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3. Prevalence of depression in amyotrophic lateral sclerosis/motor neuron disease: multi-attribute ascertainment and trajectories over 30 months.

Author

Young, C. A., Ealing, J., McDermott, C. J., Williams, T. L., Al-Chalabi, A., Majeed, T., Talbot, K., Harrower, T., Faull, C., Malaspina, A., Annadale, J., Mills, R. J., and Tennant, A.

Subjects
MOTOR neuron diseases, AMYOTROPHIC lateral sclerosis, ANTIDEPRESSANTS, MENTAL depression, NEUROLOGICAL disorders
Abstract

Objective: Evidence is equivocal about the prevalence of depression in amyotrophic lateral sclerosis (ALS). This study uses a multi-attribute ascertainment of the prevalence of depression and examines this prevalence over time. Methods: Patients with ALS were recruited into the Trajectories of Outcome in Neurological Conditions (TONiC-ALS) study. Caseness was identified by the Modified-Hospital Anxiety and Depression Scale (M-HADS). In addition, participants provided data on co-morbidities and medication use. A combination of the three was used to derive the estimate for the prevalence of depression, treated or untreated. Longitudinal data were analyzed by trajectory analysis of interval level M-HADS-Depression data. Results: Among 1120 participants, the mean age was 65.0 years (SD 10.7), 60.4% male, and the median duration since diagnosis was 9 months (IQR 4–24). Caseness of probable depression at baseline, defined by M-HADS-Depression, was 6.45% (95%CI: 5.1–8.0). Taken together with antidepressant medication and co-morbidity data, the prevalence of depression was 23.1% (95%CI: 20.7–25.6). Of those with depression, 17.8% were untreated. Trajectory analysis identified three groups, one of which contained the most cases; the level of depression for each group remained almost constant over time. Conclusion: Depression affects almost a quarter of those with ALS, largely confined to a single trajectory group. Prevalence estimates based on screening for current depressive symptoms substantially under-estimate the population experiencing depression. Future prevalence studies should differentiate data based on current symptoms from those including treated patients. Both have their place in assessing depression and the response by the health care system, including medication, depending upon the hypothesis under test. [ABSTRACT FROM AUTHOR]

Published
2023
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5. Intravenous immunoglobulin treatment for mild Guillain-Barré syndrome. An international observational study

Author

Verboon, C., Harbo, T., Cornblath, D. R., Hughes, R. A. C., Van Doorn, P. A., Lunn, M. P., Gorson, K. C., Barroso, F., Kuwabara, S., Galassi, G., Lehmann, H. C., Kusunoki, S., Reisin, R. C., Binda, D., Cavaletti, G., Andersen, Jacobs B. C. H., PhD (Aarhus University Hospital, Aarhus, Denmark), Attarian, S., PhD (CHU Timone, Marseille, France), Badrising, U. A., PhD (Leiden University Medical Centre, Leiden, The, Netherlands), Bateman, K., PhD (Groote Schuur Hospital, Cape, Town, South-Africa), Benedetti, L., PhD (Ospedale Sant’ Andrea La Spezia, Spezia, La, Italy), van den Berg, B., MD (Franciscus Gasthuis, Rotterdam, Van den Bergh, P., Luc, PhD (University Clinic St., Leuven, Belgium), Bertorini, T. E., MD (The University of Tennessee Health Science Center (UTHSC), Memphis, USA), Bhavaraju-Sanka, R., MD (University Hospital/ University of Texas Health Science Center, San Antonio Texas, USA), Bianco (Milan University, M., Humanitas Clinicala and Research Institute Milan, Briani, C., MD (University of Padova, Padova, Italy), Bürmann, J., MD (Universitätsklinikum des Saarlandes, Homburg, Germany), Casasnovas, C., Ciberer, PhD (Bellvitge University Hospital - IDIBELL Neurometabolic Diseases Group., Barcelona, Spain), Chao, C. C., PhD (National Taiwan University Hospital, Taipei, Taiwan), Chavada, G., PhD (Glasgow University, Glasgow, UK), Claeys, K. G., University Hospitals Leuven, PhD (1., Leuven, Belgium, KU Leuven, 2., Cosgrove, J. S., MD (Leeds General Infirmary, Leeds, UK), Dalakas, M. C., Thomas Jefferson University, MD (1., Philadelphia, Usa, National and Kapodistrian University of Athens, 2., Athens, Greece), Davidson, A., MD (University of Glasgow, van Dijk, G. W., MD (Canisius Wilhelmina Hospital, Nijmegen, Dardiotis, E., MD (University of Thessaly, Hospital of Larissa, Larissa, Greece), Derejko, M., MD (Odense University Hospital, Odense, Denmark), Dimachkie, M. M., MD (University of Kansas Medical Center, Kansas, City, Dornonville de la Cour, C., MD (National Hospital Copenhagen, Copenhagen, Denmark), Echaniz-Laguna, A., MD (Bicêtre University Hospital, Paris, France), Eftimov, F., PhD (Amsterdam University Medical Centre, Amsterdam, Faber, C. G., PhD (Maastricht University Medical Centre, Maastricht, Fazio, R., MD (Scientific Institute San Raffaele, Milan, Italy), Fulgenzi, J. Fehmi (University of Oxford E. A., MD (Hospital Cesar Milstein Buenos Aires, Buenos, Aires, Argentina), García-Sobrino, T., MD (Hospital Clínico de Santiago, Santiago de Compostela (A Coruña), Spain), Gijsbers, C. J., MD (Vlietland Hospital, Schiedam, Granit, V., MD (Montefiore Medical, Center, New, York, Grisanti, S., MD (Ospedale Sant’ Andrea La Spezia, Gutiérrez-Gutiérrez, G., MD (Hospital Universitario Infanta Sofia, San, Sebastian, Holbech, J. V., PhD (Odense University Hospital, Holt, J. K. L., Phd, FRCP (The Walton Centre, Liverpool, UK), Homedes, C., Ciberer, MD (Bellvitge University Hospital - IDIBELL Neurometabolic Diseases Group., Islam, B., PhD (International Centre for Diarrhoeal Disease Research, Bangladesh, (icddr, Dhaka, b), Bangladesh), Islam, Z., Jahan, I., PhD candidate (International Centre for Diarrhoeal Disease Research, Jericó Pascual, I., PhD (Complejo Hospitalario de Navarra, Pamplona, Spain), Karafiath, S., MD (University of Utah School of Medicine, Salt Lake City, Kerkhoff, H., PhD (Albert Schweitzer Hospital, Dordrecht, Kimpinski, K., MD (University Hospital, Lhsc, London-Ontario, Canada), Kohler, A., MD (Instituto de Investigaciones Neurológicas Raúl Carrea, Fleni, Kolb, N., MD (University of Vermont, Burlington, Vt, Kuitwaard, K., Albert Schweitzer Hospital, PhD (1., Erasmus MC, 2., Kuwahara, M., PhD (Kindai University, Osaka, Japan), Ladha, S. S., MD (Barrow Neurology Clinics, Phoenix, Arizona, Lee Pan, E., MBChB (Groote Schuur Hospital, Marfia, G. A., MD (Neurological Clinic, Policlinico Tor Vergata, Rome, Italy), Magot, A., MD (Reference Centre for NMD, Nantes University Hospital, France), Márquez Infante, C., MD (Hospital Universitario Virgen del Rocio, Seville, Spain), Martín-Aguilar, L., MD (Hospital de la Santa Creu, i Sant Pau, Universitat Autònoma de Barcelona, Martinez Hernandez, E., MD (Institut d’Investigacions Biomèdiques August Pi, i Sunyer (IDIBAPS), Hospital, Clinic, Mataluni, G., PhD (Neurological Clinic, Meekins, G., MD (University of Minnesota, Miller, J. A. L., PhD (Royal Victoria Infirmary, Newcastle, UK), Monges, M. S., Garrahan, MD (Hospital de Pediatría J. P., Nobile Orazio, E., PhD (Milan University, Pardal, A., MD (Hospital Britanico, Pardo Fernandez (Hospital Clínico de Santiago, J., Péréon, Y., PhD (Reference Centre for NMD, Pulley, M., MD (University of Florida, Jacksonville, USA), Querol Gutierrez, L., PhD (Hospital de la Santa Creu, i Sant Pau, Reddel, S. W., PhD (Concord Repatriation General Hospital, Sydney, Australia), van der Ree, T., (Westfriesgasthuis, Md, Hoorn, Rinaldi, S., Mbchb, Samijn, PhD (University of Oxford J. P. A., MD (Maasstad Hospital, Samukawa, M., Santoro, L., PhD (University Federico II, Napels, Italy), Savransky, A., Garrahan, PhD (Hospital de Pediatría J. P., Schwindling, L., Sedano Tous, M. J., MD (Hospital Universitario Marques de Valdecilla, Santander, Cantabria, Sekiguchi, Y., PhD (Chiba University, Chiba, Japan), Shahrizaila, N., MD (Neurology Unit, Department of Medicine, Faculty of Medicine, University of Malaya, Malaya), Silvestri, N. J., Sindrup, MD (Buffalo Jacobs School of Medicine S., Sommer, C. L., MD (Universitätsklinikum Würzburg, Würzburg, Germany), Spyropoulos (Royal Victoria Infirmary, A., Stein, B., Joseph’s Regional Medical Center, MD (St., Paterson, USA), Tan, C. Y., MRCP (Neurology Unit, Tankisi, H., Vermeij, F., Vytopil, M. V., Wirtz, PhD (Tufts University School of Medicine Lahey Hospital P. W., Phd, (HagaZiekenhuis, The, Hague, Waheed, W., MD (University of Vermont Medical Center, Burlington, Addington, USA). Other collaborators were:J. M., MD (University of Virginia, Charlottesville, USA), Ajroud-Driss, S., MD (Northwestern University Feinberg, Chicago, USA), Antonini, G., MD (Mental Health and Sensory Organs (NESMOS), Sapienza, University, Sant’Andrea, Hospital, Bella, I. R., MD (University of Mass Medical School, Worcester, USA), Brannagan, T. H., MD (Columbia University, New York City, Bunschoten, C., PhD candidate (Erasmus University Medical Centre, Busby, M., Bradford, UK), Butterworth, S., MD (Pinderfields Hospital, Wakefield, UK), Conti, M. E., MD (University Hospital Clinicas, Chen, S., Phd, (Rutgers, Robert Wood Johnson University Hospital, New, Brunswick, Doets, A., Feasby, T. E., MD (University of Calgary, Calgary, Canada), Fokke, C., MD (Gelre Hospital, Zutphen and Apeldoorn, Fujioka, T., MD (Toho University Medical Center, Tokyo, Japan), Garssen, M. P. J., PhD (Jeroen Bosch Hospital, Hertogenbosch, ’S, Gilchrist, J. M., MD (Soulthern Illinois University School of Medicine, Springfield, USA), Gilhuis, J., PhD (Reinier de Graaf Gasthuis, Delft, Goldstein, J. M., MD (Yale University School of Medicine, New, Haven, Goyal, N. A., MD (University of California, Irvine, USA), Hadden, R. D. M., PhD (King’s College Hospital, London, UK), Hsieh, S. T., Htut, M., George’s Hospital, MD (St., Illa, I., Jellema, K., PhD (Haaglanden Medisch Centrum, Kaida, K., PhD (National Defense Medical College, Saitama, Japan), Katzberg, H. D., MD (University of Toronto, Toronto, Canada), Kiers, L., MD (University of Melbourne, Royal Melbourne Hospital, Parkville, Australia), Kokubun, N., MD (Dokkyo Medical University, Tochigi, Japan), van Koningsveld, R., PhD (Elkerliek Hospital, Helmond and Deurne, van der Kooi, A. J., Kwan, J. Y., MD (University of Maryland School of Medicine, Baltimore, USA), Landschoff Lassen, L., MD (Glostrup Hospital, Glostrup, Denmark), Lawson, V., MD (Wexner Medical Center at The Ohio State University, Columbus, USA), Leonhard, S. E., Mandarakas, M., PhD (Erasmus University Medical Centre, Manji, H., FRCP (Ipswich Hospital, Ipswich, UK), Mattiazzi, M. G., MD (Hospital Militar Central, Mcdermott, C. J., MD (Royal Hallamshire Hospital, Nihr, Clinical, Sheffield, UK), Mohammad, Q. D., PhD (National Institute of Neurosciences and Hospital, Dhaka, Bangladesh), Morís de la Tassa, G., MD (Hospital UniversitarioCentral de Asturias, Asturias, Spain), Nascimbene, C., PhD (Luigi Sacco Hospital, Niks, E. H., Nowak, R. J., Osei-Bonsu, M., PhD (James Cook University Hospital, Middlesbrough, UK), Pascuzzi, R. M., MD (University of Indiana School of Medicine, Indianapolis, USA), Roberts, R. C., MD (Addenbrooke’s Hospital Cambridge, Cambridge, UK), Rojas-Marcos, I., MD (Hospital Univesitario Reina Sofia, Cordoba, Spain), Roodbol, J., Rudnicki, S. A., MD (University of Arkansas, Fayetteville, USA), Sachs, G. M., MD (University of Rhode Island, Providence, USA), Schenone, A., Department of Neurosciences, PhD (1., Rehabilitation, Ophthalmology, Genetics and Maternal and Infantile Sciences (DINOGMI), University of Genova, Genova, IRCCS Policlinico San Martino, Italy 2., Genova, Italy), Sheikh, K., PhD (The University of Texas Health Science Center at Houston, Houston, USA), Twydell, P., DO (Spectrum Health System, Grand, Rapids, Van Damme, P., PhD (University Hospital Leuven, Varrato, J. D., DO (Lehigh Valley Health Network, Allentown, USA), Visser, L. H., PhD (Elisabeth-TweeSteden Hospital, Tilburg and Waalwijk, Willison, H. J., PhD (University of Glasgow, van Woerkom (Erasmus MC, M., Zhou, L., PhD (Icahn School, Verboon, C, Harbo, T, Cornblath, D, Hughes, R, Van Doorn, P, Lunn, M, Gorson, K, Barroso, F, Kuwabara, S, Galassi, G, Lehmann, H, Kusunoki, S, Reisin, R, Binda, D, Cavaletti, G, Jacobs, B, consortium, IGOS, consortium, GOS, Neurosurgery, Neurology, and Immunology

Subjects
Adult, Male, medicine.medical_specialty, intravenous immunoglobulins, DIAGNOSIS, Guillain-Barre Syndrome, Settore MED/26, DISEASE, Disease course, Disability Evaluation, 03 medical and health sciences, 0302 clinical medicine, SDG 3 - Good Health and Well-being, hemic and lymphatic diseases, Internal medicine, Clinical endpoint, medicine, Humans, In patient, guillain-barré syndrome, 030212 general & internal medicine, NEUROPATHIES, biology, Guillain-Barre syndrome, business.industry, Guillain-Barré syndrome (GBS), treatment, course, Confounding, Immunoglobulins, Intravenous, Middle Aged, medicine.disease, Confidence interval, Psychiatry and Mental health, Treatment Outcome, biology.protein, Female, Surgery, Observational study, Neurology (clinical), Antibody, business, 030217 neurology & neurosurgery
Abstract

ObjectiveTo compare the disease course in patients with mild Guillain-Barré syndrome (GBS) who were treated with intravenous immunoglobulin (IVIg) or supportive care only.MethodsWe selected patients from the prospective observational International GBS Outcome Study (IGOS) who were able to walk independently at study entry (mild GBS), treated with one IVIg course or supportive care. The primary endpoint was the GBS disability score four weeks after study entry, assessed by multivariable ordinal regression analysis.ResultsOf 188 eligible patients, 148 (79%) were treated with IVIg and 40 (21%) with supportive care. The IVIg group was more disabled at baseline. IVIg treatment was not associated with lower GBS disability scores at 4 weeks (adjusted OR (aOR) 1.62, 95% CI 0.63 to 4.13). Nearly all secondary endpoints showed no benefit from IVIg, although the time to regain full muscle strength was shorter (28 vs 56 days, p=0.03) and reported pain at 26 weeks was lower (n=26/121, 22% vs n=12/30, 40%, p=0.04) in the IVIg treated patients. In the subanalysis with persistent mild GBS in the first 2 weeks, the aOR for a lower GBS disability score at 4 weeks was 2.32 (95% CI 0.76 to 7.13). At 1 year, 40% of all patients had residual symptoms.ConclusionIn patients with mild GBS, one course of IVIg did not improve the overall disease course. The certainty of this conclusion is limited by confounding factors, selection bias and wide confidence limits. Residual symptoms were often present after one year, indicating the need for better treatments in mild GBS.

Published
2021
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9. Second IVIg course in Guillain-Barré syndrome with poor prognosis. The non-randomised ISID study

Author

Verboon, C., Van Den Berg, B., Cornblath, D. R., Venema, E., Gorson, K. C., Lunn, M. P., Lingsma, H., Van Den Bergh, P., Harbo, T., Bateman, K., Pereon, Y., Sindrup, So. H., Kusunoki, S., Miller, J., Islam, Z., Hartung, H. -P., Chavada, G., Jacobs, B. C., Hughes, R. A. C., Addington, Van Doorn P. A. J. M., MD (University of Virginia, Charlottesville, USA), on October 7, S. Consortia. Protected by copyright., Downloaded from 8 Verboon C, 2019 at Uppsala Universitet BIBSAM http://jnnp. bmj. com/ J Neurol Neurosurg Psychiatry: first published as 10. 1136/jnnp-2019-321496 on 5 October 2019., J Neurol Neurosurg Psychiatry 2019, et al., 1136/jnnp-2019-321496 Neuromuscular Ajroud-Driss, 0:1–9. doi:10., MD (Northwestern University Feinberg, Chicago, USA), Antonini, G., MD (Mental Health and Sensory Organs (NESMOS), Sapienza, University, Sant’Andrea, Hospital, Rome, Italy), Attarian, S., PhD (CHU Timone, Marseille, France), Barroso, F. A., MD (Instituto de Investigaciones Neurológicas Raúl Carrea, Fleni, Buenos, Aires, Argentina), Benedetti, L., PhD (Ospedale Sant’ Andrea La Spezia, Spezia, La, Italy), Bertorini, T. E., MD (The University of Tennessee Health Science Center (UTHSC), Memphis, USA), Brannagan, T. H., MD (Columbia University, New York City, USA), Briani, C., MD (University of Padova, Padova, Italy), Bhavaraju-Sanka, R., MD (University Hospital/University of Texas Health Science Center, San Antonio Texas, Butterworth, S., MD (Pinderfields Hospital, Wakefield, UK), Casasnovas, C., Ciberer, PhD (Bellvitge University Hospital – IDIBELL Neurometabolic Diseases Group., Barcelona, Spain), Cavaletti, G., MD (University Milano-Bicocca, Monza, Italy), Chen, S., Phd, (Rutgers, Robert Wood Johnson University Hospital, New, Brunswick, Claeys, K. G., University Hospitals Leuven, PhD (1., Leuven, Belgium, KU Leuven, 2., Leuven, Belgium), Cosgrove, J. S., MD (Leeds General Infirmary, Leeds, UK), Davidson, A., MD (University of Glasgow, Glasgow, UK), Dardiotis, E., MD (University of Thessaly, Hospital of Larissa, Larissa, Greece), Dornonville de la Cour, C., MD (National Hospital Copenhagen, Copenhagen, Denmark), Faber, C. G., PhD (Maastricht University Medical Centre, Maastricht, The, Netherlands), Feasby, T. E., MD (University of Calgary, Calgary, Canada), Fujioka, T., MD (Toho University Medical Center, Tokyo, Japan), Galassi, G., MD (University Hospital of Modena, Modena, Italy), Gilchrist, J. M., MD (Soulthern Illinois University School of Medicine, Springfield, USA), Goyal, N. A., MD (University of California, Irvine, USA), Granit, V., MD (Montefiore Medical, Center, New, York, Gutiérrez-Gutiérrez, G., MD (Hospital Universitario Infanta Sofia, San, Sebastian, Spain), Hadden, R. D. M., PhD (King’s College Hospital, London, UK), Holt, J. K. L., Phd, FRCP (The Walton Centre, Liverpool, UK), Htut, M., George’s Hospital, MD (St., Jericó Pascual, I., PhD (Complejo Hospitalario de Navarra, Pamplona, Spain), Karafiath, S., MD (University of Utah School of Medicine, Salt Lake City, Katzberg, H. D., MD (University of Toronto, Toronto, Canada), Kiers, L., MD (University of Melbourne, Royal Melbourne Hospital, Parkville, Australia), Kieseier, B. C., MD (Heinrich Heine University, Düsseldorf, Germany), Kimpinski, K., MD (University Hospital, Lhsc, London-Ontario, Canada), Kuwabara, S., PhD (Chiba University, Chiba, Japan), Kwan, J. Y., MD (University of Maryland School of Medicine, Baltimore, USA), Ladha, S. S., MD (Barrow Neurology Clinics, Phoenix, Arizona, Lawson, V., MD (Wexner Medical Center at The Ohio State University, Columbus, USA), Lehmann, H., PhD (University Hospital of Cologne, Universitätsklinikum, Köln, Cologne, Germany), Manji, H., FRCP (Ipswich Hospital, Ipswich, UK), Marfia, G. A., MD (Neurological Clinic, Policlinico Tor Vergata, Márquez Infante, C., MD (Hospital Universitario Virgen del Rocio, Seville, Spain), Mattiazzi, M. G., MD (Hospital Militar Central, Mcdermott, C. J., MD (Royal Hallamshire Hospital, Nihr, Clinical, Sheffield, UK), Monges, M. S., Garrahan, MD (Hospital de Pediatría J. P., Morís de la Tassa, G., MD (Hospital Universitario Central de Asturias, Asturias, Spain), Nascimbene, C., PhD (Luigi Sacco Hospital, Milan, Italy), Nobile Orazio, E., PhD (Milan University, Humanitas Clinicala and Research Institute Milan, Nowak, R. J., MD (Yale University School of Medicine, New, Haven, Osei-Bonsu (James Cook University Hospital, M., Middlesbrough, UK), Pardo Fernandez (Hospital Clínico de Santiago, J., Santiago de Compostela (A Coruña), Querol Gutierrez, L., PhD (Hospital de la Santa Creu, i Sant Pau, Universitat Autònoma de Barcelona, Reisin (Hospital Britanico, R., Rinaldi, S., Mbchb, Roberts, PhD (University of Oxford R. C., MD (Addenbrooke’s Hospital Cambridge, Cambridge, UK), Rojas-Marcos, I., MD (Hospital Univesitario Reina Sofia, Cordoba, Spain), Rudnicki, S. A., MD (University of Arkansas, Fayetteville, USA), Schenone, A., Department of Neurosciences, PhD (1., Rehabilitation, Ophthalmology, Genetics and Maternal and Infantile Sciences (DINOGMI), University of Genova, Genova, IRCCS Policlinico San Martino, Italy 2., Genova, Italy), Sedano Tous, M. J., MD (Hospital Universitario Marques de Valdecilla, Santander, Cantabria, Shahrizaila, N., MD (Neurology Unit, Department of Medicine, Faculty of Medicine, University of Malaya, Malaya), Sheikh, K., PhD (The University of Texas Health Science Center at Houston, Houston, USA), Silvestri, N. J., MD (Buffalo General Medical Center, Buffalo, Ny, Sommer, C. L., MD (Universitätsklinikum Würzburg, Würzburg, Germany), Varrato, J. D., DO (Lehigh Valley Health Network, Allentown, USA), Verschuuren, J., PhD (Leiden University Medical Centre, Leiden, Vytopil, M. V., Waheed, PhD (Tufts University School of Medicine Lahey Hospital W., MD (University of Vermont Medical Center, Burlington, USA), Zhou, L., PhD (Icahn School of Medicine at Mount Sinai, Badrising, USA). Other collaborators were:U. A., Bella, I. R., MD (University of Mass Medical School, Worcester, USA), Bunschoten, C., PhD candidate (Erasmus University Medical Centre, Rotterdam, Bürmann, J., Universitätsklinikum des Saarlandes, Homburg, Germany), Busby, M., Bradford, UK), Chao, C. C., PhD (National Taiwan University Hospital, Taipei, Taiwan), Conti, M. E., MD (University Hospital Clinicas, Dalakas, M. C., Thomas Jefferson University, MD (1., Philadelphia, Usa, National and Kapodistrian University of Athens, 2., Athens, Greece), Van Damme, P., PhD (University Hospital Leuven, Doets, A., van Dijk, G. W., MD (Canisius Wilhelmina Hospital, Nijmegen, Dimachkie, M. M., MD (University of Kansas Medical Center, Kansas, City, Doppler, K., Echaniz-Laguna, A., MD (Hopital de Hautepierre, Strasbourgh, France), Eftimov, F., PhD (Amsterdam University Medical Centre, Amsterdam, Fazio, R., MD (Scientific Institute San Raffaele, Fokke, C., MD (Gelre Hospital, Zutphen and Apeldoorn, Fulgenzi, E. A., MD (Hospital Cesar Milstein Buenos Aires, Garssen, M. P. J., PhD (Jeroen Bosch Hospital, Hertogenbosch, ’S, Zaltbommel and Drunen, Gijsbers, C. J., MD (Vlietland Hospital, Schiedam, Gilhuis, J., PhD (Reinier de Graaf Gasthuis, Delft, Grapperon, A., MD (CHU Timone, Hsieh, S. T., Illa, I., Islam, B., PhD (International Centre for Diarrhoeal Disease Research, Bangladesh, (icddr, Dhaka, b), Bangladesh), Jellema, K., PhD (Haaglanden Medisch Centrum, The, Hague, Kaida, K., PhD (National Defense Medical College, Saitama, Japan), Kokubun, N., MD (Dokkyo Medical University, Tochigi, Japan), Kolb, N., MD (University of Vermont, Burlington, Vt, van Koningsveld, R., PhD (Elkerliek Hospital, Helmond and Deurne, van der Kooi, A. J., Kuitwaard, K., PhD (Albert Schweitzer Hospital, Dordrecht, Landschoff Lassen, L., MD (Glostrup Hospital, Glostrup, Denmark), Leonhard, S. E., Mandarakas, M., PhD (Erasmus University Medical Centre, Martinez Hernandez, E., MD (Institut d’Investigacions Biomèdiques August Pi, i Sunyer (IDIBAPS), Hospital, Clinic, Mohammad, Q. D., PhD (National Institute of Neurosciences and Hospital, Dhaka, Bangladesh), Pulley, M., MD (University of Florida, Jacksonville, USA), Rajabally, Y. A., PhD (Queen Elizabeth Hospital, Birmingham, UK), Reddel, S. W., PhD (Concord Repatriation General Hospital, Sydney, Australia), van der Ree, T., (Westfriesgasthuis, Md, Hoorn, Roodbol, J., Sachs, G. M., MD (University of Rhode Island, Providence, USA), Samijn, J. P. A., PhD (Maasstad Hospital, Santoro, L., PhD (University Federico II, Napels, Italy), Stein, B., Joseph’s Regional Medical Center, MD (St., Paterson, USA), Vermeij, F. H., MD (Franciscus Gasthuis, Visser, L. H., PhD (Elisabeth-TweeSteden Hospital, Tilburg and Waalwijk, Willison, H. J., PhD (University of Glasgow, Wirtz, P., Phd, (HagaZiekenhuis, Zivkovich, S. A., PhD (University of Pittsburgh Medical Center, and Pittsburgh, USA).

Subjects
treatment, disability evaluation, drug administration schedule, adult, guillain-barré syndrome, poor prognosis, second ivig course, aged, female, guillain-barre syndrome, humans, immunoglobulin g, immunoglobulins, intravenous, immunologic factors, male, middle aged, prognosis, time factors, treatment outcome
Published
2020

10. Current treatment practice of Guillain-Barré syndrome

Author

Verboon C., Doets A. Y., Galassi G., Davidson A., Waheed W., Pereon Y., Shahrizaila N., Kusunoki S., Lehmann H. C., Harbo T., Monges S., Van Den Bergh P., Willison H. J., Cornblath D. R., Jacobs B. C., Hughes R. A. C., Gorson K. C., Hartung H. P., Van Doorn P. A., Van den Berg B., Roodbol J., Van Woerkom M., Reisin R. C., Reddel S. W., Islam Z., Islam B., Mohammad Q. D., Feasby T. E., Dardiotis E., Nobile-Orazio E., Bateman K., Illa I., Querol L., Hsieh S. T., Chavada G., Addington J. M., Ajroud-Driss S., Andersen H., Antonini G., Ariatti A., Attarian S., Badrising U. A., Barroso F. A., Benedetti L., Beronio A., Bianco M., Binda D., Briani C., Bunschoten C., Burmann J., Bella I. R., Bertorini T. E., Bhavaraju-Sanka R., Brannagan T. H., Busby M., Butterworth S., Casasnovas C., Cavaletti G., Chao C. C., Chen S., Chetty S., Claeys K. G., Conti M. E., Cosgrove J. S., Dalakas MC., Demichelis C., Derejko M. A., Dillmann U., Dimachkie M. M., Doppler K., Dornonville de la Cour C., Echaniz-Laguna A., Eftimov F., Faber C. G., Fazio R., Fokke C., Fujioka T., Fulgenzi E. A., Garcia-Sobrino T., Garssen M. P. J., Georgios H. M., Gijsbers C. J., Gilchrist J. M., Gilhuis J., Giorli E., Goldstein J. M., Goyal N. A., Granit V., Grapperon A., Gutierrez G., Hadden R. D. M., Holbech J. V., Holt J. K. L., Pedret C. H., Htut M., Jellema K., Pascual I. J., Jimeno-Montero M. C., Kaida K., Karafiath S., Katzberg H. D., Kiers L., Kieseier B. C., Kimpinski K., Kleyweg R. P., Kokubun N., Kolb N. A., Kuitwaard K., Kuwabara S., Kwan J. Y., Ladha S. S., Lassen L. L., Lawson V., Ledingham D., Lucy S. T., Lunn M. P. T., Magot A., Manji H., Marchesoni C., Marfia G. A., Infante C. M., Hernandez E. M., Mataluni G., Mattiazi M., McDermott C. J., Meekins G. D., Miller J. A. L., Moris de la Tassa G., Physiotherapist J. M., Nascimbene C., Nowak R. J., Balaguer P. O., Osei-Bonsu M., Pan E. B. L., Pardal A. M., Pardo J., Pasnoor M., Pulley M., Rajabally Y. A., Rinaldi S., Ritter C., Roberts R. C., Rojas-Marcos I., Rudnicki S. A., Ruiz M., Sachs G. M., Samijn J. P. A., Santoro L., Savransky A., Schenone A., Schwindling L., Tous M. J. S., Sekiguchi Y., Sheikh K. A., Silvestri N. J., Sindrup S. H., Sommer C. L., Stein B., Stino A. M., Spyropoulos A., Srinivasan J., Styliani R., Suzuki H., Tankisi H., Tigner D., Twydell P., Van Damme P., Van der Kooi A. J., Van Dijk G. W., Van der Ree T., Van Koningsveld R., Valzania F., Varrato J. D., Vermeij F. H., Verschuuren J., Visser L. H., Vytopil M. V., Wilken M., Wilkerson C., Wirtz P. W., Yamagishi Y., Zhou L., Zivkovic S. A., Neurology, AII - Infectious diseases, AII - Inflammatory diseases, ANS - Neuroinfection & -inflammation, Immunology, Erasmus MC other, UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie, Verboon, C, Doets, A, Galassi, G, Davidson, A, Waheed, W, Pereon, Y, Shahrizaila, N, Kusunoki, S, Lehmann, H, Harbo, T, Monges, S, Van Den Bergh, P, Willison, H, Cornblath, D, Jacobs, B, Hughes, R, Gorson, K, Hartung, H, Van Doorn, P, Van den Berg, B, Roodbol, J, Van Woerkom, M, Reisin, R, Reddel, S, Islam, Z, Islam, B, Mohammad, Q, Feasby, T, Dardiotis, E, Nobile-Orazio, E, Bateman, K, Illa, I, Querol, L, Hsieh, S, Chavada, G, Addington, J, Ajroud-Driss, S, Andersen, H, Antonini, G, Ariatti, A, Attarian, S, Badrising, U, Barroso, F, Benedetti, L, Beronio, A, Bianco, M, Binda, D, Briani, C, Bunschoten, C, Burmann, J, Bella, I, Bertorini, T, Bhavaraju-Sanka, R, Brannagan, T, Busby, M, Butterworth, S, Casasnovas, C, Cavaletti, G, Chao, C, Chen, S, Chetty, S, Claeys, K, Conti, M, Cosgrove, J, Dalakas, M, Demichelis, C, Derejko, M, Dillmann, U, Dimachkie, M, Doppler, K, Dornonville de la Cour, C, Echaniz-Laguna, A, Eftimov, F, Faber, C, Fazio, R, Fokke, C, Fujioka, T, Fulgenzi, E, Garcia-Sobrino, T, Garssen, M, Georgios, H, Gijsbers, C, Gilchrist, J, Gilhuis, J, Giorli, E, Goldstein, J, Goyal, N, Granit, V, Grapperon, A, Gutierrez, G, Hadden, R, Holbech, J, Holt, J, Pedret, C, Htut, M, Jellema, K, Pascual, I, Jimeno-Montero, M, Kaida, K, Karafiath, S, Katzberg, H, Kiers, L, Kieseier, B, Kimpinski, K, Kleyweg, R, Kokubun, N, Kolb, N, Kuitwaard, K, Kuwabara, S, Kwan, J, Ladha, S, Lassen, L, Lawson, V, Ledingham, D, Lucy, S, Lunn, M, Magot, A, Manji, H, Marchesoni, C, Marfia, G, Infante, C, Hernandez, E, Mataluni, G, Mattiazi, M, Mcdermott, C, Meekins, G, Miller, J, Moris de la Tassa, G, Physiotherapist, J, Nascimbene, C, Nowak, R, Balaguer, P, Osei-Bonsu, M, Pan, E, Pardal, A, Pardo, J, Pasnoor, M, Pulley, M, Rajabally, Y, Rinaldi, S, Ritter, C, Roberts, R, Rojas-Marcos, I, Rudnicki, S, Ruiz, M, Sachs, G, Samijn, J, Santoro, L, Savransky, A, Schenone, A, Schwindling, L, Tous, M, Sekiguchi, Y, Sheikh, K, Silvestri, N, Sindrup, S, Sommer, C, Stein, B, Stino, A, Spyropoulos, A, Srinivasan, J, Styliani, R, Suzuki, H, Tankisi, H, Tigner, D, Twydell, P, Van Damme, P, Van der Kooi, A, Van Dijk, G, Van der Ree, T, Van Koningsveld, R, Valzania, F, Varrato, J, Vermeij, F, Verschuuren, J, Visser, L, Vytopil, M, Wilken, M, Wilkerson, C, Wirtz, P, Yamagishi, Y, Zhou, L, and Zivkovic, S

Subjects
Adult, medicine.medical_specialty, Adolescent, Patient characteristics, PLASMA-EXCHANGE, 030204 cardiovascular system & hematology, Guillain-Barre Syndrome, Settore MED/26, Severity of Illness Index, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Severity of illness, Medicine, Effective treatment, INTRAVENOUS IMMUNOGLOBULIN, Humans, Prospective Studies, Child, Child, Preschool, Treatment Outcome, Prospective cohort study, Preschool, Guillain-Barre syndrome, business.industry, medicine.disease, RANDOMIZED-TRIAL, Prospective Studie, Hospital treatment, Treatment practice, Observational study, Neurology (clinical), business, 030217 neurology & neurosurgery, Human
Abstract

ObjectiveTo define the current treatment practice of Guillain-Barré syndrome (GBS).MethodsThe study was based on prospective observational data from the first 1,300 patients included in the International GBS Outcome Study. We described the treatment practice of GBS in general, and for (1) severe forms (unable to walk independently), (2) no recovery after initial treatment, (3) treatment-related fluctuations, (4) mild forms (able to walk independently), and (5) variant forms including Miller Fisher syndrome, taking patient characteristics and hospital type into account.ResultsWe excluded 88 (7%) patients because of missing data, protocol violation, or alternative diagnosis. Patients from Bangladesh (n = 189, 15%) were described separately because 83% were not treated. IV immunoglobulin (IVIg), plasma exchange (PE), or other immunotherapy was provided in 941 (92%) of the remaining 1,023 patients, including patients with severe GBS (724/743, 97%), mild GBS (126/168, 75%), Miller Fisher syndrome (53/70, 76%), and other variants (33/40, 83%). Of 235 (32%) patients who did not improve after their initial treatment, 82 (35%) received a second immune modulatory treatment. A treatment-related fluctuation was observed in 53 (5%) of 1,023 patients, of whom 36 (68%) were re-treated with IVIg or PE.ConclusionsIn current practice, patients with mild and variant forms of GBS, or with treatment-related fluctuations and treatment failures, are frequently treated, even in absence of trial data to support this choice. The variability in treatment practice can be explained in part by the lack of evidence and guidelines for effective treatment in these situations.

Published
2019
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13. Current treatment practice of Guillain-Barré syndrome

Author

Verboon, C, Doets, A, Galassi, G, Davidson, A, Waheed, W, Pereon, Y, Shahrizaila, N, Kusunoki, S, Lehmann, H, Harbo, T, Monges, S, Van Den Bergh, P, Willison, H, Cornblath, D, Jacobs, B, Hughes, R, Gorson, K, Hartung, H, Van Doorn, P, Van den Berg, B, Roodbol, J, Van Woerkom, M, Reisin, R, Reddel, S, Islam, Z, Islam, B, Mohammad, Q, Feasby, T, Dardiotis, E, Nobile-Orazio, E, Bateman, K, Illa, I, Querol, L, Hsieh, S, Chavada, G, Addington, J, Ajroud-Driss, S, Andersen, H, Antonini, G, Ariatti, A, Attarian, S, Badrising, U, Barroso, F, Benedetti, L, Beronio, A, Bianco, M, Binda, D, Briani, C, Bunschoten, C, Burmann, J, Bella, I, Bertorini, T, Bhavaraju-Sanka, R, Brannagan, T, Busby, M, Butterworth, S, Casasnovas, C, Cavaletti, G, Chao, C, Chen, S, Chetty, S, Claeys, K, Conti, M, Cosgrove, J, Dalakas, M, Demichelis, C, Derejko, M, Dillmann, U, Dimachkie, M, Doppler, K, Dornonville de la Cour, C, Echaniz-Laguna, A, Eftimov, F, Faber, C, Fazio, R, Fokke, C, Fujioka, T, Fulgenzi, E, Garcia-Sobrino, T, Garssen, M, Georgios, H, Gijsbers, C, Gilchrist, J, Gilhuis, J, Giorli, E, Goldstein, J, Goyal, N, Granit, V, Grapperon, A, Gutierrez, G, Hadden, R, Holbech, J, Holt, J, Pedret, C, Htut, M, Jellema, K, Pascual, I, Jimeno-Montero, M, Kaida, K, Karafiath, S, Katzberg, H, Kiers, L, Kieseier, B, Kimpinski, K, Kleyweg, R, Kokubun, N, Kolb, N, Kuitwaard, K, Kuwabara, S, Kwan, J, Ladha, S, Lassen, L, Lawson, V, Ledingham, D, Lucy, S, Lunn, M, Magot, A, Manji, H, Marchesoni, C, Marfia, G, Infante, C, Hernandez, E, Mataluni, G, Mattiazi, M, Mcdermott, C, Meekins, G, Miller, J, Moris de la Tassa, G, Physiotherapist, J, Nascimbene, C, Nowak, R, Balaguer, P, Osei-Bonsu, M, Pan, E, Pardal, A, Pardo, J, Pasnoor, M, Pulley, M, Rajabally, Y, Rinaldi, S, Ritter, C, Roberts, R, Rojas-Marcos, I, Rudnicki, S, Ruiz, M, Sachs, G, Samijn, J, Santoro, L, Savransky, A, Schenone, A, Schwindling, L, Tous, M, Sekiguchi, Y, Sheikh, K, Silvestri, N, Sindrup, S, Sommer, C, Stein, B, Stino, A, Spyropoulos, A, Srinivasan, J, Styliani, R, Suzuki, H, Tankisi, H, Tigner, D, Twydell, P, Van Damme, P, Van der Kooi, A, Van Dijk, G, Van der Ree, T, Van Koningsveld, R, Valzania, F, Varrato, J, Vermeij, F, Verschuuren, J, Visser, L, Vytopil, M, Wilken, M, Wilkerson, C, Wirtz, P, Yamagishi, Y, Zhou, L, Zivkovic, S, Verboon C., Doets A. Y., Galassi G., Davidson A., Waheed W., Pereon Y., Shahrizaila N., Kusunoki S., Lehmann H. C., Harbo T., Monges S., Van Den Bergh P., Willison H. J., Cornblath D. R., Jacobs B. C., Hughes R. A. C., Gorson K. C., Hartung H. P., Van Doorn P. A., Van den Berg B., Roodbol J., Van Woerkom M., Reisin R. C., Reddel S. W., Islam Z., Islam B., Mohammad Q. D., Feasby T. E., Dardiotis E., Nobile-Orazio E., Bateman K., Illa I., Querol L., Hsieh S. T., Chavada G., Addington J. M., Ajroud-Driss S., Andersen H., Antonini G., Ariatti A., Attarian S., Badrising U. A., Barroso F. A., Benedetti L., Beronio A., Bianco M., Binda D., Briani C., Bunschoten C., Burmann J., Bella I. R., Bertorini T. E., Bhavaraju-Sanka R., Brannagan T. H., Busby M., Butterworth S., Casasnovas C., Cavaletti G., Chao C. C., Chen S., Chetty S., Claeys K. G., Conti M. E., Cosgrove J. S., Dalakas MC., Demichelis C., Derejko M. A., Dillmann U., Dimachkie M. M., Doppler K., Dornonville de la Cour C., Echaniz-Laguna A., Eftimov F., Faber C. G., Fazio R., Fokke C., Fujioka T., Fulgenzi E. A., Garcia-Sobrino T., Garssen M. P. J., Georgios H. M., Gijsbers C. J., Gilchrist J. M., Gilhuis J., Giorli E., Goldstein J. M., Goyal N. A., Granit V., Grapperon A., Gutierrez G., Hadden R. D. M., Holbech J. V., Holt J. K. L., Pedret C. H., Htut M., Jellema K., Pascual I. J., Jimeno-Montero M. C., Kaida K., Karafiath S., Katzberg H. D., Kiers L., Kieseier B. C., Kimpinski K., Kleyweg R. P., Kokubun N., Kolb N. A., Kuitwaard K., Kuwabara S., Kwan J. Y., Ladha S. S., Lassen L. L., Lawson V., Ledingham D., Lucy S. T., Lunn M. P. T., Magot A., Manji H., Marchesoni C., Marfia G. A., Infante C. M., Hernandez E. M., Mataluni G., Mattiazi M., McDermott C. J., Meekins G. D., Miller J. A. L., Moris de la Tassa G., Physiotherapist J. M., Nascimbene C., Nowak R. J., Balaguer P. O., Osei-Bonsu M., Pan E. B. L., Pardal A. M., Pardo J., Pasnoor M., Pulley M., Rajabally Y. A., Rinaldi S., Ritter C., Roberts R. C., Rojas-Marcos I., Rudnicki S. A., Ruiz M., Sachs G. M., Samijn J. P. A., Santoro L., Savransky A., Schenone A., Schwindling L., Tous M. J. S., Sekiguchi Y., Sheikh K. A., Silvestri N. J., Sindrup S. H., Sommer C. L., Stein B., Stino A. M., Spyropoulos A., Srinivasan J., Styliani R., Suzuki H., Tankisi H., Tigner D., Twydell P., Van Damme P., Van der Kooi A. J., Van Dijk G. W., Van der Ree T., Van Koningsveld R., Valzania F., Varrato J. D., Vermeij F. H., Verschuuren J., Visser L. H., Vytopil M. V., Wilken M., Wilkerson C., Wirtz P. W., Yamagishi Y., Zhou L., Zivkovic S. A., Verboon, C, Doets, A, Galassi, G, Davidson, A, Waheed, W, Pereon, Y, Shahrizaila, N, Kusunoki, S, Lehmann, H, Harbo, T, Monges, S, Van Den Bergh, P, Willison, H, Cornblath, D, Jacobs, B, Hughes, R, Gorson, K, Hartung, H, Van Doorn, P, Van den Berg, B, Roodbol, J, Van Woerkom, M, Reisin, R, Reddel, S, Islam, Z, Islam, B, Mohammad, Q, Feasby, T, Dardiotis, E, Nobile-Orazio, E, Bateman, K, Illa, I, Querol, L, Hsieh, S, Chavada, G, Addington, J, Ajroud-Driss, S, Andersen, H, Antonini, G, Ariatti, A, Attarian, S, Badrising, U, Barroso, F, Benedetti, L, Beronio, A, Bianco, M, Binda, D, Briani, C, Bunschoten, C, Burmann, J, Bella, I, Bertorini, T, Bhavaraju-Sanka, R, Brannagan, T, Busby, M, Butterworth, S, Casasnovas, C, Cavaletti, G, Chao, C, Chen, S, Chetty, S, Claeys, K, Conti, M, Cosgrove, J, Dalakas, M, Demichelis, C, Derejko, M, Dillmann, U, Dimachkie, M, Doppler, K, Dornonville de la Cour, C, Echaniz-Laguna, A, Eftimov, F, Faber, C, Fazio, R, Fokke, C, Fujioka, T, Fulgenzi, E, Garcia-Sobrino, T, Garssen, M, Georgios, H, Gijsbers, C, Gilchrist, J, Gilhuis, J, Giorli, E, Goldstein, J, Goyal, N, Granit, V, Grapperon, A, Gutierrez, G, Hadden, R, Holbech, J, Holt, J, Pedret, C, Htut, M, Jellema, K, Pascual, I, Jimeno-Montero, M, Kaida, K, Karafiath, S, Katzberg, H, Kiers, L, Kieseier, B, Kimpinski, K, Kleyweg, R, Kokubun, N, Kolb, N, Kuitwaard, K, Kuwabara, S, Kwan, J, Ladha, S, Lassen, L, Lawson, V, Ledingham, D, Lucy, S, Lunn, M, Magot, A, Manji, H, Marchesoni, C, Marfia, G, Infante, C, Hernandez, E, Mataluni, G, Mattiazi, M, Mcdermott, C, Meekins, G, Miller, J, Moris de la Tassa, G, Physiotherapist, J, Nascimbene, C, Nowak, R, Balaguer, P, Osei-Bonsu, M, Pan, E, Pardal, A, Pardo, J, Pasnoor, M, Pulley, M, Rajabally, Y, Rinaldi, S, Ritter, C, Roberts, R, Rojas-Marcos, I, Rudnicki, S, Ruiz, M, Sachs, G, Samijn, J, Santoro, L, Savransky, A, Schenone, A, Schwindling, L, Tous, M, Sekiguchi, Y, Sheikh, K, Silvestri, N, Sindrup, S, Sommer, C, Stein, B, Stino, A, Spyropoulos, A, Srinivasan, J, Styliani, R, Suzuki, H, Tankisi, H, Tigner, D, Twydell, P, Van Damme, P, Van der Kooi, A, Van Dijk, G, Van der Ree, T, Van Koningsveld, R, Valzania, F, Varrato, J, Vermeij, F, Verschuuren, J, Visser, L, Vytopil, M, Wilken, M, Wilkerson, C, Wirtz, P, Yamagishi, Y, Zhou, L, Zivkovic, S, Verboon C., Doets A. Y., Galassi G., Davidson A., Waheed W., Pereon Y., Shahrizaila N., Kusunoki S., Lehmann H. C., Harbo T., Monges S., Van Den Bergh P., Willison H. J., Cornblath D. R., Jacobs B. C., Hughes R. A. C., Gorson K. C., Hartung H. P., Van Doorn P. A., Van den Berg B., Roodbol J., Van Woerkom M., Reisin R. C., Reddel S. W., Islam Z., Islam B., Mohammad Q. D., Feasby T. E., Dardiotis E., Nobile-Orazio E., Bateman K., Illa I., Querol L., Hsieh S. T., Chavada G., Addington J. M., Ajroud-Driss S., Andersen H., Antonini G., Ariatti A., Attarian S., Badrising U. A., Barroso F. A., Benedetti L., Beronio A., Bianco M., Binda D., Briani C., Bunschoten C., Burmann J., Bella I. R., Bertorini T. E., Bhavaraju-Sanka R., Brannagan T. H., Busby M., Butterworth S., Casasnovas C., Cavaletti G., Chao C. C., Chen S., Chetty S., Claeys K. G., Conti M. E., Cosgrove J. S., Dalakas MC., Demichelis C., Derejko M. A., Dillmann U., Dimachkie M. M., Doppler K., Dornonville de la Cour C., Echaniz-Laguna A., Eftimov F., Faber C. G., Fazio R., Fokke C., Fujioka T., Fulgenzi E. A., Garcia-Sobrino T., Garssen M. P. J., Georgios H. M., Gijsbers C. J., Gilchrist J. M., Gilhuis J., Giorli E., Goldstein J. M., Goyal N. A., Granit V., Grapperon A., Gutierrez G., Hadden R. D. M., Holbech J. V., Holt J. K. L., Pedret C. H., Htut M., Jellema K., Pascual I. J., Jimeno-Montero M. C., Kaida K., Karafiath S., Katzberg H. D., Kiers L., Kieseier B. C., Kimpinski K., Kleyweg R. P., Kokubun N., Kolb N. A., Kuitwaard K., Kuwabara S., Kwan J. Y., Ladha S. S., Lassen L. L., Lawson V., Ledingham D., Lucy S. T., Lunn M. P. T., Magot A., Manji H., Marchesoni C., Marfia G. A., Infante C. M., Hernandez E. M., Mataluni G., Mattiazi M., McDermott C. J., Meekins G. D., Miller J. A. L., Moris de la Tassa G., Physiotherapist J. M., Nascimbene C., Nowak R. J., Balaguer P. O., Osei-Bonsu M., Pan E. B. L., Pardal A. M., Pardo J., Pasnoor M., Pulley M., Rajabally Y. A., Rinaldi S., Ritter C., Roberts R. C., Rojas-Marcos I., Rudnicki S. A., Ruiz M., Sachs G. M., Samijn J. P. A., Santoro L., Savransky A., Schenone A., Schwindling L., Tous M. J. S., Sekiguchi Y., Sheikh K. A., Silvestri N. J., Sindrup S. H., Sommer C. L., Stein B., Stino A. M., Spyropoulos A., Srinivasan J., Styliani R., Suzuki H., Tankisi H., Tigner D., Twydell P., Van Damme P., Van der Kooi A. J., Van Dijk G. W., Van der Ree T., Van Koningsveld R., Valzania F., Varrato J. D., Vermeij F. H., Verschuuren J., Visser L. H., Vytopil M. V., Wilken M., Wilkerson C., Wirtz P. W., Yamagishi Y., Zhou L., and Zivkovic S. A.

Abstract

ObjectiveTo define the current treatment practice of Guillain-Barré syndrome (GBS).MethodsThe study was based on prospective observational data from the first 1,300 patients included in the International GBS Outcome Study. We described the treatment practice of GBS in general, and for (1) severe forms (unable to walk independently), (2) no recovery after initial treatment, (3) treatment-related fluctuations, (4) mild forms (able to walk independently), and (5) variant forms including Miller Fisher syndrome, taking patient characteristics and hospital type into account.ResultsWe excluded 88 (7%) patients because of missing data, protocol violation, or alternative diagnosis. Patients from Bangladesh (n = 189, 15%) were described separately because 83% were not treated. IV immunoglobulin (IVIg), plasma exchange (PE), or other immunotherapy was provided in 941 (92%) of the remaining 1,023 patients, including patients with severe GBS (724/743, 97%), mild GBS (126/168, 75%), Miller Fisher syndrome (53/70, 76%), and other variants (33/40, 83%). Of 235 (32%) patients who did not improve after their initial treatment, 82 (35%) received a second immune modulatory treatment. A treatment-related fluctuation was observed in 53 (5%) of 1,023 patients, of whom 36 (68%) were re-treated with IVIg or PE.ConclusionsIn current practice, patients with mild and variant forms of GBS, or with treatment-related fluctuations and treatment failures, are frequently treated, even in absence of trial data to support this choice. The variability in treatment practice can be explained in part by the lack of evidence and guidelines for effective treatment in these situations.

Published
2019

14. Gene Expression Signatures In Motor Neurone Disease Fibroblasts Reveal Dysregulation Of Metabolism, Hypoxia-Response And Rna Processing Functions

Author

Raman, R, Allen, S P, Goodall, E F, Kramer, S, Ponger, L-L, Heath, P R, Milo, M, Hollinger, H C, Walsh, T, Highley, J R, Olpin, S, McDermott, C J, Shaw, P J, and Kirby, J

Subjects
Adult, Male, amyotrophic lateral sclerosis, microRNA, Gene Expression Profiling, Immunoblotting, Original Articles, Fibroblasts, Middle Aged, cell models, Cell Hypoxia, MicroRNAs, parasitic diseases, Humans, Female, primary lateral sclerosis, hypoxia response, Motor Neuron Disease, Transcriptome, microarray, Cells, Cultured, Aged, Oligonucleotide Array Sequence Analysis
Abstract

Aims\ud Amyotrophic lateral sclerosis (ALS) and primary lateral sclerosis (PLS) are two syndromic variants within the motor neurone disease spectrum. As PLS and most ALS cases are sporadic (SALS), this limits the availability of cellular models for investigating pathogenic mechanisms and therapeutic targets. The aim of this study was to use gene expression profiling to evaluate fibroblasts as cellular models for SALS and PLS, to establish whether dysregulated biological processes recapitulate those seen in the central nervous system and to elucidate pathways that distinguish the clinically defined variants of SALS and PLS.\ud \ud Methods\ud Microarray analysis was performed on fibroblast RNA and differentially expressed genes identified. Genes in enriched biological pathways were validated by quantitative PCR and functional assays performed to establish the effect of altered RNA levels on the cellular processes.\ud \ud Results\ud Gene expression profiling demonstrated that whilst there were many differentially expressed genes in common between SALS and PLS fibroblasts, there were many more expressed specifically in the SALS fibroblasts, including those involved in RNA processing and the stress response. Functional analysis of the fibroblasts confirmed a significant decrease in miRNA production and a reduced response to hypoxia in SALS fibroblasts. Furthermore, metabolic gene changes seen in SALS, many of which were also evident in PLS fibroblasts, resulted in dysfunctional cellular respiration.\ud \ud Conclusions\ud The data demonstrate that fibroblasts can act as cellular models for ALS and PLS, by establishing the transcriptional changes in known pathogenic pathways that confer subsequent functional effects and potentially highlight targets for therapeutic intervention.

Published
2015

15. Development and validation of Spasticity Index—Amyotrophic Lateral Sclerosis.

Author

Milinis, K., Tennant, A., Mills, R. J., Al‐Chalabi, A., Burke, G., Dick, D. J., Ealing, J., Hanemann, C. O., Harrower, T., McDermott, C. J., Majeed, T., Pinto, A., Talbot, K., Williams, T., Young, C. A., and the TONiC study group

Subjects
AMYOTROPHIC lateral sclerosis, SPASTICITY, QUALITY of life, RASCH models, NUMERICAL analysis
Abstract

Objectives: Spasticity is a common and disabling feature of amyotrophic lateral sclerosis (ALS). There are currently no validated ALS‐specific measures of spasticity. The aim of this study was to develop and use a self‐report outcome measure for spasticity in ALS. Methods: Following semi‐structured interviews with 11 ALS patients, a draft scale was administered across ALS clinics in the UK. Internal validity of the scale was examined using the Rasch model. The numerical rating scale (NRS) for spasticity and Leeds Spasticity scale (LSS) were co‐administered. The final scale was used in a path model of spasticity and quality of life. Results: A total of 465 patients (mean age 64.7 years (SD 10), 59% male) with ALS participated. Spasticity was reported by 80% of subjects. A pool of 71 items representing main themes of physical symptoms, negative impact and modifying factors was subject to an iterative process of item reduction by Rasch analysis resulting in a 20‐item scale—the Spasticity Index for ALS (SI‐ALS)—which was unidimensional and free from differential item functioning. Moderate correlations were found with LSS and NRS‐spasticity. Incorporating the latent estimate of spasticity into a path model, greater spasticity reduced quality of life and motor function; higher motor function was associated with better quality of life. Conclusions: The SI‐ALS is a disease‐specific self‐report scale, which provides a robust interval‐level measure of spasticity in ALS. Spasticity has a substantial impact on quality of life in ALS. [ABSTRACT FROM AUTHOR]

Published
2018
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17. C9ORF72 expansions, parkinsonism, and Parkinson disease: A clinicopathologic study

Author

Cooper-Knock, J., primary, Frolov, A., additional, Highley, J. R., additional, Charlesworth, G., additional, Kirby, J., additional, Milano, A., additional, Hartley, J., additional, Ince, P. G., additional, McDermott, C. J., additional, Lashley, T., additional, Revesz, T., additional, Shaw, P. J., additional, Wood, N. W., additional, and Bandmann, O., additional

Published
2013
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32. Trial of Antisense Oligonucleotide Tofersen for ALS.

Author

Miller, T. M., Cudkowicz, M. E., Genge, A., Shaw, P. J., Sobue, G., Bucelli, R. C., Chib, A., Van Damme, P., Ludolph, A. C., Glass, J. D., Andrews, J. A., Babu, S., Benatar, M., McDermott, C. J., Cochrane, T., Chary, S., Chew, S., Zhu, H., Wu, F., and Nestorov, I.

Subjects
*AMYOTROPHIC lateral sclerosis, *CLINICAL trials, *RILUZOLE, *VITAL capacity (Respiration), *SUPEROXIDE dismutase, *FRONTOTEMPORAL lobar degeneration, *CEREBROSPINAL fluid, *MONOCLONAL gammopathies, *MYOSIN, *RESEARCH, *RESEARCH methodology, *EVALUATION research, *NUCLEOTIDES, *COMPARATIVE studies, *RANDOMIZED controlled trials, *BLIND experiment
Abstract

Background: The intrathecally administered antisense oligonucleotide tofersen reduces synthesis of the superoxide dismutase 1 (SOD1) protein and is being studied in patients with amyotrophic lateral sclerosis (ALS) associated with mutations in SOD1 (SOD1 ALS).Methods: In this phase 3 trial, we randomly assigned adults with SOD1 ALS in a 2:1 ratio to receive eight doses of tofersen (100 mg) or placebo over a period of 24 weeks. The primary end point was the change from baseline to week 28 in the total score on the ALS Functional Rating Scale-Revised (ALSFRS-R; range, 0 to 48, with higher scores indicating better function) among participants predicted to have faster-progressing disease. Secondary end points included changes in the total concentration of SOD1 protein in cerebrospinal fluid (CSF), in the concentration of neurofilament light chains in plasma, in slow vital capacity, and in handheld dynamometry in 16 muscles. A combined analysis of the randomized component of the trial and its open-label extension at 52 weeks compared the results in participants who started tofersen at trial entry (early-start cohort) with those in participants who switched from placebo to the drug at week 28 (delayed-start cohort).Results: A total of 72 participants received tofersen (39 predicted to have faster progression), and 36 received placebo (21 predicted to have faster progression). Tofersen led to greater reductions in concentrations of SOD1 in CSF and of neurofilament light chains in plasma than placebo. In the faster-progression subgroup (primary analysis), the change to week 28 in the ALSFRS-R score was -6.98 with tofersen and -8.14 with placebo (difference, 1.2 points; 95% confidence interval [CI], -3.2 to 5.5; P = 0.97). Results for secondary clinical end points did not differ significantly between the two groups. A total of 95 participants (88%) entered the open-label extension. At 52 weeks, the change in the ALSFRS-R score was -6.0 in the early-start cohort and -9.5 in the delayed-start cohort (difference, 3.5 points; 95% CI, 0.4 to 6.7); non-multiplicity-adjusted differences favoring early-start tofersen were seen for other end points. Lumbar puncture-related adverse events were common. Neurologic serious adverse events occurred in 7% of tofersen recipients.Conclusions: In persons with SOD1 ALS, tofersen reduced concentrations of SOD1 in CSF and of neurofilament light chains in plasma over 28 weeks but did not improve clinical end points and was associated with adverse events. The potential effects of earlier as compared with delayed initiation of tofersen are being further evaluated in the extension phase. (Funded by Biogen; VALOR and OLE ClinicalTrials.gov numbers, NCT02623699 and NCT03070119; EudraCT numbers, 2015-004098-33 and 2016-003225-41.). [ABSTRACT FROM AUTHOR]

Published
2022
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33. Phase 1-2 Trial of Antisense Oligonucleotide Tofersen for ALS.

Author

Miller, T., Cudkowicz, M., Shaw, P. J., Andersen, P. M., Atassi, N., Bucelli, R. C., Genge, A., Glass, J., Ladha, S., Ludolph, A. L., Maragakis, N. J., McDermott, C. J., Pestronk, A., Ravits, J., Salachas, F., Trudell, R., Van Damme, P., Zinman, L., Bennett, C. F., and Lane, R.

Subjects
*DISEASE progression, *RESEARCH, *SPINAL injections, *GENETIC mutation, *RESEARCH methodology, *RESPIRATORY measurements, *EVALUATION research, *MEDICAL cooperation, *NUCLEOTIDES, *COMPARATIVE studies, *AMYOTROPHIC lateral sclerosis, *DOSE-effect relationship in pharmacology, *BLIND experiment, *HEADACHE, *CYTOPLASM, *LEUCOCYTE disorders
Abstract

Background: Tofersen is an antisense oligonucleotide that mediates the degradation of superoxide dismutase 1 (SOD1) messenger RNA to reduce SOD1 protein synthesis. Intrathecal administration of tofersen is being studied for the treatment of amyotrophic lateral sclerosis (ALS) due to SOD1 mutations.Methods: We conducted a phase 1-2 ascending-dose trial evaluating tofersen in adults with ALS due to SOD1 mutations. In each dose cohort (20, 40, 60, or 100 mg), participants were randomly assigned in a 3:1 ratio to receive five doses of tofersen or placebo, administered intrathecally for 12 weeks. The primary outcomes were safety and pharmacokinetics. The secondary outcome was the change from baseline in the cerebrospinal fluid (CSF) SOD1 concentration at day 85. Clinical function and vital capacity were measured.Results: A total of 50 participants underwent randomization and were included in the analyses; 48 participants received all five planned doses. Lumbar puncture-related adverse events were observed in most participants. Elevations in CSF white-cell count and protein were reported as adverse events in 4 and 5 participants, respectively, who received tofersen. Among participants who received tofersen, one died from pulmonary embolus on day 137, and one from respiratory failure on day 152; one participant in the placebo group died from respiratory failure on day 52. The difference at day 85 in the change from baseline in the CSF SOD1 concentration between the tofersen groups and the placebo group was 2 percentage points (95% confidence interval [CI], -18 to 27) for the 20-mg dose, -25 percentage points (95% CI, -40 to -5) for the 40-mg dose, -19 percentage points (95% CI, -35 to 2) for the 60-mg dose, and -33 percentage points (95% CI, -47 to -16) for the 100-mg dose.Conclusions: In adults with ALS due to SOD1 mutations, CSF SOD1 concentrations decreased at the highest concentration of tofersen administered intrathecally over a period of 12 weeks. CSF pleocytosis occurred in some participants receiving tofersen. Lumbar puncture-related adverse events were observed in most participants. (Funded by Biogen; ClinicalTrials.gov number, NCT02623699; EudraCT number, 2015-004098-33.). [ABSTRACT FROM AUTHOR]

Published
2020
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34. Measuring coping in people with amyotrophic lateral sclerosis using the Coping Index-ALS: A patient derived, Rasch compliant scale.

Author

Young CA, McDermott CJ, Williams TL, Ealing J, Majeed T, Al-Chalabi A, Dick DJ, Talbot K, Harrower T, Pinto A, Hanemann CO, Burke G, Roberts R, Mills RJ, and Tennant A

Subjects
Adaptation, Psychological, Aged, Humans, Middle Aged, Psychometrics, Self Report, Amyotrophic Lateral Sclerosis
Abstract

Objective: The progressively disabling and terminal nature of ALS/MND imposes major coping demands on patients. We wished to improve the psychometric properties of our previously published MND-Coping Scale, so that parametric analyses were valid, and to make it simpler for patients to complete and clinicians to score., Methods: After a new qualitative analysis of 26 patients with ALS/MND, the draft Coping Index-ALS (CI-ALS) was administered to 465 additional patients, alongside COPE-60, General Perceived Self Efficacy scale, and WHOQOL-BREF. Validity of the CI-ALS was assessed using the Rasch model. External validity was checked against comparator measures., Results: Thirteen centres contributed 465 patients, mean age 64.9 years (SD 10.8), mean disease duration 28.4 months (SD 37.5). The CI-ALS-Self and CI-ALS-Others both satisfied Rasch model expectations and showed invariance across age, gender, marital status and type of onset. Expected correlations were observed with comparator scales. A nomogram is available to convert the raw scores to interval level measures suitable for parametric analysis., Conclusions: Coping abilities in ALS/MND can now be measured using a simple 21 item self-report measure, offering two subscales with a focus of 'coping by self ' and 'coping with others'. This allows clinicians to identify individuals with poor coping and facilitates research on interventions that may improve coping skills., (Copyright © 2020. Published by Elsevier B.V.)

Published
2021
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36. Mutation screening of manganese superoxide dismutase in amyotrophic lateral sclerosis.

Author

Tomkins J, Banner SJ, McDermott CJ, and Shaw PJ

Subjects
DNA Mutational Analysis, DNA Primers, Female, Humans, Male, Polymorphism, Single-Stranded Conformational, Amyotrophic Lateral Sclerosis genetics, Genetic Testing, Superoxide Dismutase genetics
Abstract

Seventy-seven cases of ALS were screened for mutations in the manganese superoxide dismutase gene (SOD2). DNA was extracted from CNS tissue and screened using single stranded conformation polymorphism and heteroduplex analysis. No mutations were identified in the entire coding region of the SOD2 gene. The known polymorphism in the mitochondrial targeting sequence was identified. No association was found between this polymorphism and ALS. A further polymorphism was detected in the intronic sequence upstream of exon 4, though no association with ALS was demonstrated. We therefore conclude that mutations in SOD2 do not appear to cause ALS.

Published
2001
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38. Catheter infection. A comparison of two catheter maintenance techniques.

Author

Snyder RH, Archer FJ, Endy T, Allen TW, Condon B, Kaiser J, Whatmore D, Harrington G, and McDermott CJ

Subjects
Adolescent, Catheterization, Central Venous adverse effects, Catheterization, Peripheral adverse effects, Catheters, Indwelling adverse effects, Humans, Methods, Middle Aged, Pneumothorax etiology, Random Allocation, Time Factors, Bacterial Infections etiology, Catheterization adverse effects
Abstract

Incidence of catheter-related infections was studied using two techniques: changing catheters over a guide-wire or placing a new catheter at a new site every 3 days. Patients were randomized into two groups: Group 1 (new site) and Group 2 (guide-wire). Of the 105 catheterization sites (20 arterial and 85 central lines) in patients of Group 1, none were considered infected (i.e., having 15 or more colonies at the time of semi-quantitative microbiology analysis and clinical signs of infection at the catheter site). Of the 274 catheterization sites (56 arterial and 218 central) of patients of Group 2, eight (2.9%) were infected (chi 2 = 1.89, p greater than 0.05). Colonization (15 or more cultures without clinical signs of infection) occurred in three of 105 (2.9%) and in four of 274 (1.5%) of the catheterization sites of Groups 1 and 2, respectively (chi 2 = 0.23, p greater than 0.05). Study results indicate no significant difference in infection or colonization rates between the two methods of catheter replacement.

Published
1988
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