Your search keyword '"Sival DA"' showing total 41 results

1. Pathogenesis of cerebral malformations in perinatal spina bifida aperta

Author

Brouwer OF, Sollie KM, den Dunnen WF, de Wit Olga A, and Sival DA

Subjects

Neurology. Diseases of the nervous system, RC346-429

Published

2007

2. The relative contribution of cerebrospinal fluid malabsorption and obstruction in the development of hydrocephalus in human neonates with spina bifida

Author

Brouwer OF, Teelken A, Bos AF, Stoffel-Wagner B, Hoving EW, Sival DA, Bartmann P, and Heep A

Subjects

Neurology. Diseases of the nervous system, RC346-429

Published

2005

3. A detailed description of the phenotypic spectrum of North Sea Progressive Myoclonus Epilepsy in a large cohort of seventeen patients

Author

Polet, SS, Anderson, DG, Koens, LH, van Egmond, ME, Drost, G, Brusse, Esther, Willemsen, MAP, Sival, DA, Brouwer, OF, Kremer, HP, Vries, JJ, Tijssen, MA, Koning, TJ, Polet, SS, Anderson, DG, Koens, LH, van Egmond, ME, Drost, G, Brusse, Esther, Willemsen, MAP, Sival, DA, Brouwer, OF, Kremer, HP, Vries, JJ, Tijssen, MA, and Koning, TJ

Published

2020

4. Pathogenesis of cerebral malformations in perinatal spina bifida aperta

Author

de Wit, Olga A, primary, den Dunnen, WF, additional, Sollie, KM, additional, Brouwer, OF, additional, and Sival, DA, additional

Published

2007

5. The relative contribution of cerebrospinal fluid malabsorption and obstruction in the development of hydrocephalus in human neonates with spina bifida

Author

Sival, DA, primary, Hoving, EW, additional, Stoffel-Wagner, B, additional, Bos, AF, additional, Teelken, A, additional, Brouwer, OF, additional, Bartmann, P, additional, and Heep, A, additional

Published

2005

6. 'The International Cooperative Ataxia Rating Scale shows strong age-dependency in children'.

Author

Sival DA and Brunt ER

Published

2009

7. Automatic two-dimensional & three-dimensional video analysis with deep learning for movement disorders: A systematic review.

Author

Tang W, van Ooijen PMA, Sival DA, and Maurits NM

Subjects

Humans, Imaging, Three-Dimensional methods, Deep Learning, Movement Disorders diagnosis, Movement Disorders physiopathology, Video Recording

Abstract

The advent of computer vision technology and increased usage of video cameras in clinical settings have facilitated advancements in movement disorder analysis. This review investigated these advancements in terms of providing practical, low-cost solutions for the diagnosis and analysis of movement disorders, such as Parkinson's disease, ataxia, dyskinesia, and Tourette syndrome. Traditional diagnostic methods for movement disorders are typically reliant on the subjective assessment of motor symptoms, which poses inherent challenges. Furthermore, early symptoms are often overlooked, and overlapping symptoms across diseases can complicate early diagnosis. Consequently, deep learning has been used for the objective video-based analysis of movement disorders. This study systematically reviewed the latest advancements in automatic two-dimensional & three-dimensional video analysis using deep learning for movement disorders. We comprehensively analyzed the literature published until September 2023 by searching the Web of Science, PubMed, Scopus, and Embase databases. We identified 68 relevant studies and extracted information on their objectives, datasets, modalities, and methodologies. The study aimed to identify, catalogue, and present the most significant advancements, offering a consolidated knowledge base on the role of video analysis and deep learning in movement disorder analysis. First, the objectives, including specific PD symptom quantification, ataxia assessment, cerebral palsy assessment, gait disorder analysis, tremor assessment, tic detection (in the context of Tourette syndrome), dystonia assessment, and abnormal movement recognition were discussed. Thereafter, the datasets used in the study were examined. Subsequently, video modalities and deep learning methodologies related to the topic were investigated. Finally, the challenges and opportunities in terms of datasets, interpretability, evaluation methods, and home/remote monitoring were discussed., 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 © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

8. Pathogenetic Insights into Developmental Coordination Disorder Reveal Substantial Overlap with Movement Disorders.

Author

Garofalo M, Vansenne F, Sival DA, and Verbeek DS

Abstract

Developmental Coordination Disorder (DCD) is a neurodevelopmental condition characterized by non-progressive central motor impairments. Mild movement disorder features have been observed in DCD. Until now, the etiology of DCD has been unclear. Recent studies suggested a genetic substrate in some patients with DCD, but comprehensive knowledge about associated genes and underlying pathogenetic mechanisms is still lacking. In this study, we first identified genes described in the literature in patients with a diagnosis of DCD according to the official diagnostic criteria. Second, we exposed the underlying pathogenetic mechanisms of DCD, by investigating tissue- and temporal gene expression patterns and brain-specific biological mechanisms. Third, we explored putative shared pathogenetic mechanisms between DCD and frequent movement disorders with a known genetic component, including ataxia, chorea, dystonia, and myoclonus. We identified 12 genes associated with DCD in the literature, which are ubiquitously expressed in the central nervous system throughout brain development. These genes are involved in cellular processes, neural signaling, and nervous system development. There was a remarkable overlap (62%) in pathogenetic mechanisms between DCD-associated genes and genes linked with movement disorders. Our findings suggest that some patients might have a genetic etiology of DCD, which could be considered part of a pathogenetic movement disorder spectrum.

Published

2023

9. Instrumented Gait Classification Using Meaningful Features in Patients with Impaired Coordination.

Author

Dominguez-Vega ZT, de Quiros MB, Elting JWJ, Sival DA, and Maurits NM

Subjects

Child, Humans, Gait, Movement, Probability, Ataxia diagnosis, Cerebellar Ataxia

Abstract

Early onset ataxia (EOA) and developmental coordination disorder (DCD) both affect cerebellar functioning in children, making the clinical distinction challenging. We here aim to derive meaningful features from quantitative SARA-gait data (i.e., the gait test of the scale for the assessment and rating of ataxia (SARA)) to classify EOA and DCD patients and typically developing (CTRL) children with better explainability than previous classification approaches. We collected data from 18 EOA, 14 DCD and 29 CTRL children, while executing both SARA gait tests. Inertial measurement units were used to acquire movement data, and a gait model was employed to derive meaningful features. We used a random forest classifier on 36 extracted features, leave-one-out-cross-validation and a synthetic oversampling technique to distinguish between the three groups. Classification accuracy, probabilities of classification and feature relevance were obtained. The mean classification accuracy was 62.9% for EOA, 85.5% for DCD and 94.5% for CTRL participants. Overall, the random forest algorithm correctly classified 82.0% of the participants, which was slightly better than clinical assessment (73.0%). The classification resulted in a mean precision of 0.78, mean recall of 0.70 and mean F1 score of 0.74. The most relevant features were related to the range of the hip flexion-extension angle for gait, and to movement variability for tandem gait. Our results suggest that classification, employing features representing different aspects of movement during gait and tandem gait, may provide an insightful tool for the differential diagnoses of EOA, DCD and typically developing children.

Published

2023

10. Neurologic Outcome Comparison between Fetal Open-, Endoscopic- and Neonatal-Intervention Techniques in Spina Bifida Aperta.

Author

Sival DA, Patuszka A, Koszutski T, Heep A, and Verbeek RJ

Abstract

Introduction: In spina bifida aperta (SBA), fetal closure of the myelomeningocele (MMC) can have a neuroprotective effect and improve outcomes. In Europe, surgical MMC closure is offered by fetal-open (OSBAR), fetal-endoscopic (FSBAR), and neonatal (NSBAR) surgical techniques. Pediatric neurologists facing the challenging task of counseling the parents may therefore seek objective outcome comparisons. Until now, such data are hardly available. In SBA, we aimed to compare neurologic outcomes between OSBAR, FSBAR, and NSBAR intervention techniques., Methods: We determined intervention-related complications, neuromuscular integrity, and neurologic outcome parameters after OSBAR (n = 17) and FSBAR ( n = 13) interventions by age- and lesion-matched comparisons with NSBAR-controls. Neurological outcome parameters concerned: shunt dependency, segmental alterations in muscle ultrasound density (reflecting neuromuscular integrity), segmental motor-, sensory- and reflex conditions, and the likelihood of intervention-related gain in ambulation., Results: Compared with NSBAR-controls, fetal intervention is associated with improved neuromuscular tissue integrity, segmental neurological outcomes, reduced shunt dependency, and a higher chance of acquiring ambulation in ≈20% of the operated children. Children with MMC-lesions with a cranial border at L3 revealed the most likely intervention-related motor function gain. The outcome comparison between OSBAR versus FSBAR interventions revealed no significant differences., Conclusion: In SBA, OSBAR- and FSBAR-techniques achieved similar neuroprotective results. A randomized controlled trial is helpful in revealing and compare ongoing effects by surgical learning curves.

Published

2023

11. 2D Gait Skeleton Data Normalization for Quantitative Assessment of Movement Disorders from Freehand Single Camera Video Recordings.

Author

Tang W, van Ooijen PMA, Sival DA, and Maurits NM

Subjects

Ataxia, Child, Humans, Movement, Skeleton, Video Recording, Gait, Movement Disorders diagnosis

Abstract

Overlapping phenotypic features between Early Onset Ataxia (EOA) and Developmental Coordination Disorder (DCD) can complicate the clinical distinction of these disorders. Clinical rating scales are a common way to quantify movement disorders but in children these scales also rely on the observer's assessment and interpretation. Despite the introduction of inertial measurement units for objective and more precise evaluation, special hardware is still required, restricting their widespread application. Gait video recordings of movement disorder patients are frequently captured in routine clinical settings, but there is presently no suitable quantitative analysis method for these recordings. Owing to advancements in computer vision technology, deep learning pose estimation techniques may soon be ready for convenient and low-cost clinical usage. This study presents a framework based on 2D video recording in the coronal plane and pose estimation for the quantitative assessment of gait in movement disorders. To allow the calculation of distance-based features, seven different methods to normalize 2D skeleton keypoint data derived from pose estimation using deep neural networks applied to freehand video recording of gait were evaluated. In our experiments, 15 children (five EOA, five DCD and five healthy controls) were asked to walk naturally while being videotaped by a single camera in 1280 × 720 resolution at 25 frames per second. The high likelihood of the prediction of keypoint locations (mean = 0.889, standard deviation = 0.02) demonstrates the potential for distance-based features derived from routine video recordings to assist in the clinical evaluation of movement in EOA and DCD. By comparison of mean absolute angle error and mean variance of distance, the normalization methods using the Euclidean (2D) distance of left shoulder and right hip, or the average distance from left shoulder to right hip and from right shoulder to left hip were found to better perform for deriving distance-based features and further quantitative assessment of movement disorders.

Published

2022

12. The ARCA Registry: A Collaborative Global Platform for Advancing Trial Readiness in Autosomal Recessive Cerebellar Ataxias.

Author

Traschütz A, Reich S, Adarmes AD, Anheim M, Ashrafi MR, Baets J, Basak AN, Bertini E, Brais B, Gagnon C, Gburek-Augustat J, Hanagasi HA, Heinzmann A, Horvath R, de Jonghe P, Kamm C, Klivenyi P, Klopstock T, Minnerop M, Münchau A, Renaud M, Roxburgh RH, Santorelli FM, Schirinzi T, Sival DA, Timmann D, Vielhaber S, Wallner M, van de Warrenburg BP, Zanni G, Zuchner S, Klockgether T, Schüle R, Schöls L, and Synofzik M

Abstract

Autosomal recessive cerebellar ataxias (ARCAs) form an ultrarare yet expanding group of neurodegenerative multisystemic diseases affecting the cerebellum and other neurological or non-neurological systems. With the advent of targeted therapies for ARCAs, disease registries have become a precious source of real-world quantitative and qualitative data complementing knowledge from preclinical studies and clinical trials. Here, we review the ARCA Registry , a global collaborative multicenter platform (>15 countries, >30 sites) with the overarching goal to advance trial readiness in ARCAs. It presents a good clinical practice (GCP)- and general data protection regulation (GDPR)-compliant professional-reported registry for multicenter web-based capture of cross-center standardized longitudinal data. Modular electronic case report forms (eCRFs) with core, extended, and optional datasets allow data capture tailored to the participating site's variable interests and resources. The eCRFs cover all key data elements required by regulatory authorities [European Medicines Agency (EMA)] and the European Rare Disease (ERD) platform. They capture genotype, phenotype, and progression and include demographic data, biomarkers, comorbidity, medication, magnetic resonance imaging (MRI), and longitudinal clinician- or patient-reported ratings of ataxia severity, non-ataxia features, disease stage, activities of daily living, and (mental) health status. Moreover, they are aligned to major autosomal-dominant spinocerebellar ataxia (SCA) and sporadic ataxia (SPORTAX) registries in the field, thus allowing for joint and comparative analyses not only across ARCAs but also with SCAs and sporadic ataxias. The registry is at the core of a systematic multi-component ARCA database cluster with a linked biobank and an evolving study database for digital outcome measures. Currently, the registry contains more than 800 patients with almost 1,500 visits representing all ages and disease stages; 65% of patients with established genetic diagnoses capture all the main ARCA genes, and 35% with unsolved diagnoses are targets for advanced next-generation sequencing. The ARCA Registry serves as the backbone of many major European and transatlantic consortia, such as PREPARE, PROSPAX, and the Ataxia Global Initiative, with additional data input from SPORTAX. It has thus become the largest global trial-readiness registry in the ARCA field., Competing Interests: MW is the director of 2mt Software GmbH. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer JT declared a shared affiliation, with no collaboration, with one of the authors AM to the handling Editor., (Copyright © 2021 Traschütz, Reich, Adarmes, Anheim, Ashrafi, Baets, Basak, Bertini, Brais, Gagnon, Gburek-Augustat, Hanagasi, Heinzmann, Horvath, de Jonghe, Kamm, Klivenyi, Klopstock, Minnerop, Münchau, Renaud, Roxburgh, Santorelli, Schirinzi, Sival, Timmann, Vielhaber, Wallner, van de Warrenburg, Zanni, Zuchner, Klockgether, Schüle, Schöls, PREPARE Consortium and Synofzik.)

Published

2021

13. Early Onset Ataxia with Comorbid Dystonia: Clinical, Anatomical and Biological Pathway Analysis Expose Shared Pathophysiology.

Author

Sival DA, Garofalo M, Brandsma R, Bokkers TA, van den Berg M, de Koning TJ, Tijssen MAJ, and Verbeek DS

Abstract

In degenerative adult onset ataxia (AOA), dystonic comorbidity is attributed to one disease continuum. However, in early adult onset ataxia (EOA), the prevalence and pathogenesis of dystonic comorbidity (EOAD + ), are still unclear. In 80 EOA-patients, we determined the EOAD + -prevalence in association with MRI-abnormalities. Subsequently, we explored underlying biological pathways by genetic network and functional enrichment analysis. We checked pathway-outcomes in specific EOAD + -genotypes by comparing results with non-specifically (in-silico-determined) shared genes in up-to-date EOA, AOA and dystonia gene panels (that could concurrently cause ataxia and dystonia). In the majority (65%) of EOA-patients, mild EOAD + -features concurred with extra-cerebellar MRI abnormalities (at pons and/or basal-ganglia and/or thalamus ( p = 0.001)). Genetic network and functional enrichment analysis in EOAD + -genotypes indicated an association with organelle- and cellular-component organization (important for energy production and signal transduction). In non-specifically, in-silico-determined shared EOA, AOA and dystonia genes, pathways were enriched for Krebs-cycle and fatty acid/lipid-metabolic processes. In frequently occurring EOAD + -phenotypes, clinical, anatomical and biological pathway analyses reveal shared pathophysiology between ataxia and dystonia, associated with cellular energy metabolism and network signal transduction. Insight in the underlying pathophysiology of heterogeneous EOAD + -phenotype-genotype relationships supports the rationale for testing with complete, up-to-date movement disorder gene lists, instead of single EOA gene-panels.

Published

2020

14. Development of muscle ultrasound density in healthy fetuses and infants.

Author

Verbeek RJ, Mulder PB, Sollie KM, van der Hoeven JH, den Dunnen WFA, Maurits NM, and Sival DA

Subjects

Animals, Animals, Newborn, Cattle, Female, Humans, Infant, Newborn, Neuromuscular Diseases diagnostic imaging, Pregnancy, Ultrasonography, Ultrasonography, Prenatal, Fetus diagnostic imaging, Muscle, Skeletal diagnostic imaging

Abstract

Muscle ultrasound density (MUD) is a non-invasive parameter to indicate neuromuscular integrity in both children and adults. In healthy fetuses and infants, physiologic MUD values during development are still lacking. We therefore aimed to determine the physiologic, age-related MUD trend of biceps, quadriceps, tibialis anterior, hamstrings, gluteal and calf muscles, from pre- to the first year of postnatal life. To avoid a bias by pregnancy-related signal disturbances, we expressed fetal MUD as a ratio against bone ultrasound density. We used the full-term prenatal MUD ratio and the newborn postnatal MUD value as reference points, so that MUD development could be quantified from early pre- into postnatal life. Results: During the prenatal period, the total muscle group revealed a developmental MUD trend concerning a fetal increase in MUD-ratio from the 2nd trimester up to the end of the 3rd trimester [median increase: 27% (range 16-45), p < .001]. After birth, MUD-values increased up to the sixth month [median increase: 11% (range -7-27), p = 0.025] and stabilized thereafter. Additionally, there were also individual MUD characteristics per muscle group and developmental stage, such as relatively low MUD values of fetal hamstrings and high values of the paediatric gluteus muscles. These MUD trends are likely to concur with analogous developmentally, maturation-related alterations in the muscle water to peptide content ratios., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

15. Paediatric motor phenotypes in early-onset ataxia, developmental coordination disorder, and central hypotonia.

Author

Lawerman TF, Brandsma R, Maurits NM, Martinez-Manzanera O, Verschuuren-Bemelmans CC, Lunsing RJ, Brouwer OF, Kremer HP, and Sival DA

Subjects

Adolescent, Age of Onset, Ataxia diagnosis, Child, Child, Preschool, Diagnosis, Differential, Female, Humans, Male, Motor Skills Disorders diagnosis, Muscle Hypotonia diagnosis, Phenotype, Ataxia physiopathology, Motor Skills Disorders physiopathology, Muscle Hypotonia physiopathology

Abstract

Aims: To investigate the accuracy of phenotypic early-onset ataxia (EOA) recognition among developmental conditions, including developmental coordination disorder (DCD) and hypotonia of central nervous system origin, and the effect of scientifically validated EOA features on changing phenotypic consensus., Method: We included 32 children (4-17y) diagnosed with EOA (n=11), DCD (n=10), and central hypotonia (n=11). Three paediatric neurologists independently assessed videotaped motor behaviour phenotypically and quantitatively (using the Scale for Assessment and Rating of Ataxia [SARA]). We determined: (1) phenotypic interobserver agreement and phenotypic homogeneity (percentage of phenotypes with full consensus by all three observers according to the underlying diagnosis); (2) SARA (sub)score profiles; and (3) the effect of three scientifically validated EOA features on phenotypic consensus., Results: Phenotypic homogeneity occurred in 8 out of 11, 2 out of 10, and 1 out of 11 patients with EOA, DCD, and central hypotonia respectively. Homogeneous phenotypic discrimination of EOA from DCD and central hypotonia occurred in 16 out of 21 and 22 out of 22 patients respectively. Inhomogeneously discriminated EOA and DCD phenotypes (5 out of 21) revealed overlapping SARA scores with different SARA subscore profiles. After phenotypic reassessment with scientifically validated EOA features, phenotypic homogeneity changed from 16 to 18 patients., Interpretation: In contrast to complete distinction between EOA and central hypotonia, the paediatric motor phenotype did not reliably distinguish between EOA and DCD. Reassessment with scientifically validated EOA features could contribute to a higher phenotypic consensus. Early-onset ataxia (EOA) and central hypotonia motor phenotypes were reliably distinguished. EOA and developmental coordination disorder (DCD) motor phenotypes were not reliably distinguished. The EOA and DCD phenotypes have different profiles of the Scale for Assessment and Rating of Ataxia., (© 2019 The Authors. Developmental Medicine & Child Neurology published by John Wiley & Sons Ltd on behalf of Mac Keith Press.)

Published

2020

16. Distinguishing Patients With a Coordination Disorder From Healthy Controls Using Local Features of Movement Trajectories During the Finger-to-Nose Test.

Author

Aguilar VS, Martinez Manzanera O, Sival DA, Maurits NM, and Roerdink JBTM

Subjects

Adolescent, Case-Control Studies, Child, Humans, Psychomotor Performance physiology, Motor Skills Disorders diagnosis, Movement physiology, Physical Examination methods, Psychomotor Performance classification, Signal Processing, Computer-Assisted

Abstract

Assessment of coordination disorders is valuable for monitoring progression of patients, distinguishing healthy and pathological conditions, and ultimately aiding in clinical decision making, thereby offering the possibility to improve medical care or rehabilitation. A common method to assess movement disorders is by using clinical rating scales. However, rating scales depend on the evaluation and interpretation of an observer, implying that subjective phenotypic assignment precedes the application of the scales. Objective and more accurate methods are under continuous development but gold standards are still scarce. Here, we show how a method we previously developed, originally aimed at assessing dynamic balance by a probabilistic generalized linear model, can be used to assess a broader range of functional movements. In this paper, the method is applied to distinguish patients with coordination disorders from healthy controls. We focused on movements recorded during the finger-to-nose task (FNT), which is commonly used to assess coordination disorders. We also compared clinical FNT scores and model scores. Our method achieved 84% classification accuracy in distinguishing patients and healthy participants, using only two features. Future work could entail testing the reliability of the method by using additional features and other clinical tests such as finger chasing, quiet standing, and/or usage of tracking devices such as depth cameras or force plates.

Published

2019

17. Mutations in PIK3C2A cause syndromic short stature, skeletal abnormalities, and cataracts associated with ciliary dysfunction.

Author

Tiosano D, Baris HN, Chen A, Hitzert MM, Schueler M, Gulluni F, Wiesener A, Bergua A, Mory A, Copeland B, Gleeson JG, Rump P, van Meer H, Sival DA, Haucke V, Kriwinsky J, Knaup KX, Reis A, Hauer NN, Hirsch E, Roepman R, Pfundt R, Thiel CT, Wiesener MS, Aslanyan MG, and Buchner DA

Subjects

Adolescent, Adult, Child, Consanguinity, Female, Fibroblasts metabolism, Humans, Male, Pedigree, Phenotype, Young Adult, Bone Diseases, Developmental genetics, Cataract genetics, Ciliary Motility Disorders genetics, Dwarfism genetics, Mutation, Phosphatidylinositol 3-Kinases genetics

Abstract

PIK3C2A is a class II member of the phosphoinositide 3-kinase (PI3K) family that catalyzes the phosphorylation of phosphatidylinositol (PI) into PI(3)P and the phosphorylation of PI(4)P into PI(3,4)P2. At the cellular level, PIK3C2A is critical for the formation of cilia and for receptor mediated endocytosis, among other biological functions. We identified homozygous loss-of-function mutations in PIK3C2A in children from three independent consanguineous families with short stature, coarse facial features, cataracts with secondary glaucoma, multiple skeletal abnormalities, neurological manifestations, among other findings. Cellular studies of patient-derived fibroblasts found that they lacked PIK3C2A protein, had impaired cilia formation and function, and demonstrated reduced proliferative capacity. Collectively, the genetic and molecular data implicate mutations in PIK3C2A in a new Mendelian disorder of PI metabolism, thereby shedding light on the critical role of a class II PI3K in growth, vision, skeletal formation and neurological development. In particular, the considerable phenotypic overlap, yet distinct features, between this syndrome and Lowe's syndrome, which is caused by mutations in the PI-5-phosphatase OCRL, highlight the key role of PI metabolizing enzymes in specific developmental processes and demonstrate the unique non-redundant functions of each enzyme. This discovery expands what is known about disorders of PI metabolism and helps unravel the role of PIK3C2A and class II PI3Ks in health and disease., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

18. The neurological phenotype of developmental motor patterns during early childhood.

Author

Kuiper MJ, Brandsma R, Lunsing RJ, Eggink H, Ter Horst HJ, Bos AF, and Sival DA

Subjects

Child, Preschool, Diagnostic Techniques, Neurological, Female, Humans, Infant, Infant, Newborn, Male, Movement physiology, Phenotype, Child Development physiology, Motor Skills, Nervous System growth & development

Abstract

Introduction: During early childhood, typical human motor behavior reveals a gradual transition from automatic motor patterns to acquired motor skills, by the continuous interplay between nature and nurture. During the wiring and shaping of the underlying motor networks, insight into the neurological phenotype of developmental motor patterns is incomplete. In healthy, typically developing children (0-3 years of age), we therefore aimed to investigate the neurological phenotype of developmental motor patterns., Methods: In 32 healthy, typically developing children (0-3 years), we video-recorded spontaneous motor behavior, general movements (GMs), and standardized motor tasks. We classified the motor patterns by: (a) the traditional neurodevelopmental approach, by Gestalt perception and (b) the classical neurological approach, by the clinical phenotypic determination of movement disorder features. We associated outcomes by Cramer's V., Results: Developmental motor patterns revealed (a) choreatic-like features (≤3 months; associated with fidgety GMs (r = 0.732) and startles (r = 0.687)), (b) myoclonic-like features (≤3 months; associated with fidgety GMs (r = 0.878) and startles (r = 0.808)), (c) dystonic-like features (0-3 years; associated with asymmetrical tonic neck reflex (r = 0.641) and voluntary movements (r = 0.517)), and (d) ataxic-like features (>3 months; associated with voluntary movements (r = 0.928))., Conclusions: In healthy infants and toddlers (0-3 years), typical developmental motor patterns reveal choreatic-, myoclonic-, dystonic- and ataxic-like features. The transient character of these neurological phenotypes is placed in perspective of the physiological shaping of the underlying motor centers. Neurological phenotypic insight into developmental motor patterns can contribute to adequate discrimination between ontogenetic and initiating pathological movement features and to adequate interpretation of therapeutic interactions., (© 2018 The Authors. Brain and Behavior published by Wiley Periodicals, Inc.)

Published

2019

19. De novo variants in KLF7 are a potential novel cause of developmental delay/intellectual disability, neuromuscular and psychiatric symptoms.

Author

Powis Z, Petrik I, Cohen JS, Escolar D, Burton J, van Ravenswaaij-Arts CMA, Sival DA, Stegmann APA, Kleefstra T, Pfundt R, Chikarmane R, Begtrup A, Huether R, Tang S, and Shinde DN

Subjects

Adolescent, Autism Spectrum Disorder pathology, Autism Spectrum Disorder psychology, Child, Child, Preschool, Developmental Disabilities pathology, Developmental Disabilities psychology, Female, Genetic Predisposition to Disease, Haploinsufficiency genetics, Humans, Intellectual Disability pathology, Intellectual Disability psychology, Male, Mutation, Missense genetics, Exome Sequencing, Autism Spectrum Disorder genetics, Developmental Disabilities genetics, Intellectual Disability genetics, Kruppel-Like Transcription Factors genetics

Abstract

Due to small numbers of reported patients with pathogenic variants in single genes, the phenotypic spectrum associated with genes causing neurodevelopmental disorders such as intellectual disability (ID) and autism spectrum disorder is expanding. Among these genes is KLF7 (Krüppel-like factor 7), which is located at 2q33.3 and has been implicated in several developmental processes. KLF7 has been proposed to be a candidate gene for the phenotype of autism features seen in patients with a 2q33.3q34 deletion. Herein, we report 4 unrelated individuals with de novo KLF7 missense variants who share similar clinical features of developmental delay/ID, hypotonia, feeding/swallowing issues, psychiatric features and neuromuscular symptoms, and add to the knowledge about the phenotypic spectrum associated with KLF7 haploinsufficiency., (© 2017 The Authors. Clinical Genetics published by John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018

20. Crossing barriers: a multidisciplinary approach to children and adults with young-onset movement disorders.

Author

van Egmond ME, Eggink H, Kuiper A, Sival DA, Verschuuren-Bemelmans CC, Tijssen MAJ, and de Koning TJ

Abstract

Background: Diagnosis of less common young-onset movement disorders is often challenging, requiring a broad spectrum of skills of clinicians regarding phenotyping, normal and abnormal development and the wide range of possible acquired and genetic etiologies. This complexity often leads to considerable diagnostic delays, paralleled by uncertainty for patients and their families. Therefore, we hypothesized that these patients might benefit from a multidisciplinary approach. We report on the first 100 young-onset movement disorders patients who visited our multidisciplinary outpatient clinic., Methods: Clinical data were obtained from the medical records of patients with disease-onset before age 18 years. We investigated whether the multidisciplinary team, consisting of a movement disorder specialist, pediatric neurologist, pediatrician for inborn errors of metabolism and clinical geneticist, revised the movement disorder classification, etiological diagnosis, and/or treatment., Results: The 100 referred patients (56 males) had a mean age of 12.5 ± 6.3 years and mean disease duration of 9.2 ± 6.3 years. Movement disorder classification was revised in 58/100 patients. Particularly dystonia and myoclonus were recognized frequently and supported by neurophysiological testing in 24/29 patients. Etiological diagnoses were made in 24/71 (34%) formerly undiagnosed patients, predominantly in the genetic domain. Treatment strategy was adjusted in 60 patients, of whom 43 (72%) reported a subjective positive effect., Conclusions: This exploratory study demonstrates that a dedicated tertiary multidisciplinary approach to complex young-onset movement disorders may facilitate phenotyping and improve recognition of rare disorders, with a high diagnostic yield and minimal diagnostic delay. Future studies are needed to investigate the cost-benefit ratio of a multidisciplinary approach in comparison to regular subspecialty care., Competing Interests: This study was carried out in accordance with the ethical standards and regulations of the Medical Ethical Committee of the University Medical Center Groningen, the Netherlands. All subjects in this study received care-as-usual and the presented data cannot be traced back to individual patients. Therefore this study is not subject to the Law on Medical Scientific Research involving Human Beings (WMO), and written informed consent from the subjects was not required.Not applicable, as the manuscript does not contain any individual person’s data.The authors declare that they have no competing interests. Full financial disclosures of all authors: Dr. van Egmond received a travel grant from Medtronic; Prof Tijssen received research grants from Fonds Nuts-Ohra, Stichting Wetenschapsfonds Dystonievereniging, Prinses Beatrix Foundation, STW Technology society (NeuroSIPE), and Phelps Stichting voor Spastici. Unrestricted grants were received from Allergan Pharmaceuticals, Actelion, Ipsen Pharmaceuticals. An unrestricted grant was received from Medtronic for a dystonia nurse, and from DystonieNet for a teaching course. Dr. de Koning received a research grant from Metakids Foundation, Ride4Kids Foundation, and Metabolic Power Foundation (non-profit) and a research grant from Actelion (for profit). The other authors have indicated they have no financial relationships to disclose.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published

2018

21. Construct Validity and Reliability of the SARA Gait and Posture Sub-scale in Early Onset Ataxia.

Author

Lawerman TF, Brandsma R, Verbeek RJ, van der Hoeven JH, Lunsing RJ, Kremer HPH, and Sival DA

Abstract

Aim: In children, gait and posture assessment provides a crucial marker for the early characterization, surveillance and treatment evaluation of early onset ataxia (EOA). For reliable data entry of studies targeting at gait and posture improvement, uniform quantitative biomarkers are necessary. Until now, the pediatric test construct of gait and posture scores of the Scale for Assessment and Rating of Ataxia sub-scale (SARA) is still unclear. In the present study, we aimed to validate the construct validity and reliability of the pediatric (SARA GAIT/POSTURE ) sub-scale. Methods: We included 28 EOA patients [15.5 (6-34) years; median (range)]. For inter-observer reliability, we determined the ICC on EOA SARA GAIT/POSTURE sub-scores by three independent pediatric neurologists. For convergent validity, we associated SARA GAIT/POSTURE sub-scores with: (1) Ataxic gait Severity Measurement by Klockgether (ASMK; dynamic balance), (2) Pediatric Balance Scale (PBS; static balance), (3) Gross Motor Function Classification Scale -extended and revised version (GMFCS-E&R), (4) SARA-kinetic scores (SARA KINETIC ; kinetic function of the upper and lower limbs), (5) Archimedes Spiral (AS; kinetic function of the upper limbs), and (6) total SARA scores (SARA TOTAL ; i.e., summed SARA GAIT/POSTURE , SARA KINETIC , and SARA SPEECH sub-scores). For discriminant validity, we investigated whether EOA co-morbidity factors (myopathy and myoclonus) could influence SARA GAIT/POSTURE sub-scores. Results: The inter-observer agreement (ICC) on EOA SARA GAIT/POSTURE sub-scores was high (0.97). SARA GAIT/POSTURE was strongly correlated with the other ataxia and functional scales [ASMK ( r s = -0.819; p < 0.001); PBS ( r s = -0.943; p < 0.001); GMFCS-E&R ( r s = -0.862; p < 0.001); SARA KINETIC ( r s = 0.726; p < 0.001); AS ( r s = 0.609; p = 0.002); and SARA TOTAL ( r s = 0.935; p < 0.001)]. Comorbid myopathy influenced SARA GAIT/POSTURE scores by concurrent muscle weakness, whereas comorbid myoclonus predominantly influenced SARA KINETIC scores. Conclusion: In young EOA patients, separate SARA GAIT/POSTURE parameters reveal a good inter-observer agreement and convergent validity, implicating the reliability of the scale. In perspective of incomplete discriminant validity, it is advisable to interpret SARA GAIT/POSTURE scores for comorbid muscle weakness.

Published

2017

22. Age-related reference values for the pediatric Scale for Assessment and Rating of Ataxia: a multicentre study.

Author

Lawerman TF, Brandsma R, Burger H, Burgerhof JGM, and Sival DA

Subjects

Adolescent, Age Factors, Child, Child Development, Child, Preschool, Europe, Female, Gait, Humans, Male, Observer Variation, Reference Values, Ataxia diagnosis, Severity of Illness Index

Abstract

Aim: For reliable assessment of ataxia severity in children, the Childhood Ataxia and Cerebellar Group of the European Pediatric Neurology Society aimed to validate the Scale for Assessment and Rating of Ataxia (SARA) according to age., Method: Twenty-two pediatric ataxia experts from 15 international institutions scored videotaped SARA performances in 156 typically developing children (4-16y: m/f=1; 12 children per year of age; including nine different nationalities). We determined age-dependency and reliability of pediatric SARA scores by a mixed model., Results: In typically developing children, age was the only variable that revealed a relationship with SARA scores (p<0.001). The youngest children revealed the highest scores and the highest variation in scores (<8y; p<0.001). After 11 years of age, pediatric scores approached adult outcomes. The interobserver agreement of total SARA scores was substantial with an intraclass correlation coefficient of 0.63 (95% confidence interval 0.56-0.69; p<0.001)., Interpretation: In typically developing European children, both SARA scores and interobserver agreement are age-dependent. For reliable interpretation of pediatric SARA scores, consideration of the underlying test construct appears prudent. These data will hopefully contribute to a correct and uniform interpretation of longitudinal SARA scores from childhood to adulthood., (© 2017 Mac Keith Press.)

Published

2017

23. Reliability and discriminant validity of ataxia rating scales in early onset ataxia.

Author

Brandsma R, Lawerman TF, Kuiper MJ, Lunsing RJ, Burger H, and Sival DA

Subjects

Adolescent, Adult, Age of Onset, Ataxia physiopathology, Child, Child, Preschool, Female, Humans, Male, Motor Activity, Reproducibility of Results, Retrospective Studies, Statistics, Nonparametric, Young Adult, Ataxia diagnosis, Severity of Illness Index

Abstract

Aim: To determine whether ataxia rating scales are reliable disease biomarkers for early onset ataxia (EOA)., Method: In 40 patients clinically identified with EOA (28 males, 12 females; mean age 15y 3mo [range 5-34y]), we determined interobserver and intraobserver agreement (interclass correlation coefficient [ICC]) and discriminant validity of ataxia rating scales (International Cooperative Ataxia Rating Scale [ICARS], Scale for Assessment and Rating of Ataxia [SARA], and Brief Ataxia Rating Scale [BARS]). Three paediatric neurologists independently scored ICARS, SARA and BARS performances recorded on video, and also phenotyped the primary and secondary movement disorder features. When ataxia was the primary movement disorder feature, we assigned patients to the subgroup 'EOA with core ataxia' (n=26). When ataxia concurred with other prevailing movement disorders (such as dystonia, myoclonus, and chorea), we assigned patients to the subgroup 'EOA with comorbid ataxia' (n=12)., Results: ICC values were similar in both EOA subgroups of 'core' and 'comorbid' ataxia (0.92-0.99; ICARS, SARA, and BARS). Independent of the phenotype, the severity of the prevailing movement disorder predicted the ataxia rating scale scores (β=0.83-0.88; p<0.05)., Interpretation: In patients with EOA, the reliability of ataxia rating scales is high. However, the discriminative validity for 'ataxia' is low. For adequate interpretation of ataxia rating scale scores, application in uniform movement disorder phenotypes is essential., (© 2016 Mac Keith Press.)

Published

2017

24. The efficacy of the modified Atkins diet in North Sea Progressive Myoclonus Epilepsy: an observational prospective open-label study.

Author

van Egmond ME, Weijenberg A, van Rijn ME, Elting JW, Gelauff JM, Zutt R, Sival DA, Lambrechts RA, Tijssen MA, Brouwer OF, and de Koning TJ

Subjects

Adolescent, Child, Electroencephalography, Humans, Male, Treatment Outcome, Young Adult, Diet, High-Protein Low-Carbohydrate, Myoclonic Epilepsies, Progressive diet therapy

Abstract

Background: North Sea Progressive Myoclonus Epilepsy is a rare and severe disorder caused by mutations in the GOSR2 gene. It is clinically characterized by progressive myoclonus, seizures, early-onset ataxia and areflexia. As in other progressive myoclonus epilepsies, the efficacy of antiepileptic drugs is disappointingly limited in North Sea Progressive Myoclonus Epilepsy. The ketogenic diet and the less restrictive modified Atkins diet have been proven to be effective in other drug-resistant epilepsy syndromes, including those with myoclonic seizures. Our aim was to evaluate the efficacy of the modified Atkins diet in patients with North Sea Progressive Myoclonus Epilepsy., Results: Four North Sea Progressive Myoclonus Epilepsy patients (aged 7-20 years) participated in an observational, prospective, open-label study on the efficacy of the modified Atkins diet. Several clinical parameters were assessed at baseline and again after participants had been on the diet for 3 months. The primary outcome measure was health-related quality of life, with seizure frequency and blinded rated myoclonus severity as secondary outcome measures. Ketosis was achieved within 2 weeks and all patients completed the 3 months on the modified Atkins diet. The diet was well tolerated by all four patients. Health-related quality of life improved considerably in one patient and showed sustained improvement during long-term follow-up, despite the progressive nature of the disorder. Health-related quality of life remained broadly unchanged in the other three patients and they did not continue the diet. Seizure frequency remained stable and blinded rating of their myoclonus showed improvement, albeit modest, in all patients., Conclusions: This observational, prospective study shows that some North Sea Progressive Myoclonus Epilepsy patients may benefit from the modified Atkins diet with sustained health-related quality of life improvement. Not all our patients continued on the diet, but nonetheless we show that the modified Atkins diet might be considered as a possible treatment in this devastating disorder.

Published

2017

25. Clinical Pearls - how my patients taught me: The fainting lark symptom.

Author

Kuiper A, van Egmond ME, Harms MP, Oosterhoff MD, van Harten B, Sival DA, de Koning TJ, and Tijssen MA

Abstract

Background: Compulsive movements, complex tics and stereotypies are frequent, especially among patients with autism or psychomotor retardation. These movements can be difficult to characterize and can mimic other conditions like epileptic seizures or paroxysmal dystonia, particularly when abnormal breathing and cerebral hypoxia are induced., Case Presentation: We describe an 18-year-old patient with Asperger syndrome who presented with attacks of tonic posturing of the trunk and neck. The attacks consisted of self-induced stereotypic stretching of the neck combined with a compulsive Valsalva-like maneuver. This induced cerebral hypoperfusion and subsequently dysautonomia and some involuntary movements of the arms., Conclusion: This patient suffered from a complex tic with compulsive respiratory stereotypies. His symptoms contain aspects of a phenomenon described in early literature as 'the fainting lark'.

Published

2016

26. The Burke-Fahn-Marsden Dystonia Rating Scale is Age-Dependent in Healthy Children.

Author

Kuiper MJ, Vrijenhoek L, Brandsma R, Lunsing RJ, Burger H, Eggink H, Peall KJ, Contarino MF, Speelman JD, Tijssen MAJ, and Sival DA

Abstract

Background: The Burke-Fahn-Marsden Dystonia Rating Scale is a universally applied instrument for the quantitative assessment of dystonia in both children and adults. However, immature movements by healthy young children may also show "dystonic characteristics" as a consequence of physiologically incomplete brain maturation. This could implicate that Burke-Fahn-Marsden scale scores are confounded by pediatric age., Objective: In healthy young children, we aimed to determine whether physiologically immature movements and postures can induce an age-related effect on Burke-Fahn-Marsden movement and disability scale scores., Methods: Nine assessors specializied in movement disorders (3 adult neurologists, 3 pediatric neurologists, and 3 MD/PhD students) independently scored the Burke-Fahn-Marsden movement scale in 52 healthy children (4-16 years of age; 2 boys and 2 girls per year of age). Independent of that, parents scored their children's functional motor development according to the Burke-Fahn-Marsden disability scale in another 52 healthy children (4-16 years of age; 2 boys and 2 girls per year of age). By regression analysis, we determined the association between Burke-Fahn-Marsden movement and disability scales outcomes and pediatric age., Results: In healthy children, assessment of physiologically immature motor performances by the Burke-Fahn-Marsden movement and disability scales showed an association between the outcomes of both scales and age (until 16 years and 12 years of age, β = -0.72 and β = -0.60, for Burke-Fahn-Marsden movement and disability scale, respectively [both P < 0.001])., Conclusions: The Burke-Fahn-Marsden movement and disability scales are influenced by the age of the child. For accurate interpretation of longitudinal Burke-Fahn-Marsden Dystonia Rating Scale scores in young dystonic children, consideration of pediatric age-relatedness appears advisory.

Published

2016

27. Reliability of phenotypic early-onset ataxia assessment: a pilot study.

Author

Lawerman TF, Brandsma R, van Geffen JT, Lunsing RJ, Burger H, Tijssen MA, de Vries JJ, de Koning TJ, and Sival DA

Subjects

Adolescent, Adult, Age of Onset, Child, Child, Preschool, Disease Progression, Humans, Phenotype, Pilot Projects, Reproducibility of Results, Young Adult, Ataxia diagnosis, Severity of Illness Index

Abstract

Aim: To investigate the interobserver agreement on phenotypic early-onset ataxia (EOA) assessment and to explore whether the Scale for Assessment and Rating of Ataxia (SARA) could provide a supportive marker., Method: Seven movement disorder specialists provided independent phenotypic assessments of potentially ataxic motor behaviour in 40 patients (mean age 15y [range 5-34]; data derived from University Medical Center Groningen medical records 1998-2012). We determined interobserver agreement by Fleiss' kappa. Furthermore, we compared percentage SARA subscores ([subscore/total score]×100%) between 'indisputable' (primary ataxia recognition by at least six observers) and 'mixed' (ataxia recognition, unfulfilling 'indisputable' criteria) EOA phenotypes., Results: Agreement on phenotypic EOA assessment was statistically significant (p<0.001), but of moderate strength (Fleiss' kappa=0.45; 95% CI 0.38-0.51). During mild disease progression, percentage SARA gait subscores discriminated between 'indisputable' and 'mixed' EOA phenotypes. In patients with percentage SARA gait subscores >30%, primary ataxia was more frequently present than in those with subscores <30% (p=0.001)., Interpretation: Among movement-disorder professionals from different disciplines, interobserver agreement on phenotypic EOA recognition is of limited strength. SARA gait subscores can provide a supportive discriminative marker between EOA phenotypes. Hopefully, future phenotypic insight will contribute to the inclusion of uniform, high-quality data in international EOA databases., (© 2015 Mac Keith Press.)

Published

2016

28. A novel diagnostic approach to patients with myoclonus.

Author

Zutt R, van Egmond ME, Elting JW, van Laar PJ, Brouwer OF, Sival DA, Kremer HP, de Koning TJ, and Tijssen MA

Subjects

Electrophysiology, Humans, Myoclonus genetics, Myoclonus therapy, Nervous System pathology, Nervous System physiopathology, Neuroimaging, Algorithms, Diagnosis, Differential, High-Throughput Nucleotide Sequencing, Myoclonus diagnosis

Abstract

Myoclonus is a hyperkinetic movement disorder characterized by brief, involuntary muscular jerks. Recognition of myoclonus and determination of the underlying aetiology remains challenging given that both acquired and genetically determined disorders have varied manifestations. The diagnostic work-up in myoclonus is often time-consuming and costly, and a definitive diagnosis is reached in only a minority of patients. On the basis of a systematic literature review up to June 2015, we propose a novel diagnostic eight-step algorithm to help clinicians accurately, efficiently and cost-effectively diagnose myoclonus. The large number of genes implicated in myoclonus and the wide clinical variation of these genetic disorders emphasize the need for novel diagnostic techniques. Therefore, and for the first time, we incorporate next-generation sequencing (NGS) in a diagnostic algorithm for myoclonus. The initial step of the algorithm is to confirm whether the movement disorder phenotype is consistent with, myoclonus, and to define its anatomical subtype. The next steps are aimed at identification of both treatable acquired causes and those genetic causes of myoclonus that require a diagnostic approach other than NGS. Finally, other genetic diseases that could cause myoclonus can be investigated simultaneously by NGS techniques. To facilitate NGS diagnostics, we provide a comprehensive list of genes associated with myoclonus.

Published

2015

29. Assessment of speech in early-onset ataxia: a pilot study.

Author

Kuiper MJ, Brandsma R, Lawerman TF, Lunsing RJ, Keegstra AL, Burger H, De Koning TJ, Tijssen MAJ, and Sival DA

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Humans, Male, Pediatrics, Pilot Projects, Reproducibility of Results, Severity of Illness Index, Statistics as Topic, Young Adult, Ataxia complications, Speech Disorders diagnosis, Speech Disorders etiology

Abstract

Aim: The aim of the study was to determine whether paediatric ataxia speech subscores are reliably applicable for international early-onset ataxia (EOA) databases. If so, we reasoned that ataxia speech subscores should be associated with ataxia scores and involve high interobserver agreement, including those for internationally applicable Scale for Assessment and Rating of Ataxia (SARA) syllable repetition tasks (SARASRT)., Method: Three independent paediatric neurologists and a speech therapist scored speech in 52 healthy children (mean age 10y, range 4-16y) and 40 individuals with EOA (mean age 15y, range 5-34y). We compared ataxia speech subscores for the association with age and ataxia scores as well as interobserver reliability., Results: In healthy children, ataxia speech subscores were moderately associated with age (International Cooperative Ataxia Rating Scale [ICARS]: r=-0.515; SARA: r=-0.321; p<0.05) and with ataxia scores (ICARS: r=0.552; SARA: r=0.336; p<0.05), and revealed slight to moderate interobserver agreement (ICARS-intraclass correlation coefficient [ICC]: 0.380; SARA-ICC: 0.185; SARASRT-ICC: 0.509). In EOA, speech subscores have a strong association with ataxia scores (ICARS: r=0.735; SARA: r=0.730; p<0.001) and revealed substantial to nearly perfect interobserver agreement (ICARS-ICC: 0.812; SARA-ICC: 0.854; SARASRT-ICC: 0.724)., Interpretation: Early-onset ataxia speech subscores are associated with ataxia and also reveal high interobserver agreement, including those internationally applicable to SARASRT. We conclude that SARASRT appears to be applicable for EOA databases. However, before syllable repetition tasks are included, we would advise to wait for the results published by the international Childhood Ataxia and Cerebellar Group., (© 2014 Mac Keith Press.)

Published

2014

30. Rare inborn errors of metabolism with movement disorders: a case study to evaluate the impact upon quality of life and adaptive functioning.

Author

Eggink H, Kuiper A, Peall KJ, Contarino MF, Bosch AM, Post B, Sival DA, Tijssen MA, and de Koning TJ

Subjects

Activities of Daily Living psychology, Child, Child, Preschool, Cohort Studies, Female, Humans, Male, Metabolism, Inborn Errors diagnosis, Movement Disorders diagnosis, Adaptation, Psychological, Metabolism, Inborn Errors complications, Metabolism, Inborn Errors psychology, Movement Disorders complications, Movement Disorders psychology, Quality of Life psychology

Abstract

Background: Inborn errors of metabolism (IEM) form an important cause of movement disorders in children. The impact of metabolic diseases and concordant movement disorders upon children's health-related quality of life (HRQOL) and its physical and psychosocial domains of functioning has never been investigated. We therefore conducted a case study on the HRQOL and development of adaptive functioning in children with an IEM and a movement disorder., Methods: Children with co-existent IEM and movement disorders were recruited from paediatric outpatient clinics. We systematically collected clinical data and videotaped examinations. The movement disorders were diagnosed by a panel of specialists. The Pediatric Quality of Life Inventory 4.0 and the Vineland Adaptive Behavior Scale were used to assess the HRQOL and adaptive functioning, respectively., Results: We recruited 24 children (10 boys, mean age 7y 5 m). Six types of movement disorders were recognised by the expert panel, most frequently dystonia (16/24), myoclonus (7/24) and ataxia (6/24). Mean HRQOL (49.63, SD 21.78) was significantly lower than for other chronic disorders in childhood (e.g. malignancy, diabetes mellitus, rheumatic disease, psychiatric disorders; p <0.001) and tended to diminish with the severity of the movement disorder. The majority of participants had delayed adaptive functioning, most evident in their activities of daily living (51.92%, SD 27.34). Delay in adaptive functioning had a significant impact upon HRQOL (p = 0.018)., Conclusions: A broad spectrum of movement disorders was seen in patients with IEM, although only five were receiving treatment. The overall HRQOL in this population is significantly reduced. Delay in adaptive functioning, most frequently seen in relation to activities of daily living, and the severity of the movement disorder contribute to this lower HRQOL. We plead for a greater awareness of movement disorders and that specialists should be asked to diagnose and treat these wherever possible.

Published

2014

31. Ataxia rating scales are age-dependent in healthy children.

Author

Brandsma R, Spits AH, Kuiper MJ, Lunsing RJ, Burger H, Kremer HP, and Sival DA

Subjects

Achievement, Adolescent, Age Factors, Ataxia epidemiology, Child, Child, Preschool, Cross-Sectional Studies, Disability Evaluation, Female, Humans, Male, Neuropsychological Tests statistics & numerical data, Observer Variation, Pilot Projects, Psychomotor Disorders classification, Psychomotor Disorders diagnosis, Psychomotor Disorders epidemiology, Reference Values, Sports, Statistics as Topic, Ataxia classification, Ataxia diagnosis, Neurologic Examination statistics & numerical data

Abstract

Aim: To investigate ataxia rating scales in children for reliability and the effect of age and sex., Method: Three independent neuropaediatric observers cross-sectionally scored a set of paediatric ataxia rating scales in a group of 52 healthy children (26 males, 26 females) aged 4 to 16 years (mean age 10y 5mo SD 3y 11mo). The investigated scales involved the commonly applied International Cooperative Ataxia Rating Scale (ICARS), the Scale for Assessment and Rating of Ataxia (SARA), the Brief Ataxia Rating Scale (BARS), and PEG-board tests. We investigated the interrelatedness between individual ataxia scales, the influence of age and sex, inter- and intra-observer agreement, and test-retest reliability., Results: Spearman's rank correlations revealed strong correlations between ICARS, SARA BARS, and PEG-board test (all p<0.001). ICARS, SARA, BARS and PEG-board test outcomes were age-dependent until 12.5, 10, 11, and 11.5 years of age respectively. Intraclass correlation coefficients (ICCs) varied between moderate and almost perfect (interobserver agreement: 0.85, 0.72, and 0.69; intraobserver agreement: 0.92, 0.94, and 0.70; and test-retest reliability: 0.95, 0.50, and 0.71; for ICARS, SARA, and BARS respectively). Interobserver variability decreased after the sixth year of life., Interpretation: In healthy children, ataxia rating scales are reliable, but should include age-dependent interpretation in children up to 12 years of age. To enable longitudinal interpretation of quantitative ataxia rating scales in children, European paediatric normative values are necessary., (© 2014 Mac Keith Press.)

Published

2014

32. Long-term outcome in pyridoxine-dependent epilepsy.

Author

Bok LA, Halbertsma FJ, Houterman S, Wevers RA, Vreeswijk C, Jakobs C, Struys E, Van Der Hoeven JH, Sival DA, and Willemsen MA

Subjects

Adolescent, Age Factors, Aldehyde Dehydrogenase genetics, Brain pathology, Child, Child, Preschool, Cohort Studies, Corpus Callosum pathology, DNA Mutational Analysis, Developmental Disabilities diagnosis, Developmental Disabilities drug therapy, Developmental Disabilities genetics, Epilepsy drug therapy, Epilepsy genetics, Female, Humans, Infant, Infant, Newborn, Leukoencephalopathies diagnosis, Leukoencephalopathies drug therapy, Leukoencephalopathies genetics, Magnetic Resonance Imaging, Male, Pregnancy, Pyridoxine therapeutic use, Retrospective Studies, Epilepsy diagnosis

Abstract

Aim: The long-term outcome of the Dutch pyridoxine-dependent epilepsy cohort and correlations between patient characteristics and follow-up data were retrospectively studied., Method: Fourteen patients recruited from a national reference laboratory were included (four males, 10 females, from 11 families; median age at assessment 6y; range 2y 6mo-16y). The following data were retrieved: sex; age at seizure onset; age at the start of pyridoxine therapy; level of urinary alpha-aminoadipic semialdehyde; antiquitin mutations; developmental milestones; evaluation of neurocognitive functioning and school career; magnetic resonance imaging (MRI) and electroencephalography (EEG) assessments., Results: Pyridoxine was started antenatally in two children, in the first week of life in five, in the first month of life in three, or after the first month of life (range 2.5-8mo) in four. No child was physically disabled; however, only five walked at 2 years of age. Mental development was delayed in most: median IQ or developmental index was 72 (SD 19). Pyridoxine monotherapy controlled seizures in 10 of 14 children, whereas four needed additional antiepileptic drugs. Seizure persistence, antiepileptic drugs (other than pyridoxine), EEG background, and epileptiform activity were not associated with outcome. On neonatal MRI, structural and white matter abnormalities occurred in five of eight children; on follow-up, the number of abnormal MRIs was increased. Delayed initiation of pyridoxine medication and corpus callosum abnormalities were significantly associated with unfavourable neurodevelopmental outcome, but normal follow-up imaging did not predict a good outcome., Interpretation: Outcome of patients with pyridoxine-dependent epilepsy remains poor. Individual outcome cannot be predicted by the evaluated characteristics. We suggest that collaborated research in structured settings could help to improve treatment strategies and outcome for pyridoxine-dependent epilepsy., (© The Authors. Developmental Medicine & Child Neurology © 2012 Mac Keith Press.)

Published

2012

33. Fetal endoscopic myelomeningocele closure preserves segmental neurological function.

Author

Verbeek RJ, Heep A, Maurits NM, Cremer R, Hoving EW, Brouwer OF, van der Hoeven JH, and Sival DA

Subjects

Arnold-Chiari Malformation diagnostic imaging, Arnold-Chiari Malformation mortality, Arnold-Chiari Malformation physiopathology, Arnold-Chiari Malformation surgery, Comorbidity, Disability Evaluation, Female, Follow-Up Studies, Gestational Age, Humans, Infant, Infant, Newborn, Intraoperative Complications diagnostic imaging, Intraoperative Complications mortality, Intraoperative Complications physiopathology, Intraoperative Complications surgery, Male, Meningomyelocele diagnostic imaging, Meningomyelocele mortality, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal physiopathology, Neurologic Examination, Postoperative Complications diagnostic imaging, Postoperative Complications mortality, Postoperative Complications physiopathology, Prognosis, Risk Factors, Spina Bifida Cystica diagnostic imaging, Spina Bifida Cystica mortality, Spina Bifida Cystica physiopathology, Treatment Outcome, Ultrasonography, Prenatal, Fetoscopy methods, Meningomyelocele physiopathology, Meningomyelocele surgery, Spina Bifida Cystica surgery

Abstract

Aim:   Our aim was to compare the effect of prenatal endoscopic with postnatal myelomeningocele closure (fetally operated spina bifida aperta [fSBA]) versus neonatally operated spina bifida aperta [nSBA]) on segmental neurological leg condition., Method:   Between 2003 and 2009, the fetal surgical team (Department of Obstetrics, University of Bonn, Germany) performed 19 fetal endoscopic procedures. Three procedures resulted in fetal death, three procedures were interrupted by iatrogenic hemorrhages and 13 procedures were successful. We matched each successfully treated fSBA infant with another nSBA infant of the same age and level of lesion, resulting in 13 matched pairs (mean age 14 mo; SD 16 mo; f/m=1.6; female-16, male-10). Matched fSBA and nSBA pairs were compared in terms of segmental neurological function and leg muscle ultrasound density (MUD). We also determined intraindividual difference in MUD (dMUD) between myotomes caudal and cranial to the myelomeningocele (reflecting neuromuscular damage by the myelomeningocele) and compared dMUD between fSBA and nSBA infants. Finally, we correlated dMUD with segmental neurological function., Results:   We found that, on average, the fSBA group were born at a lower gestational age than the nSBA group (median 32 wks [range 25-34 wks] vs 39 wks [34-41 wks]; p=0.001) and experienced more complications (chorioamnionitis, premature rupture of the amniotic membranes, oligohydramnios, and infant respiratory distress syndrome necessitating intermittent positive-pressure ventilation). Neurological function was better preserved after fSBA than after nSBA (median motor and sensory gain of two segments; better preserved knee-jerk [p=0.006] and anal [p=0.032] reflexes). The dMUD was smaller in fSBA than in nSBA infants (mean difference 24, 95% confidence interval [CI] 15-33; p<0.05), which was associated with better preserved segmental muscle function., Interpretation:   Fetal endoscopic surgery is associated with spinal segmental neuroprotection, but it results in more complications. Before considering clinical implementation of fetal endoscopic myelomeningocele closure as standard care, the frequency of complications should be appropriately reduced and results assessed in larger groups over a longer period of time., (© The Authors. Developmental Medicine & Child Neurology © 2011 Mac Keith Press.)

Published

2012

34. In children with Friedreich ataxia, muscle and ataxia parameters are associated.

Author

Sival DA, Pouwels ME, Van Brederode A, Maurits NM, Verschuuren-Bemelmans CC, Brunt ER, Du Marchie Sarvaas GJ, Verbeek RJ, Brouwer OF, and Van Der Hoeven JH

Subjects

Adolescent, Case-Control Studies, Child, Disability Evaluation, Evoked Potentials physiology, Female, Humans, Male, Muscle Strength Dynamometer, Muscle, Skeletal diagnostic imaging, Reaction Time physiology, Regression Analysis, Retrospective Studies, Ultrasonography methods, Friedreich Ataxia pathology, Friedreich Ataxia physiopathology, Muscle Strength physiology, Muscle, Skeletal physiopathology

Abstract

Aim: In children with Friedreich ataxia (FRDA), ataxia is assessed using the surrogate marker the International Cooperative Ataxia Rating Scale (ICARS). We aimed to determine whether ICARS scores in children with FRDA are confounded by muscle weakness., Method: In 12 children with FRDA (10 males, two females; mean age 13 y 6 mo, SD 2 y 6 mo) and 12 age-matched children without FRDA (nine males; three females), we determined the association between muscle and ataxia parameters (i.e. muscle ultrasound density (MUD), muscle force, sensory evoked potentials, and ICARS scores). Children with FRDA were included on the basis of FXN gene analysis. Children in the comparison group were included on basis of uneventful pregnancy and normal cognitive and neurological development., Results: In children with FRDA, muscle ultrasound density was homogeneously increased in the biceps, quadriceps, and tibialis anterior muscles (median 4SD). FRDA muscle weakness was significantly more pronounced in proximal than in distal muscles (-2SD vs -0.5SD respectively; p=0.004), with a stronger impairment of leg muscles than of arm muscles (-2SD vs -0. SD respectively; p=0.001). Comparing MUD between children with FRDA and an age-matched comparison group revealed a relatively strong increase in MUD in the proximal leg muscles in the FRDA group. Under the condition of persistently absent sensory evoked potentials, leg ICARS subscores in the FRDA group appeared to be positively associated with leg muscle force until a maximal plateau level of ICARS subscores was reached., Interpretation: In children with FRDA, ataxia scales based on ICARS are confounded by muscle weakness. Longitudinal ICARS evaluations in children with FRDA do not necessarily indicate altered ataxia., (© The Authors. Developmental Medicine & Child Neurology © 2011 Mac Keith Press.)

Published

2011

35. Neuroependymal denudation is in progress in full-term human foetal spina bifida aperta.

Author

Sival DA, Guerra M, den Dunnen WF, Bátiz LF, Alvial G, Castañeyra-Perdomo A, and Rodríguez EM

Subjects

Fetus, Fluorescent Antibody Technique, Humans, Hydrocephalus etiology, Hydrocephalus pathology, Microscopy, Confocal, Spina Bifida Cystica complications, Cerebral Aqueduct pathology, Ependyma pathology, Spina Bifida Cystica pathology

Abstract

In human spina bifida aperta (SBA), cerebral pathogenesis [hydrocephalus, Sylvius aqueduct (SA) stenosis and heterotopias] is poorly understood. In animal models, loss of ventricular lining (ependymal denudation) causes SA stenosis and hydrocephalus. We aimed to investigate whether ependymal denudation also takes place in human foetal SBA. Considering that ependymal denudation would be related to alterations in junction proteins, sections through SA of five SBA and six control foetuses (gestational ages ranged between 37 and 40 weeks) were immunostained for markers of ependyma (caveolin 1, βIV-tubulin, S100), junction proteins (N-cadherin, connexin-43, neural cell adhesion molecule (NCAM), blood vessels (Glut-1) and astrocytes [glial fibrillary acidic protein (GFAP)]. In control foetuses, ependymal denudation was absent. In SBA foetuses different stages of ependymal denudation were observed: (i) intact ependyma/neuroepithelium; (ii) imminent ependymal denudation (with abnormal subcellular location of junction proteins); (iii) ependymal denudation (with protrusion of neuropile into SA, formation of rosettes and macrophage invasion); (iv) astroglial reaction. It is suggested that abnormalities in the formation of gap and adherent junctions result in defective ependymal coupling, desynchronized ciliary beating and ependymal denudation, leading to hydrocephalus. The presence of various stages of ependymal denudation within the same full-term SBA foetuses suggests continuation of the process after birth.

Published

2011

36. The EEG response to pyridoxine-IV neither identifies nor excludes pyridoxine-dependent epilepsy.

Author

Bok LA, Maurits NM, Willemsen MA, Jakobs C, Teune LK, Poll-The BT, de Coo IF, Toet MC, Hagebeuk EE, Brouwer OF, van der Hoeven JH, and Sival DA

Subjects

Diagnosis, Differential, Electroencephalography statistics & numerical data, Epilepsy diagnosis, Epilepsy drug therapy, Epilepsy genetics, Female, Humans, Infant, Infant, Newborn, Male, Munc18 Proteins genetics, Pyridoxine therapeutic use, Spasms, Infantile diagnosis, Spasms, Infantile genetics, Aldehyde Dehydrogenase genetics, Electroencephalography drug effects, Mutation genetics, Pyridoxine administration & dosage, Pyridoxine pharmacology

Abstract

Purpose: Pyridoxine-dependent epilepsy (PDE) is characterized by therapy-resistant seizures (TRS) responding to intravenous (IV) pyridoxine. PDE can be identified by increased urinary alpha-aminoadipic semialdehyde (α-AASA) concentrations and mutations in the ALDH7A1 (antiquitin) gene. Prompt recognition of PDE is important for treatment and prognosis of seizures. We aimed to determine whether immediate electroencephalography (EEG) alterations by pyridoxine-IV can identify PDE in neonates with TRS., Methods: In 10 neonates with TRS, we compared online EEG alterations by pyridoxine-IV between PDE (n = 6) and non-PDE (n = 4). EEG segments were visually and digitally analyzed for average background amplitude and total power and relative power (background activity magnitude per frequency band and contribution of the frequency band to the spectrum)., Results: In 3 of 10 neonates with TRS (2 of 6 PDE and 1 of 4 non-PDE neonates), pyridoxine-IV caused flattening of the EEG amplitude and attenuation of epileptic activity. Quantitative EEG alterations by pyridoxine-IV consisted of (1) decreased central amplitude, p < 0.05 [PDE: median -30% (range -78% to -3%); non-PDE: -20% (range -45% to -12%)]; (2) unaltered relative power; (3) decreased total power, p < 0.05 [PDE: -31% (-77% to -1%); -27% (-73% to -13%); -35% (-56% to -8%) and non-PDE: -16% (-43% to -5%); -28% (-29% to -17%); -26% (-54% to -8%), in delta-, theta- and beta-frequency bands, respectively]; and (4) similar EEG responses in PDE and non-PDE., Discussion: In neonates with TRS, pyridoxine-IV induces nonspecific EEG responses that neither identify nor exclude PDE. These data suggest that neonates with TRS should receive pyridoxine until PDE is fully excluded by metabolic and/or DNA analysis., (Wiley Periodicals, Inc. © 2010 International League Against Epilepsy.)

Published

2010

37. Bilateral polymicrogyria as the indicative feature in a child with a 22q11.2 deletion.

Author

Gerkes EH, Hordijk R, Dijkhuizen T, Sival DA, Meiners LC, Sikkema-Raddatz B, and van Ravenswaaij-Arts CM

Subjects

Cerebral Cortex abnormalities, Developmental Disabilities genetics, DiGeorge Syndrome genetics, Humans, Infant, Intellectual Disability genetics, Magnetic Resonance Imaging, Male, Microcephaly genetics, Chromosome Deletion, Chromosomes, Human, Pair 22, Malformations of Cortical Development genetics

Abstract

Polymicrogyria (PMG) is a brain malformation due to abnormal cortical organisation. It is a heterogeneous disorder associated with 22q11.2 deletion syndrome (also known as velocardiofacial (VCF) syndrome) amongst others. Since this association was first recognised in 1996, over 30 patients with PMG and 22q11.2 deletion have been described. In 22q11.2 deletion syndrome, PMG is mainly located in the perisylvian areas; it frequently has an asymmetrical presentation with a striking predisposition for the right hemisphere. Neurological features of perisylvian PMG include developmental delay/mental retardation, seizures, microcephaly, spasticity and oromotor dysfunction. Thus in children diagnosed with 22q11.2 deletion syndrome, a finding of PMG has important prognostic value. We present a seven-month old boy with microcephaly, short stature and developmental delay. A cerebral MRI showed slightly enlarged ventricles and symmetrical perisylvian polymicrogyria. A 22q11.2 deletion was revealed by array-based comparative genomic hybridization. Remarkably the boy had no other manifestations of VCF syndrome. Paediatricians, child neurologists and clinical geneticists should be aware that the presence of PMG (especially in the perisylvian areas) needs investigating for 22q11.2 deletion, even if other more common VCF syndrome features are absent., (Copyright © 2010 Elsevier Masson SAS. All rights reserved.)

Published

2010

38. Neonatal high pressure hydrocephalus is associated with elevation of pro-inflammatory cytokines IL-18 and IFNgamma in cerebrospinal fluid.

Author

Sival DA, Felderhoff-Müser U, Schmitz T, Hoving EW, Schaller C, and Heep A

Abstract

Background: In human neonatal high pressure hydrocephalus (HPHC), diffuse white matter injury and gliosis predispose to poor neuro-developmental outcome. The underlying mechanism for diffuse white matter damage in neonatal HPHC is still unclear. Analogous to inflammatory white matter damage after neonatal hypoxemia/ischemia, we hypothesized that pro-inflammatory cytokines could be involved in neonatal HPHC. If so, early anti-inflammatory therapy could ameliorate white matter damage in HPHC, before irreversible apoptosis has occurred. In HPHC and control neonates, we therefore aimed to compare cerebrospinal fluid (CSF) concentrations of IL18, IFNgamma and sFasL (interleukin 18, interferon gamma and apoptosis marker soluble-Fas ligand, respectively)., Methods: In neonatal HPHC (n = 30) and controls (n = 15), we compared CSF concentrations of IL18, IFNgamma and sFasL using sandwich ELISA. HPHC was grouped according to etiology: spina bifida aperta (n = 20), aqueduct stenosis (n = 4), and fetal intra-cerebral haemorrhage (n = 6). Neonatal control CSF was derived from otherwise healthy neonates (n = 15), who underwent lumbar puncture for exclusion of meningitis., Results: In all three HPHC groups, CSF IL18 concentrations were significantly higher than control values, and the fetal intracranial haemorrhage group was significantly higher than SBA group. Similarly, in all HPHC groups CSF-IFNgamma concentrations significantly exceeded the control group. In both HPHC and control neonates, CSF FasL concentrations remained within the range of reference values., Conclusion: Independent of the pathogenesis, neonatal HPHC is associated with the activation of the pro-inflammatory cytokines (IL-18 and IFNgamma) in the CSF, whereas CSF apoptosis biomarkers (sFasL) were unchanged. This suggests that anti-inflammatory treatment (in addition to shunting) could be helpful to preserve cerebral white matter.

Published

2008

39. Novel homozygous ALS2 nonsense mutation (p.Gln715X) in sibs with infantile-onset ascending spastic paralysis: the first cases from northwestern Europe.

Author

Verschuuren-Bemelmans CC, Winter P, Sival DA, Elting JW, Brouwer OF, and Müller U

Subjects

Adult, Child, Preschool, Europe, Female, Humans, Male, Pedigree, Siblings, Amyotrophic Lateral Sclerosis genetics, Cerebral Palsy genetics, Codon, Nonsense, Exons genetics, Genetic Diseases, Inborn genetics, Guanine Nucleotide Exchange Factors genetics

Abstract

We describe a previously not recognized nonsense mutation in exon 10 of the ALS2 gene in two sibs with infantile-onset ascending spastic paralysis. The mutation predicts chain termination at amino-acid position 715 of the gene product ALSIN (p.Gln715X). The sibs' parents are descendants of a common ancestor who lived in the northern Netherlands during the eighteenth century. This is the first ALS2 mutation detected in northwestern Europeans. The findings emphasize that mutations in ALS2 also need to be considered in patients from northwestern Europe with early-onset spastic paralysis and amyotrophic or primary lateral sclerosis.

Published

2008

40. Pathogenesis of cerebral malformations in human fetuses with meningomyelocele.

Author

de Wit OA, den Dunnen WF, Sollie KM, Muñoz RI, Meiners LC, Brouwer OF, Rodríguez EM, and Sival DA

Abstract

Background: Fetal spina bifida aperta (SBA) is characterized by a spinal meningomyelocele (MMC) and associated with cerebral pathology, such as hydrocephalus and Chiari II malformation. In various animal models, it has been suggested that a loss of ventricular lining (neuroepithelial/ependymal denudation) may trigger cerebral pathology. In fetuses with MMC, little is known about neuroepithelial/ependymal denudation and the initiating pathological events.The objective of this study was to investigate whether neuroepithelial/ependymal denudation occurs in human fetuses and neonates with MMC, and if so, whether it is associated with the onset of hydrocephalus., Methods: Seven fetuses and 1 neonate (16-40 week gestational age, GA) with MMC and 6 fetuses with normal cerebral development (22-41 week GA) were included in the study. Identification of fetal MMC and clinical surveillance of fetal head circumference and ventricular width was performed by ultrasound (US). After birth, MMC was confirmed by histology. We characterized hydrocephalus by increased head circumference in association with ventriculomegaly. The median time interval between fetal cerebral ultrasound and fixing tissue for histology was four days., Results: At 16 weeks GA, we observed neuroepithelial/ependymal denudation in the aqueduct and telencephalon together with sub-cortical heterotopias in absence of hydrocephalus and/or Chiari II malformation. At 21-34 weeks GA, we observed concurrence of aqueductal neuroepithelial/ependymal denudation and progenitor cell loss with the Chiari II malformation, whereas hydrocephalus was absent. At 37-40 weeks GA, neuroepithelial/ependymal denudation coincided with Chiari II malformation and hydrocephalus. Sub-arachnoidal fibrosis at the convexity was absent in all fetuses but present in the neonate., Conclusion: In fetal SBA, neuroepithelial/ependymal denudation in the telencephalon and the aqueduct can occur before Chiari II malformation and/or hydrocephalus. Since denuded areas cannot re-establish cell function, neuro-developmental consequences could induce permanent cerebral pathology.

Published

2008

41. Pyridoxine induces non-specific EEG alterations in infants with therapy resistant seizures.

Author

Teune LK, vd Hoeven JH, Maurits NM, Bos AF, Alffenaar JW, Reijngoud DJ, Brouwer OF, and Sival DA

Subjects

Female, Humans, Infant, Infant, Newborn, Male, Pyridoxine therapeutic use, Seizures drug therapy, Statistics, Nonparametric, Vitamin B Complex therapeutic use, Electroencephalography drug effects, Pyridoxine pharmacology, Seizures physiopathology, Vitamin B Complex pharmacology

Abstract

Purpose: In infants with frequent therapy resistant seizures (TRS-infants), clinical detection of pyridoxine-dependency (PD) or -responsiveness (PR) occurs by empirical intravenous (IV) pyridoxine administration during recording of the EEG. However, in undiagnosed TRS-infants it is still unclear to what extent EEG alterations by pyridoxine-IV are attributable to PD/PR or to non-specific responses. Before EEG alterations by pyridoxine-IV can be ascribed to PD/PR, these non-specific responses should be excluded first., Methods: In 10 TRS-infants under 1 year of age, we determined the EEG effect by pyridoxine-IV on the EEG-recording., Results: After pyridoxine-IV administration, our data indicate declined (10-15%; p<0.05) EEG-amplitudes and total power (magnitude/frequency-band) at frontal, central and centro-temporal electrodes., Conclusion: In TRS-infants, pyridoxine-IV affects EEG-amplitude and -total power in a non-specific way, which does not identify PD/PR.

Published

2007