, Vermeesch JR, Warren ST, Owen MJ, Chopra P, Cutler DJ, Duncan R, Kotlar AV, Mulle JG, Voss AJ, Zwick ME, Diacou A, Golden A, Guo T, Lin JR, Wang T, Zhang Z, Zhao Y, Marshall C, Merico D, Jin A, Lilley B, Salmons HI, Tran O, Holmans P, Pardinas A, Walters JTR, Demaerel W, Boot E, Butcher NJ, Costain GA, Lowther C, Evers R, van Amelsvoort TAMJ, van Duin E, Vingerhoets C, Breckpot J, Devriendt K, Vergaelen E, Vogels A, Crowley TB, McGinn DE, Moss EM, Sharkus RJ, Unolt M, Zackai EH, Calkins ME, Gallagher RS, Gur RC, Tang SX, Fritsch R, Ornstein C, Repetto GM, Breetvelt E, Duijff SN, Fiksinski A, Moss H, Niarchou M, Murphy KC, Prasad SE, Daly EM, Gudbrandsen M, Murphy CM, Murphy DG, Buzzanca A, Fabio FD, Digilio MC, Pontillo M, Marino B, Vicari S, Coleman K, Cubells JF, Ousley OY, Carmel M, Gothelf D, Mekori-Domachevsky E, Michaelovsky E, Weinberger R, Weizman A, Kushan L, Jalbrzikowski M, Armando M, Eliez S, Sandini C, Schneider M, Béna FS, Antshel KM, Fremont W, Kates WR, Belzeaux R, Busa T, Philip N, Campbell LE, McCabe KL, Hooper SR, Schoch K, Shashi V, Simon TJ, Tassone F, Arango C, Fraguas D, García-Miñaúr S, Morey-Canyelles J, Rosell J, Suñer DH, Raventos-Simic J, Epstein MP, Williams NM, and Bassett AS

Subjects

Adult, Case-Control Studies, Cohort Studies, Humans, DiGeorge Syndrome genetics, Psychotic Disorders, Schizophrenia genetics

Abstract

Schizophrenia occurs in about one in four individuals with 22q11.2 deletion syndrome (22q11.2DS). The aim of this International Brain and Behavior 22q11.2DS Consortium (IBBC) study was to identify genetic factors that contribute to schizophrenia, in addition to the ~20-fold increased risk conveyed by the 22q11.2 deletion. Using whole-genome sequencing data from 519 unrelated individuals with 22q11.2DS, we conducted genome-wide comparisons of common and rare variants between those with schizophrenia and those with no psychotic disorder at age ≥25 years. Available microarray data enabled direct comparison of polygenic risk for schizophrenia between 22q11.2DS and independent population samples with no 22q11.2 deletion, with and without schizophrenia (total n = 35,182). Polygenic risk for schizophrenia within 22q11.2DS was significantly greater for those with schizophrenia (p adj  = 6.73 × 10 -6 ). Novel reciprocal case-control comparisons between the 22q11.2DS and population-based cohorts showed that polygenic risk score was significantly greater in individuals with psychotic illness, regardless of the presence of the 22q11.2 deletion. Within the 22q11.2DS cohort, results of gene-set analyses showed some support for rare variants affecting synaptic genes. No common or rare variants within the 22q11.2 deletion region were significantly associated with schizophrenia. These findings suggest that in addition to the deletion conferring a greatly increased risk to schizophrenia, the risk is higher when the 22q11.2 deletion and common polygenic risk factors that contribute to schizophrenia in the general population are both present., (© 2020. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

20. Cardiac Defects and Genetic Syndromes: Old Uncertainties and New Insights.

Author

Calcagni G, Pugnaloni F, Digilio MC, Unolt M, Putotto C, Niceta M, Baban A, Piceci Sparascio F, Drago F, De Luca A, Tartaglia M, Marino B, and Versacci P

Subjects

Abnormalities, Multiple genetics, Genotype, Heart Defects, Congenital genetics, Heart Diseases genetics, Humans, Syndrome, Abnormalities, Multiple pathology, Genetic Association Studies, Heart Defects, Congenital pathology, Heart Diseases pathology

Abstract

Recent advances in understanding the genetic causes and anatomic subtypes of cardiac defects have revealed new links between genetic etiology, pathogenetic mechanisms and cardiac phenotypes. Although the same genetic background can result in different cardiac phenotypes, and similar phenotypes can be caused by different genetic causes, researchers' effort to identify specific genotype-phenotype correlations remains crucial. In this review, we report on recent advances in the cardiac pathogenesis of three genetic diseases: Down syndrome, del22q11.2 deletion syndrome and Ellis-Van Creveld syndrome. In these conditions, the frequent and specific association with congenital heart defects and the recent characterization of the underlying molecular events contributing to pathogenesis provide significant examples of genotype-phenotype correlations. Defining these correlations is expected to improve diagnosis and patient stratification, and it has relevant implications for patient management and potential therapeutic options.

Published

2021

21. Left ventricular (LV) pacing in newborns and infants: Echo assessment of LV systolic function and synchrony at 5-year follow-up.

Author

Silvetti MS, Muzi G, Unolt M, D'Anna C, Saputo FA, Di Mambro C, Albanese S, Ammirati A, Ravà L, and Drago F

Subjects

Child, Preschool, Female, Follow-Up Studies, Heart Block physiopathology, Heart Block therapy, Humans, Infant, Newborn, Male, Prospective Studies, Time Factors, Cardiac Pacing, Artificial, Echocardiography, Electrocardiography, Heart Block congenital, Systole physiology, Ventricular Function, Left physiology

Abstract

Background: Small retrospective studies reported that left ventricular (LV) pacing is likely to preserve LV function in children with isolated congenital complete atrioventricular block (CCAVB). The aim of this study was to prospectively evaluate LV contractility and synchrony in a cohort of neonates/infants at pacemaker implantation and follow-up., Methods: Patients with CCAVB who underwent LV pacing were evaluated with electrocardiogram and echocardiogram in a single-center, prospective study. Data were collected at implantation, at 1-month and every year of follow-up, up to 5 years. LV ventricular dimensions (diameters and volumes), systolic function (ejection fraction [EF] and global longitudinal strain [GLS]), and synchrony were evaluated. Data are reported as median (25th-75th centiles)., Results: Twenty consecutive patients with CCAVB underwent pacemaker implantation (12 single-chamber pacemaker [VVIR] and eight dual-chamber pacemaker [DDD]) with epicardial leads: 17 on the LV apex and three on the free wall. Age at implantation was 0.3 months (1 day-4.5 months). Patients showed good clinical status, normal LV dimensions, preserved systolic function, and synchrony at 60 (30-60) months follow-up. EF increased to normal values in patients with preimplantation EF <50%. Presence of antibodies and pacing mode (DDD vs VVIR) had no impact on the outcome., Conclusions: LV pacing preserved LV systolic function and synchrony in neonates and infants with CCAVB at 5-year follow-up. LV EF improved in patients with low preimplantation EF. Pacing mode or the presence of autoantibodies did not demonstrated an impact on LV contractility and synchrony., (© 2020 The Authors. Pacing and Clinical Electrophysiology published by Wiley Periodicals LLC.)

Published

2020

22. Atypical cardiac defects in patients with RASopathies: Updated data on CARNET study.

Author

Calcagni G, Gagliostro G, Limongelli G, Unolt M, De Luca E, Digilio MC, Baban A, Albanese SB, Ferrero GB, Baldassarre G, Agnoletti G, Banaudi E, Marek J, Kaski JP, Tuo G, Marasini M, Cairello F, Madrigali A, Pacileo G, Russo MG, Milanesi O, Formigari R, Brighenti M, Ragni L, Donti A, Drago F, Dallapiccola B, Tartaglia M, Marino B, and Versacci P

Subjects

Adolescent, Adult, Child, Ectodermal Dysplasia, Failure to Thrive, Humans, Middle Aged, Noonan Syndrome, Retrospective Studies, Young Adult, ras Proteins, Heart Defects, Congenital

Abstract

Background: RASopathies are a set of relatively common autosomal dominant clinically and genetically heterogeneous disorders. Cardiac outcomes in terms of mortality and morbidity for common heart defects (such as pulmonary valve stenosis and hypertrophic cardiomyopathy) have been reported. Nevertheless, also Atypical Cardiac Defects (ACDs) are described. The aim of the present study was to report both prevalence and cardiac outcome of ACDs in patients with RASopathies., Methods: A retrospective, multicentric observational study (CArdiac Rasopathy NETwork-CARNET study) was carried out. Clinical, surgical, and genetic data of the patients who were followed until December 2019 were collected., Results: Forty-five patients out of 440 followed in CARNET centers had ACDs. Noonan Syndrome (NS), NS Multiple Lentigines (NSML) and CardioFacioCutaneous Syndrome (CFCS) were present in 36, 5 and 4 patients, respectively. Median age at last follow-up was 20.1 years (range 6.9-47 years). Different ACDs were reported, including mitral and aortic valve dysfunction, ascending and descending aortic arch anomalies, coronary arteries dilation, enlargement of left atrial appendage and isolated pulmonary branches diseases. Five patients (11%) underwent cardiac surgery and one of them underwent a second intervention for mitral valve replacement and severe pericardial effusion. No patients died in our cohort until December 2019., Conclusions: Patients with RASopathies present a distinct CHD spectrum. Present data suggest that also ACDs must be carefully investigated for their possible impact on the clinical outcome. A careful longitudinal follow up until the individuals reach an adult age is recommended., (© 2020 Wiley Periodicals, Inc.)

Published

2020

23. Myoclonic epilepsy, parkinsonism, schizophrenia and left-handedness as common neuropsychiatric features in 22q11.2 deletion syndrome.

Author

Fanella M, Frascarelli M, Lambiase C, Morano A, Unolt M, Liberati N, Fattouch J, Buzzanca A, Accinni T, Ceccanti M, Viganò A, Biondi M, Colonnese C, Giallonardo AT, Di Fabio F, Pizzuti A, Di Bonaventura C, and Berardelli A

Subjects

Adolescent, Adult, DiGeorge Syndrome physiopathology, Epilepsies, Myoclonic physiopathology, Female, Functional Laterality physiology, Genetic Predisposition to Disease, Humans, Male, Middle Aged, Parkinsonian Disorders physiopathology, Phenotype, Schizophrenia physiopathology, Young Adult, DiGeorge Syndrome genetics, Epilepsies, Myoclonic genetics, Parkinsonian Disorders genetics, Schizophrenia genetics

Abstract

Background: 22q11.2 deletion syndrome (22q11.2DS) is considered as the genetic model of schizophrenia. However, its polymorphic nature has led researchers to further investigate its neuropsychiatric manifestations., Methods: We enrolled 56 adults (38 men, 18 women) diagnosed with 22q11.2DS. All subjects were evaluated by a multidisciplinary team. The neuropsychiatric features were investigated by means of clinical and neurophysiological evaluation (video-EEG)., Results: Thirty per cent of our patients were left-handed. Fifty-eight per cent had a low IQ, and 22 of 56 subjects had psychotic disorders (13 of 22 with schizophrenia). Eighteen patients reported at least one seizure in their lifetime, and ten were diagnosed with epilepsy; among them, seven had genetic generalised epilepsy (GGE), and five of seven showed features suggestive of juvenile myoclonic epilepsy (JME). Video-EEG recordings revealed generalised epileptiform abnormalities in 24 of 56 cases. Besides, only one patient with epilepsy had a cardiac malformation. Lastly, 31 of 56 subjects presented with parkinsonism, 16 of whom were taking neuroleptics. None of the 15 patients with parkinsonism not related to neuroleptic therapy was diagnosed with epilepsy, compared with 6 of those taking antipsychotics., Conclusions: 22q11.2DS is characterised by left-handedness and neuropsychiatric features such as cognitive impairment, schizophrenia, epilepsy and parkinsonism. GGE, mostly the JME phenotype, is the predominant epilepsy type. The significant association between 22q11.2DS and parkinsonian features confirms these patients' genetic susceptibility to parkinsonism. Despite the lack of any conclusive evidence, our study suggests a possible relationship between the analysed clinical variables: (1) an inverse correlation between low IQ/psychosis/epilepsy and major cardiac diseases; (2) a direct association between psychosis and both mental delay and epilepsy; and (3) an inverse correlation between parkinsonism and epilepsy., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

24. Pathogenic variants in CDC45 on the remaining allele in patients with a chromosome 22q11.2 deletion result in a novel autosomal recessive condition.

Author

Unolt M, Kammoun M, Nowakowska B, Graham GE, Crowley TB, Hestand MS, Demaerel W, Geremek M, Emanuel BS, Zackai EH, Vermeesch JR, and McDonald-McGinn D

Subjects

Alleles, Cell Cycle Proteins metabolism, Child, Child, Preschool, Chromosome Deletion, Chromosomes genetics, Chromosomes, Human, Pair 22 genetics, Craniosynostoses genetics, DiGeorge Syndrome metabolism, Female, Heart Defects, Congenital genetics, Humans, Male, Phenotype, Retrospective Studies, Cell Cycle Proteins genetics, DiGeorge Syndrome genetics

Abstract

Purpose: The 22q11.2 deletion syndrome (22q11.2DS) is the most common microdeletion in humans, with highly variable phenotypic expression. Whereas congenital heart defects, palatal anomalies, immunodeficiency, hypoparathyroidism, and neuropsychiatric conditions are observed in over 50% of patients with 22q11DS, a subset of patients present with additional "atypical" findings such as craniosynostosis and anorectal malformations. Recently, pathogenic variants in the CDC45 (Cell Division Cycle protein 45) gene, located within the LCR22A-LCR22B region of chromosome 22q11.2, were noted to be involved in the pathogenesis of craniosynostosis., Methods: We performed next-generation sequencing on DNA from 15 patients with 22q11.2DS and atypical phenotypic features such as craniosynostosis, short stature, skeletal differences, and anorectal malformations., Results: We identified four novel rare nonsynonymous variants in CDC45 in 5/15 patients with 22q11.2DS and craniosynostosis and/or other atypical findings., Conclusion: This study supports CDC45 as a causative gene in craniosynostosis, as well as a number of other anomalies. We suggest that this association results in a condition independent of Meier-Gorlin syndrome, perhaps representing a novel condition and/or a cause of features associated with Baller-Gerold syndrome. In addition, this work confirms that the phenotypic variability observed in a subset of patients with 22q11.2DS is due to pathogenic variants on the nondeleted chromosome.

Published

2020

25. Complete Sequence of the 22q11.2 Allele in 1,053 Subjects with 22q11.2 Deletion Syndrome Reveals Modifiers of Conotruncal Heart Defects.

Author

Zhao Y, Diacou A, Johnston HR, Musfee FI, McDonald-McGinn DM, McGinn D, Crowley TB, Repetto GM, Swillen A, Breckpot J, Vermeesch JR, Kates WR, Digilio MC, Unolt M, Marino B, Pontillo M, Armando M, Di Fabio F, Vicari S, van den Bree M, Moss H, Owen MJ, Murphy KC, Murphy CM, Murphy D, Schoch K, Shashi V, Tassone F, Simon TJ, Shprintzen RJ, Campbell L, Philip N, Heine-Suñer D, García-Miñaúr S, Fernández L, Bearden CE, Vingerhoets C, van Amelsvoort T, Eliez S, Schneider M, Vorstman JAS, Gothelf D, Zackai E, Agopian AJ, Gur RE, Bassett AS, Emanuel BS, Goldmuntz E, Mitchell LE, Wang T, and Morrow BE

Subjects

Case-Control Studies, Cohort Studies, Female, Genome-Wide Association Study, Heart Defects, Congenital pathology, Humans, Linkage Disequilibrium, Male, Phenotype, Proto-Oncogene Mas, Segmental Duplications, Genomic, Chromosome Deletion, Chromosomes, Human, Pair 22 genetics, Heart Defects, Congenital genetics, Polymorphism, Single Nucleotide

Abstract

The 22q11.2 deletion syndrome (22q11.2DS) results from non-allelic homologous recombination between low-copy repeats termed LCR22. About 60%-70% of individuals with the typical 3 megabase (Mb) deletion from LCR22A-D have congenital heart disease, mostly of the conotruncal type (CTD), whereas others have normal cardiac anatomy. In this study, we tested whether variants in the hemizygous LCR22A-D region are associated with risk for CTDs on the basis of the sequence of the 22q11.2 region from 1,053 22q11.2DS individuals. We found a significant association (FDR p < 0.05) of the CTD subset with 62 common variants in a single linkage disequilibrium (LD) block in a 350 kb interval harboring CRKL. A total of 45 of the 62 variants were associated with increased risk for CTDs (odds ratio [OR) ranges: 1.64-4.75). Associations of four variants were replicated in a meta-analysis of three genome-wide association studies of CTDs in affected individuals without 22q11.2DS. One of the replicated variants, rs178252, is located in an open chromatin region and resides in the double-elite enhancer, GH22J020947, that is predicted to regulate CRKL (CRK-like proto-oncogene, cytoplasmic adaptor) expression. Approximately 23% of patients with nested LCR22C-D deletions have CTDs, and inactivation of Crkl in mice causes CTDs, thus implicating this gene as a modifier. Rs178252 and rs6004160 are expression quantitative trait loci (eQTLs) of CRKL. Furthermore, set-based tests identified an enhancer that is predicted to target CRKL and is significantly associated with CTD risk (GH22J020946, sequence kernal association test (SKAT) p = 7.21 × 10 -5 ) in the 22q11.2DS cohort. These findings suggest that variance in CTD penetrance in the 22q11.2DS population can be explained in part by variants affecting CRKL expression., (Copyright © 2019 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2020

26. Left pulmonary artery in 22q11.2 deletion syndrome. Echocardiographic evaluation in patients without cardiac defects and role of Tbx1 in mice.

Author

Mastromoro G, Calcagni G, Versacci P, Putotto C, Chinali M, Lambiase C, Unolt M, Pelliccione E, Anaclerio S, Caprio C, Cioffi S, Bilio M, Baban A, Drago F, Digilio MC, Marino B, and Baldini A

Subjects

Adolescent, Animals, Child, Child, Preschool, DiGeorge Syndrome genetics, DiGeorge Syndrome pathology, Disease Models, Animal, Echocardiography, Female, Humans, Infant, Male, Mice, Mice, Knockout, Pulmonary Artery pathology, T-Box Domain Proteins metabolism, Young Adult, DiGeorge Syndrome diagnostic imaging, Haploinsufficiency, Pulmonary Artery diagnostic imaging, T-Box Domain Proteins genetics

Abstract

Introduction and Hypothesis: Patients with 22q11 deletion syndrome (22q11.2DS) present, in about 75% of cases, typical patterns of cardiac defects, with a particular involvement on the ventricular outflow tract and great arteries. However, in this genetic condition the dimensions of the pulmonary arteries (PAs) never were specifically evaluated. We measured both PAs diameter in patients with 22q11.2DS without cardiac defects, comparing these data to a normal control group. Moreover, we measured the PAs diameter in Tbx1 mutant mice. Finally, a cell fate mapping in Tbx1 mutants was used to study the expression of this gene in the morphogenesis of PAs., Methods: We evaluated 58 patients with 22q11.2DS without cardiac defects. The control group consisted of 54 healthy subjects, matched for age and sex. All cases underwent a complete transthoracic echocardiography. Moreover, we crossed Tbx1+/- mice and harvested fetuses. We examined the cardiovascular phenotype of 8 wild type (WT), 37 heterozygous (Tbx1+/-) and 6 null fetuses (Tbx1-/-). Finally, we crossed Tbx1Cre/+mice with R26RmT-mG Cre reporter mice to study Tbx1 expression in the pulmonary arteries., Results: The echocardiographic study showed that the mean of the LPA/RPA ratio in 22q11.2DS was smaller (0.80 ± 0.12) than in controls (0.97 ± 0.08; p < 0.0001). Mouse studies resulted in similar data as the size of LPA and RPA was not significantly different in WT embryos, but in Tbx1+/- and Tbx1-/- embryos the LPA was significantly smaller than the RPA in both mutants (P = 0.0016 and 0.0043, respectively). We found that Tbx1 is expressed near the origin of the PAs and in their adventitia., Conclusions: Children with 22q11.2DS without cardiac defects show smaller LPA compared with healthy subjects. Mouse studies suggest that this anomaly is due to haploinsufficiency of Tbx1. These data may be useful in the clinical management of children with 22q11.2DS and should guide further experimental studies as to the mechanisms underlying PAs development., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

27. Congenital heart diseases and cardiovascular abnormalities in 22q11.2 deletion syndrome: From well-established knowledge to new frontiers.

Author

Unolt M, Versacci P, Anaclerio S, Lambiase C, Calcagni G, Trezzi M, Carotti A, Crowley TB, Zackai EH, Goldmuntz E, Gaynor JW, Digilio MC, McDonald-McGinn DM, and Marino B

Subjects

Cardiovascular Diseases etiology, Chromosomes, Human, Pair 22, Counseling, DiGeorge Syndrome genetics, Female, Heart Defects, Congenital epidemiology, Heart Defects, Congenital surgery, Humans, Morbidity, Pregnancy, T-Box Domain Proteins genetics, Thoracic Surgery statistics & numerical data, DiGeorge Syndrome etiology, Heart Defects, Congenital etiology

Abstract

Congenital heart diseases (CHDs) and cardiovascular abnormalities are one of the pillars of clinical diagnosis of 22q11.2 deletion syndrome (22q11.2DS) and still represent the main cause of mortality in the affected children. In the past 30 years, much progress has been made in describing the anatomical patterns of CHD, in improving their diagnosis, medical treatment, and surgical procedures for these conditions, as well as in understanding the underlying genetic and developmental mechanisms. However, further studies are still needed to better determine the true prevalence of CHDs in 22q11.2DS, including data from prenatal studies and on the adult population, to further clarify the genetic mechanisms behind the high variability of phenotypic expression of 22q11.2DS, and to fully understand the mechanism responsible for the increased postoperative morbidity and for the premature death of these patients. Moreover, the increased life expectancy of persons with 22q11.2DS allowed the expansion of the adult population that poses new challenges for clinicians such as acquired cardiovascular problems and complexity related to multisystemic comorbidity. In this review, we provide a comprehensive review of the existing literature about 22q11.2DS in order to summarize the knowledge gained in the past years of clinical experience and research, as well as to identify the remaining gaps in comprehension of this syndrome and the possible future research directions., (© 2018 Wiley Periodicals, Inc.)

Published

2018

28. What is new with 22q? An update from the 22q and You Center at the Children's Hospital of Philadelphia.

Author

Campbell IM, Sheppard SE, Crowley TB, McGinn DE, Bailey A, McGinn MJ, Unolt M, Homans JF, Chen EY, Salmons HI, Gaynor JW, Goldmuntz E, Jackson OA, Katz LE, Mascarenhas MR, Deeney VFX, Castelein RM, Zur KB, Elden L, Kallish S, Kolon TF, Hopkins SE, Chadehumbe MA, Lambert MP, Forbes BJ, Moldenhauer JS, Schindewolf EM, Solot CB, Moss EM, Gur RE, Sullivan KE, Emanuel BS, Zackai EH, and McDonald-McGinn DM

Subjects

Adolescent, Adult, Child, Child, Preschool, Chromosome Deletion, Chromosomes, Human, Pair 22, Comorbidity, DiGeorge Syndrome diagnosis, DiGeorge Syndrome epidemiology, Female, Gastrointestinal Diseases etiology, Heart Defects, Congenital etiology, Humans, Longitudinal Studies, Male, Mortality, Philadelphia epidemiology, Transition to Adult Care, DiGeorge Syndrome etiology

Abstract

22q11.2 deletion syndrome (22q11.2DS) is a disorder caused by recurrent, chromosome-specific, low copy repeat (LCR)-mediated copy-number losses of chromosome 22q11. The Children's Hospital of Philadelphia has been involved in the clinical care of individuals with what is now known as 22q11.2DS since our initial report of the association with DiGeorge syndrome in 1982. We reviewed the medical records on our continuously growing longitudinal cohort of 1,421 patients with molecularly confirmed 22q11.2DS from 1992 to 2018. Most individuals are Caucasian and older than 8 years. The mean age at diagnosis was 3.9 years. The majority of patients (85%) had typical LCR22A-LCR22D deletions, and only 7% of these typical deletions were inherited from a parent harboring the deletion constitutionally. However, 6% of individuals harbored other nested deletions that would not be identified by traditional 22q11.2 FISH, thus requiring an orthogonal technology to diagnose. Major medical problems included immune dysfunction or allergies (77%), palatal abnormalities (67%), congenital heart disease (64%), gastrointestinal difficulties (65%), endocrine dysfunction (>50%), scoliosis (50%), renal anomalies (16%), and airway abnormalities. Median full-scale intelligence quotient was 76, with no significant difference between individuals with and without congenital heart disease or hypocalcemia. Characteristic dysmorphic facial features were present in most individuals, but dermatoglyphic patterns of our cohort are similar to normal controls. This is the largest longitudinal study of patients with 22q11.2DS, helping to further describe the condition and aid in diagnosis and management. Further surveillance will likely elucidate additional clinically relevant findings as they age., (© 2018 Wiley Periodicals, Inc.)

Published

2018

29. Use of a Pediatric Syncope Unit Improves Diagnosis and Lowers Costs: A Hospital-Based Experience.

Author

Drago F, Calvieri C, Placidi S, Righi D, Paglia S, Del Vecchio E, Silvetti MS, Gimigliano F, Di Mambro C, Unolt M, Giordano U, Raucci U, and Raponi M

Subjects

Adolescent, Child, Female, Follow-Up Studies, Humans, Incidence, Italy epidemiology, Length of Stay economics, Length of Stay trends, Male, Prospective Studies, Syncope economics, Syncope epidemiology, Diagnostic Techniques, Cardiovascular economics, Hospital Costs, Hospital Units economics, Syncope diagnosis

Abstract

Objectives: To assess the effect of a dedicated pediatric syncope unit on the diagnostic and therapeutic management of children with suspected syncope. We also evaluated the effectiveness of the pediatric syncope unit model in decreasing unnecessary tests and hospitalizations, minimizing social costs, and improving diagnostic yield., Study Design: This single-center cohort observational, prospective study enrolled 2278 consecutive children referred to Bambino Gesù Children's Hospital from 2012 to 2017. Characteristics of the study population, number and type of admission examinations, and diagnostic findings before the pediatric syncope unit was implemented (2012-2013) and after the pediatric syncope unit was implemented (2014-2015 and 2016-2017) were compared., Results: The proportion of undefined syncope, number of unnecessary diagnostic tests performed, and number of hospital stay days decreased significantly (P < .0001), with an overall decrease in costs. A multivariable logistic regression analysis, adjusted for confounding variables (age, sex, number of diagnostic tests), the period after pediatric syncope unit (2016-2017) resulted as the best independent predictor of effectiveness for a defined diagnosis of syncope (P < .0001)., Conclusions: Pediatric syncope unit organization with fast-tracking access more appropriate diagnostic tests is effective in terms of accuracy of diagnostic yield and reduction of costs., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

30. 22q and two: 22q11.2 deletion syndrome and coexisting conditions.

Author

Cohen JL, Crowley TB, McGinn DE, McDougall C, Unolt M, Lambert MP, Emanuel BS, Zackai EH, and McDonald-McGinn DM

Subjects

Adolescent, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, DiGeorge Syndrome complications, DiGeorge Syndrome genetics

Abstract

22q11.2 deletion syndrome (DS) is the most frequent copy number variant (CNV) affecting ~1/1,000 fetuses and ~1/2,000-4,000 children, resulting in recognizable but variable findings across multiple organ systems. Patients with atypical features should prompt consideration of coexisting diagnoses due to additional genome-wide mutations, CNVs, or mutations/CNVs on the other allele, unmasking autosomal recessive conditions. Importantly, a dual diagnosis compounds symptoms and impacts management. We previously reported seven patients with 22q11.2DS and: SCID, Trisomy 8 mosaicism, Bernard-Soulier, and CEDNIK syndromes. Here we present six additional unreported patients with 22q11.2DS and concurrent diagnoses. Records on 1,422 patients with 22q11.2DS, identified via FISH, microarray, or MLPA, followed in our 22q and You Center at the Children's Hospital of Philadelphia (CHOP) were reviewed to identify a dual diagnosis. In addition to our seven previously reported cases, we identified an additional six with 22q11.2DS and another coexisting condition identified via: molecular/cytogenetic studies, newborn screening, coagulation factor studies, or enzyme testing; these include CHARGE syndrome (CHD7 mutation), cystic fibrosis, a maternally inherited 17q12 deletion, G6PD deficiency, von Willebrand disease, and 1q21.1 deletion, resulting in an incidence of dual diagnoses at our center of 0.9%. The range of dual diagnoses identified in our cohort is notable, medically actionable, and may alter long-term outcome and recurrence risk counseling. Thus, our findings may support testing patients with 22q11.2DS using a combination of microarray, mutational analysis of the other allele/WES, to ensure appropriate personalized care, as formulating medical management decisions hinges on establishing the correct diagnoses in their entirety., (© 2018 Wiley Periodicals, Inc.)

Published

2018

31. Primary lymphedema and other lymphatic anomalies are associated with 22q11.2 deletion syndrome.

Author

Unolt M, Barry J, Digilio MC, Marino B, Bassett A, Oechslin E, Low DW, Belasco JB, Kallish S, Sullivan K, Zackai EH, and McDonald-McGinn DM

Subjects

Adult, Female, Humans, Infant, Male, DiGeorge Syndrome genetics, Lymphedema genetics

Abstract

Background: Lymphedema is an abnormal accumulation of interstitial fluid within the tissues. Primary lymphedema is caused by aberrant lymphangiogenesis and it has been historically classified based on age at presentation. Although most cases are sporadic, primary lymphedema may be familial or present in association with chromosomal abnormalities and syndromic disorders. To the best of our knowledge, primary lymphedema has never been described in patients with 22q11.2 deletion syndrome., Methods and Results: We identified 4 patients with 22q11.2 deletion syndrome and primary lymphedema via our International 22q11.2 Deletion Syndrome Consortium. All patients underwent comprehensive clinical, laboratory and imaging assessments to rule out other causes of lymphedema. All patients had de novo typical deletions and family histories were negative for lymphedema., Conclusions: We report the novel association of primary lymphedema with 22q11.2 deletion syndrome. Importantly, animal models demonstrated Tbx1 playing a critical role in lymphangiogenesis by reducing Vegfr3 expression in lymphatic endothelial cells. Moreover, the VEGFR3 pathway is essential for lymphangiogenesis with mutations identified in hereditary primary lymphedema. Accordingly, our findings provide a new insight into understanding cellular mechanisms of lymphangiogenesis disorders., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published

2018

32. Some Isolated Cardiac Malformations Can Be Related to Laterality Defects.

Author

Versacci P, Pugnaloni F, Digilio MC, Putotto C, Unolt M, Calcagni G, Baban A, and Marino B

Abstract

Human beings are characterized by a left⁻right asymmetric arrangement of their internal organs, and the heart is the first organ to break symmetry in the developing embryo. Aberrations in normal left⁻right axis determination during embryogenesis lead to a wide spectrum of abnormal internal laterality phenotypes, including situs inversus and heterotaxy . In more than 90% of instances, the latter condition is accompanied by complex and severe cardiovascular malformations. Atrioventricular canal defect and transposition of the great arteries&mdash;which are particularly frequent in the setting of heterotaxy &mdash;are commonly found in situs solitus with or without genetic syndromes. Here, we review current data on morphogenesis of the heart in human beings and animal models, familial recurrence, and upstream genetic pathways of left⁻right determination in order to highlight how some isolated congenital heart diseases, very common in heterotaxy , even in the setting of situs solitus , may actually be considered in the pathogenetic field of laterality defects.

Published

2018

33. Congenital heart disease and genetic syndromes: new insights into molecular mechanisms.

Author

Calcagni G, Unolt M, Digilio MC, Baban A, Versacci P, Tartaglia M, Baldini A, and Marino B

Subjects

Chromosome Aberrations, Genetic Markers, Genotype, Heart Defects, Congenital epidemiology, Heart Defects, Congenital therapy, Humans, Mutation, Phenotype, Syndrome, Genetic Association Studies methods, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics

Abstract

Introduction: Advances in genetics allowed a better definition of the role of specific genetic background in the etiology of syndromic congenital heart defects (CHDs). The identification of a number of disease genes responsible for different syndromes have led to the identification of several transcriptional regulators and signaling transducers and modulators that are critical for heart morphogenesis. Understanding the genetic background of syndromic CHDs allowed a better characterization of the genetic basis of non-syndromic CHDs. In this sense, the well-known association of typical CHDs in Down syndrome, 22q11.2 microdeletion and Noonan syndrome represent paradigms as chromosomal aneuploidy, chromosomal microdeletion and intragenic mutation, respectively. Area covered: For each syndrome the anatomical features, distinctive cardiac phenotype and molecular mechanisms are discussed. Moreover, the authors include recent genetic findings that may shed light on some aspects of still unclear molecular mechanisms of these syndromes. Expert commentary: Further investigations are needed to enhance the translational approach in the field of genetics of CHDs. When there is a well-established definition of genotype-phenotype (reverse medicine) and genotype-prognosis (predictive and personalized medicine) correlations, hopefully preventive medicine will make its way in this field. Subsequently a reduction will be achieved in the morbidity and mortality of children with CHDs.

Published

2017

34. Factors That Negatively Affect the Prognosis of Pediatric Community-Acquired Pneumonia in District Hospital in Tanzania.

Author

Caggiano S, Ullmann N, De Vitis E, Trivelli M, Mariani C, Podagrosi M, Ursitti F, Bertolaso C, Putotto C, Unolt M, Pietravalle A, Pansa P, Mphayokulela K, Lemmo MI, Mkwambe M, Kazaura J, Duse M, Nieddu F, Azzari C, and Cutrera R

Subjects

Child, Child, Preschool, Community-Acquired Infections diagnosis, Community-Acquired Infections microbiology, Community-Acquired Infections mortality, Comorbidity, Female, Humans, Infant, Infant, Newborn, Length of Stay, Male, Phenotype, Pneumonia, Bacterial diagnosis, Pneumonia, Bacterial microbiology, Pneumonia, Bacterial mortality, Prognosis, Risk Factors, Severity of Illness Index, Tanzania epidemiology, Community-Acquired Infections epidemiology, Hospitals, District, Pneumonia, Bacterial epidemiology

Abstract

Community-acquired pneumonia (CAP) is still the most important cause of death in countries with scarce resources. All children (33 months ± 35 DS) discharged from the Pediatric Unit of Itigi Hospital, Tanzania, with a diagnosis of CAP from August 2014 to April 2015 were enrolled. Clinical data were gathered. Dried blood spot (DBS) samples for quantitative real-time polymerase chain reaction (PCR) for bacterial detection were collected in all 100 children included. Twenty-four percent of patients were identified with severe CAP and 11% died. Surprisingly, 54% of patients were admitted with a wrong diagnosis, which increased complications, the need for antibiotics and chest X-rays, and the length of hospitalization. Comorbidity, found in 32% of children, significantly increased severity, complications, deaths, need for chest X-rays, and oxygen therapy. Malnourished children (29%) required more antibiotics. Microbiologically, Streptococcus pneumonia (S. p.), Haemophilus influenza type b (Hib) and Staphylococcus aureus (S. a.) were the bacteria more frequently isolated. Seventy-five percent of patients had mono-infection. Etiology was not correlated with severity, complications, deaths, oxygen demand, or duration of hospitalization. Our study highlights that difficult diagnoses and comorbidities negatively affect clinical evolution. S. p. and Hib still play a large role; thus, implementation of current vaccine strategies is needed. DBS is a simple and efficient diagnostic method for bacterial identification in countries with scarce resources.

Published

2017

35. Congenital diaphragmatic hernia in 22q11.2 deletion syndrome.

Author

Unolt M, DiCairano L, Schlechtweg K, Barry J, Howell L, Kasperski S, Nance M, Adzick NS, Zackai EH, and McDonald-McGinn DM

Subjects

Chromosome Deletion, Chromosomes, Human, Pair 22, Comparative Genomic Hybridization, Female, Hernias, Diaphragmatic, Congenital surgery, Humans, In Situ Hybridization, Fluorescence, Infant, Infant, Newborn, Male, Morbidity, Phenotype, Pregnancy, Prenatal Diagnosis, Retrospective Studies, DiGeorge Syndrome diagnosis, DiGeorge Syndrome genetics, Genetic Association Studies, Hernias, Diaphragmatic, Congenital diagnosis, Hernias, Diaphragmatic, Congenital genetics

Abstract

We report the important association of congenital diaphragmatic hernia (CDH) and 22q11.2 deletion syndrome (22q11.2DS). The prevalence of CDH in our cohort of patients with 22q11.2DS is 0.8% (10/1246), which is greater than in the general population (0.025%). This observation suggests that 22q11.2DS should be considered when a child or fetus presents with CDH, in particular when other clinical findings associated with the 22q11.2DS are present, such as congenital cardiac defects. Furthermore, this finding may lead to the identification of an additional locus for diaphragmatic hernia in the general population. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2017

36. Sprengel anomaly in deletion 22q11.2 (DiGeorge/Velo-Cardio-Facial) syndrome.

Author

Radio FC, Digilio MC, Capolino R, Dentici ML, Unolt M, Alesi V, Novelli A, Marino B, and Dallapiccola B

Subjects

Adolescent, Adult, Child, Child, Preschool, Congenital Abnormalities diagnostic imaging, Congenital Abnormalities genetics, DiGeorge Syndrome diagnostic imaging, DiGeorge Syndrome genetics, DiGeorge Syndrome pathology, Female, Humans, Male, Retrospective Studies, Scapula diagnostic imaging, Scapula metabolism, Scapula pathology, Shoulder Joint diagnostic imaging, Chromosome Deletion, Chromosomes, Human, Pair 22, Congenital Abnormalities diagnosis, DiGeorge Syndrome diagnosis, Scapula abnormalities, Shoulder Joint abnormalities

Abstract

Sprengel anomaly (SA) is a rare skeletal defect characterized by uni- or bi-lateral elevation of the scapula. This anomaly is often isolated, although it can occur in association with other defects, including cervical spine malformations, cleft palate, and facial anomalies. Neural crest migration anomalies have been involved in the etiology of SA. Since the same embryological pathway accounts for some of the clinical features of deletion 22q11.2 syndrome (del22q11.2; DiGeorge/Velo-Cardio-Facial syndrome), we investigated the occurrence of SA in a consecutive series of 235 del22q11.2 patients aged more than 2 years, undergoing a complete clinical and orthopedic assessment of the dorsal and thoracic skeleton. In the present series, two patients were diagnosed with true SA. Present results and published reports suggest that scapular involvement including SA occurs in 1-2% of del22q11.2 individuals. Accordingly, this anomaly should be investigated as one of the possible skeletal findings of del22q11.2 syndrome, while this diagnosis should be excluded in patients presenting with SA associated with other defects., (© 2015 Wiley Periodicals, Inc.)

Published

2016

37. Double-outlet left ventricle with L-malposition of the great arteries and subpulmonary ventricular septal defect.

Author

Putotto C, Unolt M, and Marino D

Subjects

Humans, Male, Abnormalities, Multiple diagnosis, Heart Septal Defects, Ventricular diagnosis, Heart Ventricles abnormalities, Transposition of Great Vessels diagnosis

Published

2013

38. Transposition of great arteries: new insights into the pathogenesis.

Author

Unolt M, Putotto C, Silvestri LM, Marino D, Scarabotti A, Valerio Massaccesi, Caiaro A, Versacci P, and Marino B

Abstract

Transposition of great arteries (TGA) is one of the most common and severe congenital heart diseases (CHD). It is also one of the most mysterious CHD because it has no precedent in phylogenetic and ontogenetic development, it does not represent an alternative physiological model of blood circulation and its etiology and morphogenesis are still largely unknown. However, recent epidemiologic, experimental, and genetic data suggest new insights into the pathogenesis. TGA is very rarely associated with the most frequent genetic syndromes, such as Turner, Noonan, Williams or Marfan syndromes, and in Down syndrome, it is virtually absent. The only genetic syndrome with a strong relation with TGA is Heterotaxy. In lateralization defects TGA is frequently associated with asplenia syndrome. Moreover, TGA is rather frequent in cases of isolated dextrocardia with situs solitus, showing link with defect of visceral situs. Nowadays, the most reliable method to induce TGA consists in treating pregnant mice with retinoic acid or with retinoic acid inhibitors. Following such treatment not only cases of TGA with d-ventricular loop have been registered, but also some cases of congenitally corrected transposition of great arteries (CCTGA). In another experiment, the embryos of mice treated with retinoic acid in day 6.5 presented Heterotaxy, suggesting a relationship among these morphologically different CHD. In humans, some families, beside TGA cases, present first-degree relatives with CCTGA. This data suggest that monogenic inheritance with a variable phenotypic expression could explain the familial aggregation of TGA and CCTGA. In some of these families we previously found multiple mutations in laterality genes including Nodal and ZIC3, confirming a pathogenetic relation between TGA and Heterotaxy. These overall data suggest to include TGA in the pathogenetic group of laterality defects instead of conotruncal abnormalities due to ectomesenchymal tissue migration.

Published

2013

39. Double-orifice left atrioventricular valve in patients with atrioventricular septal defect with and without down syndrome.

Author

Unolt M, Putotto C, and Marino D

Subjects

Female, Humans, Male, Heart Defects, Congenital surgery, Heart Septal Defects surgery, Mitral Valve abnormalities, Mitral Valve surgery

Published

2013

40. Double outlet right ventricle versus aortic dextroposition: morphologically distinct defects.

Author

Restivo A, Unolt M, Putotto C, and Marino B

Subjects

Diagnosis, Differential, Double Outlet Right Ventricle classification, Double Outlet Right Ventricle embryology, Heart Septal Defects, Ventricular classification, Heart Septal Defects, Ventricular embryology, Humans, Predictive Value of Tests, Terminology as Topic, Tetralogy of Fallot classification, Tetralogy of Fallot embryology, Aorta abnormalities, Double Outlet Right Ventricle pathology, Heart Septal Defects, Ventricular pathology, Tetralogy of Fallot pathology

Abstract

This study concerns the morphological differentiation between double outlet right ventricle (DORV) and aortic dextroposition (AD) defects, namely tetralogy of Fallot and Eisenmenger anomaly. Indeed, despite the similar condition in terms of sequential ventriculo-arterial connections, DORV and AD are two distinct morphological entities. It is proposed that the borderline between these two groups of malformations is represented by the specific insertion of the infundibular septum into the left anterior cranial division of the septomarginal trabeculation (or septal band) occurring in ADs and lacking in DORV. Furthermore, the spiraliform versus straight parallel arrangement of the great arteries in the two groups of anomalies is emphasized as an additional and distinctive morphological feature. Emphasis is also given to the association of straight parallel great arteries conotruncal malformations, DORV and transposition of the great arteries, with the asplenia type of heterotaxy laterality defects. Within this context, the absence of subaortic ventricular septal defect and concomitantly of spiraliform great arteries in the asplenia group of heterotaxy anomalies, as detected by this study, further substantiates our belief of not mixing collectively the ADs with the DORV in clinico-pathological diagnosis., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013

41. Smith-Lemli-Opitz syndrome, cardiac defects, and spleen anomalies.

Author

Putotto C, Unolt M, and Marino D

Subjects

Female, Humans, Male, Fetus pathology, Phenotype, Smith-Lemli-Opitz Syndrome pathology

Published

2013

42. [Congenital heart diseases in women].

Author

Putotto C, Unolt M, Caiaro A, Marino D, Massaccesi V, Marino B, and Digilio MC

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Heart Diseases pathology, Heart Diseases surgery, Humans, Infant, Infant, Newborn, Sex Factors, Young Adult, Heart Diseases congenital

Abstract

Are there gender differences in prevalence, surgical results and long-term survival of patients with congenital heart disease? Available literature data allow us to state what follows. At birth there is a mild but significant prevalence of congenital heart disease in females. The most severe congenital heart diseases are less frequent in girls, but when they are present in females, they are linked to a higher surgical mortality rate, due perhaps to lower weight at birth and to the prevalence of extracardiac malformations and/or of associated genetic syndromes. On the other hand, in adults, surgery for congenital heart disease is at higher risk in males, and so the long-term survival rate is higher in females. Particular psychological attitudes, a higher incidence of pulmonary hypertension, as well as specific problems linked to the reproductive function characterize congenital heart disease in adult women. The knowledge and analysis of these data are essential for a correct management of congenital heart disease in neonates, children and adults.

Published

2013

43. Aortic arch interruption without ductus arteriosus and no ventricular septal defect.

Author

Putotto C, Unolt M, and Marino D

Subjects

Female, Humans, Aorta, Thoracic abnormalities

Published

2013

44. Congenital heart disease, genetic syndromes, and major noncardiac malformations.

Author

Unolt M, Putotto C, and Marino D

Subjects

Female, Humans, Pregnancy, Cardiovascular Abnormalities mortality, Infant Mortality trends

Published

2012

45. Atrioventricular septal defect prognosis for patients with Down syndrome.

Author

Unolt M, Putotto C, and Marino D

Subjects

Female, Humans, Male, Cardiac Valve Annuloplasty adverse effects, Heart Septal Defects, Atrial surgery, Reoperation mortality

Published

2012