Classic and Atypical Late Infantile Neuronal Ceroid Lipofuscinosis in Latin America: Clinical and Genetic Aspects, and Treatment Outcome with Cerliponase Alfa.

Introduction: Late infantile neuronal ceroid lipofuscinosis type 2 (CLN2), is a neurodegenerative autosomal recessive disease caused by TPP1 gene variants, with a spectrum of classic and atypical phenotypes. The aim of treatment is to slow functional decline as early as possible in an attempt to improve quality of life and survival. This study describes the clinical characteristics as well as the response to treatment with cerliponase alfa. Materials and methods: A retrospective study was conducted in five Latin-American countries, using clinical records from patients with CLN2. Clinical follow-up and treatment variables are described. A descriptive and bivariate statistical analysis was performed. Results: A total of 36 patients were observed (range of follow-up of 61-110 weeks post-treatment). At presentation, patients with the classic phenotype (n = 16) exhibited regression in language (90%), while seizures were the predominant symptom (87%) in patients with the atypical phenotype (n = 20). Median age of symptom onset and time to first specialized consultation was 3 (classical) and 7 (atypical) years, while the median time interval between onset of symptoms and treatment initiation was 4 years (classical) and 7.5 (atypical). The most frequent variant was c.827 A > T in 17/72 alleles, followed by c.622C > T in 6/72 alleles. All patients were treated with cerliponase alfa, and either remained functionally stable or had a loss of 1 point on the CLN2 scale, or up to 2 points on the Wells Cornel and Hamburg scales, when compared to pretreatment values. Discussion and conclusion: This study reports the largest number of patients with CLN2 currently on treatment with cerliponase alfa in the world. Data show a higher frequency of patients with atypical phenotypes and a high allelic proportion of intron variants in our region. There was evidence of long intervals until first specialized consultation, diagnosis, and enzyme replacement therapy. Follow-up after the initiation of cerliponase alfa showed slower progression or stabilization of the disease, associated with adequate clinical outcomes and stable functional scores. These improvements were consistent in both clinical phenotypes.

Transitional Care for Young People with Movement Disorders: Consensus-Based Recommendations from the MDS Task Force on Pediatrics.

Background: The International Parkinson and Movement Disorders Society (MDS) set up a working group on pediatric movement disorders (MDS Task Force on Pediatrics) to generate recommendations to guide the transition process from pediatrics to adult health care systems in patients with childhood-onset movement disorders. Methods: To develop recommendations for transitional care for childhood onset movement disorders, we used a formal consensus development process, using a multi-round, web-based Delphi survey. The Delphi survey was based on the results of the scoping review of the literature and the results of a survey of MDS members on transition practices. Through iterative discussions, we generated the recommendations included in the survey. The MDS Task Force on Pediatrics were the voting members for the Delphi survey. The task force members comprise 23 child and adult neurologists with expertise in the field of movement disorders and from all regions of the world. Results: Fifteen recommendations divided across four different areas were made pertaining to: (1) team composition and structure, (2) planning and readiness, (3) goals of care, and (4) administration and research. All recommendations achieved consensus with a median score of 7 or greater. Conclusion: Recommendations on providing transitional care for patients with childhood onset movement disorders are provided. Nevertheless several challenges remain in the implementation of these recommendations, related to health infrastructure and the distribution of health resources, and the availability of knowledgeable and interested practitioners. Research on the influence of transitional care programs on outcomes in childhood onset movement disorders is much needed.

The clinical and biochemical hallmarks generally associated with GLUT1DS may be caused by defects in genes other than SLC2A1.

Glucose transporter 1 deficiency syndrome (GLUT1DS) is a neurometabolic disorder caused by haploinsufficiency of the GLUT1 glucose transporter (encoded by SLC2A1) leading to defective glucose transport across the blood-brain barrier. This work describes the genetic analysis of 56 patients with clinical or biochemical GLUT1DS hallmarks. 55.4% of these patients had a pathogenic variant of SLC2A1, and 23.2% had a variant in one of 13 different genes. No pathogenic variant was identified for the remaining patients. Expression analysis of SLC2A1 indicated a reduction in SLC2A1 mRNA in patients with pathogenic variants of this gene, as well as in one patient with a pathogenic variant in SLC9A6, and in three for whom no candidate variant was identified. Thus, the clinical and biochemical hallmarks generally associated with GLUT1DS may be caused by defects in genes other than SLC2A1.

Aproximación clínica al diagnóstico diferencial de los trastornos del movimiento en la infancia / Clinical approach to the differential diagnosis of childhood movement disorders

El control del movimiento implica redes complejas que relacionan diferentes aspectos de la neuroanatomía, bioquímica, fisiología de los ganglios basales, cerebelo y sus conexiones. En la aproximación clínica de este tipo de trastorno debemos orientarnos según el tipo de movimiento hacia la etiología y, si bien, lo clásico es definir estos trastornos según el tipo de movimiento, existen otras propuestas de un sistema de clasificación que los divide en 4 categorías principales que incluyen: Trastornos Transitorios del Desarrollo, Trastornos del Movimiento Paroxísticos, Trastornos de movimiento secundarios a causas no hereditarias y Trastornos Hereditarios-Metabólicos, que será el enfoque de esta revisión. Palabras claves: desórdenes del movimiento, tics, movimientos paroxísticos, movimientos transitorios del desarrollo. Movimientos hereditarios-metabólicos

The motion control involves complex networks that relate different aspects of neuroanatomy, biochemistry, physiology of the basal ganglia, cerebellum and its connections. The clinical approach of this type of disorder is guided to etiology by the type of movement, and while these disorders have been classically defined according to the type of movement, there is another proposed classification system that divides them in 4 main categories that include: transient developmental movement disorders, paroxysmal movement disorders, non-hereditary and hereditary-metabolic movement disorders, which will be the focus of this review. Key words: disordes of movements, tics, movements of hereditary and metabolic disorders, transient movements of the development

¿Crisis febriles complejas o síndrome de Dravet?: Descripción de 3 casos clínicos / Complex febrile Seizures or Dravet syndrome?: Description of 3 case reports

Introduction: Dravet syndrome (DS) is one of the most intractable forms of epilepsy that begins in infancy. This syndrome is characterized by beginning with complex febrile seizures (FS) in a healthy infant and progresses to refractory epilepsy with psychomotor regression. The detection of a SCN1A mutation encoding the sodium channel can confirm the diagnosis. Objective: To report 3 confirmed cases of genetically DS. Case reports: We describe 3 girls diagnosed with complex FS that started when they were between 2 and 7 months old. FS were frequent, hemi generalized and myoclonic associated with recurrent febrile status epilepticus (SE). Despite FS and SE recurrence, the psychomotor development, electrophysiological studies and magnetic resonance imaging (MRI) of the brain were normal. After a year, they developed afebrile seizures progressing to refractory epilepsy with developmental regression. A molecular study detected SCN1A mutation confirming DS. The specific antiepileptic treatment and prevention of febrile episodes allowed partial control of epilepsy with some recovery of psychomotor skills. Conclusions: The high frequency complex FS associated with recurrent SE in a previously healthy infant should alert about the possibility of DS. Molecular diagnostics helps us to establish a drugs and non-drug therapies treatment, as well as long-term prognosis and genetic counseling.

Introducción: El Síndrome de Dravet (SD) es una de las formas más intratables de epilepsia que debuta en lactantes con convulsiones febriles (CF) complejas recurrentes que evolucionan posteriormente a epilepsia refractaria con regresión psicomotora. La detección de una mutación del canal de Sodio (SCN1A) permite certificar el diagnóstico. Objetivo: Reportar 3 casos de SD confirmados genéticamente. Casos clínicos: Se describen 3 niñas con diagnóstico de CF complejas iniciadas entre los 2 y 7 meses de edad. Las CF eran frecuentes, hemigeneralizadas, mioclónicas asociadas a status epilepticus (SE) febriles recurrentes. A pesar de la recurrencia de CF y SE, tanto el desarrollo psicomotor como los estudios electrofisiológicos y la resonancia magnética (RM) cerebral, fueron normales. Posterior al año iniciaron crisis afebriles que evolucionaron a epilepsia refractaria con regresión del desarrollo. El estudio molecular detectó la mutación SCN1A confirmando SD. El tratamiento antiepiléptico específico y la prevención de cuadros febriles permitieron un control parcial de la epilepsia con recuperación de algunas habilidades psicomotoras. Conclusiones: La alta frecuencia de CF complejas asociadas a SE recurrentes en un lactante previamente sano, debe alertar sobre la posibilidad de un SD. El diagnóstico molecular nos permite instaurar un tratamiento antiepiléptico y terapias no farmacológicas además de un pronóstico a largo plazo y consejería genética.