Untangling adaptive functioning of PMM2-CDG across age and its impact on parental stress: a cross-sectional study.

Phosphomannomutase deficiency (PMM2-CDG) leads to cerebellar atrophy with ataxia, dysmetria, and intellectual deficits. Despite advances in therapy, the cognitive and adaptive profile remains unknown. Our study explores the adaptive profile of 37 PMM2-CDG patients, examining its association with parental stress and medical characteristics. Assessment tools included ICARS for the cerebellar syndrome and NPCRS for global disease severity. Behavioral and adaptive evaluation consisted of the Vineland Adaptive Behavior Scale and the Health of the Nation Outcome Scales. Psychopathological screening involved the Child Behavior Checklist and the Symptom Check-List-90-R. Parental stress was evaluated using Parental Stress Index. Results were correlated with clinical features. No significant age or sex differences were found. 'Daily living skills' were notably affected. Patients severely affected exhibited lower adaptive skill values, as did those with lipodystrophy and inverted nipples. Greater severity in motor cerebellar syndrome, behavioral disturbances and the presence of comorbidities such as hyperactivity, autistic features and moderate-to-severe intellectual disability correlated with greater parental stress. Our study found no decline in adaptive abilities. We provide tools to assess adaptive deficits in PMM2-CDG patients, emphasizing the importance of addressing communication, daily living skills, and autonomy, and their impact on parental stress in clinical monitoring and future therapies.

Advanced Optical Microscopy: Unveiling Functional Insights Regarding a Novel PPP2R1A Variant and Its Unreported Phenotype.

The number of genes implicated in neurodevelopmental conditions is rapidly growing. Recently, variants in PPP2R1A have been associated with syndromic intellectual disability and a consistent, but still expanding, phenotype. The PPP2R1A gene encodes a protein subunit of the serine/threonine protein phosphatase 2A enzyme, which plays a critical role in cellular function. We report an individual showing pontocerebellar hypoplasia (PCH), microcephaly, optic and peripheral nerve abnormalities, and an absence of typical features like epilepsy and an abnormal corpus callosum. He bears an unreported variant in an atypical region of PPP2R1A. In silico studies, functional analysis using immunofluorescence, and super-resolution microscopy techniques were performed to investigate the pathogenicity of the variant. This analysis involved a comparative analysis of the patient's fibroblasts with both healthy control cells and cells from an individual with the previously described phenotype. The results showed reduced expression of PPP2R1A and the presence of aberrant protein aggregates in the patient's fibroblasts, supporting the pathogenicity of the variant. These findings suggest a potential association between PPP2R1A variants and PCH, expanding the clinical spectrum of PPP2R1A-related neurodevelopmental disorder. Further studies and descriptions of additional patients are needed to fully understand the genotype-phenotype correlation and the underlying mechanisms of this novel phenotype.

[Guillain-Barré syndrome and other autoimmune neurophaties: current therapy]. / Síndrome de Guillain-Barré y otras neuropatías autoinmunes: tratamiento actual.

Guillain-Barré syndrome (GBS) is characterized by rapidly progressive and generally ascending symmetrical muscle weakness, accompanied by decreased or absent osteotendinous reflexes. The inflammatory process may affect the myelin or the axon. There are 4 clinical forms of GBS: 1) acute inflammatory demyelinating polyradiculoneuropathy, 2) acute motor axonal neuropathy, 3) acute sensory and motor axonal neuropathy, and 4) the Miller-Fisher variant, which is characterized by ophthalmoplegia, ataxia and areflexia, with little muscle weakness. Diagnosis is based on the albumin-cytological dissociation observed at the end of the first week after the onset of symptoms and may persist until the third week, as well as on the specific neurophysiological alterations of each clinical form. The treatment of GBS will depend on the degree of severity, if the patient presents grade IV or less according to the Paradiso scale, it will be treated with Ig IV, if it presents grade V, the use of plasmapheresis and/or immunoadbosorption is recommended. In severe axonal cases, the use of corticosteroid bolus is recommended in initial stages. There is a clinical picture that overlaps GBS and chronic demyelinating polyneuropathy related to antibodies against neurophysin and contactin, in this case the appropriate therapy is rituximab.

El síndrome de Guillain-Barré (SGB) se caracteriza por debilidad muscular simétrica rápidamente progresiva y generalmente ascendente, acompañada de disminución o ausencia de reflejos osteotendinosos. El proceso inflamatorio puede afectar a la mielina o al axón. Existen 4 formas clínicas de SGB: 1) polirradiculoneuropatía desmielinizante inflamatoria aguda, 2) neuropatía axonal motora aguda, 3) neuropatía axonal sensitiva y motora aguda, y 4) la variante Miller-Fisher, que se caracteriza por oftalmoplejía, ataxia y arreflexia, con escasa debilidad muscular. El diagnóstico se basa en la disociación albúmino-citológica que se observa a final de la primera semana del inicio de los síntomas y puede persistir hasta la tercera semana, así como en las alteraciones neurofisiológicas específicas de cada forma clínica. El tratamiento el SGB, dependerá de la gravedad, si el paciente presenta grado IV o menor según la escala de Paradiso, se tratará con Ig IV, si presenta grado V, se recomienda el uso de plasmaféresis y/o inmunoadbosorción. En los casos axonales graves se recomienda el uso de bolus de corticoides en etapas iniciales. Existe un cuadro clínico que solapa SGB y polineuropatía desmielinizante crónica relacionado con anticuerpos contra neurofisina y contactina, en este caso la terapia adecuada es rituximab.

[Advances in the treatment of Duchenne muscular dystrophy]. / Avances en el tratamiento de la distrofia de Duchenne.

Duchenne muscular dystrophy is a genetically determined disease, linked to the X chromosome, c haracterized clinically by producing progressive muscle weakness, with an incidence of 1 per 3500-6000 males born. It is caused by the mutation of the DMD gene, which encodes dystrophin, a sub-sarcolemmal protein essential for structural muscle stability. The genetic defects in the DMD gene are divided into: deletions (65%) duplications (5.10%) and point mutations (10-15%). At present there is no curative treatment, the only drug that has been shown to modify the natural history of the disease (independently of the genetic mutation) are corticosteroids, currently indicated in early stages of the disease. In relation to clinical trials, in the last ten years, has experienced great advances in the field of therapeutic options, divided into two major therapeutic targets: 1) the area of gene therapies and 2) trying to reverse or block the pathophysiological processes of the disease, such as inflammation, fibrosis, muscle regeneration, etc. It is likely that an effective treatment for Duchenne muscular dystrophy requires combinations of therapies that address both the primary defect and its secondary pathophysiological consequences.

La distrofia muscular de Duchenne es una enfermedad genéticamente determinada, ligada al cromosoma X y caracterizada clínicamente por producir debilidad muscular progresiva, con una incidencia de 1 por cada 3500-6000 varones nacidos. Es causada por la mutaciones en el gen DMD, el cual codifica la distrofina, una proteína sub-sarcolémica esencial para la estabilidad estructural del músculo. Los defectos genéticos en el gen DMD, se dividen en: deleciones (65%) duplicaciones (5-10%) y mutaciones puntuales (10-15%). Actualmente no se dispone de tratamiento curativo, el único fármaco que ha demostrado modificar la historia natural de la enfermedad (independientemente de la mutación genética) son los corticoides, los cuales están indicados en estadios tempranos de la enfermedad. En relación a los ensayos clínicos, en los últimos diez años se han experimentado grandes avances en el campo de las opciones terapéuticas, divididos en dos grandes dianas terapéuticas: 1) el área de las terapias génicas y 2) tratar de revertir o bloquear los procesos fisiopatológicos de la enfermedad, tales como inflamación, fibrosis, regeneración muscular, etc. Es probable que un tratamiento eficaz para la distrofia muscular de Duchenne requiera combinaciones que se apliquen tanto al defecto primario como las consecuencias fisiopatológicas secundarias.

Avances en el tratamiento de la distrofia de Duchenne / Advances in the treatment of Duchenne muscular dystrophy

La distrofia muscular de Duchenne es una enfermedad genéticamente determinada, ligada al cromosoma X y caracterizada clínicamente por producir debilidad muscular progresiva, con una incidencia de 1 por cada 3500-6000 varones nacidos. Es causada por la mutaciones en el gen DMD, el cual codifica la distrofina, una proteína sub-sarcolémica esencial para la estabilidad estructural del músculo. Los defectos genéticos en el gen DMD, se dividen en: deleciones (65%) duplicaciones (5-10%) y mutaciones puntuales (10-15%). Actualmente no se dispone de tratamiento curativo, el único fármaco que ha demostrado modificar la historia natural de la enfermedad (independientemente de la mutación genética) son los corticoides, los cuales están indicados en estadios tempranos de la enfermedad. En relación a los ensayos clínicos, en los últimos diez años se han experimentado grandes avances en el campo de las opciones terapéuticas, divididos en dos grandes dianas terapéuticas: 1) el área de las terapias génicas y 2) tratar de revertir o bloquear los procesos fisiopatológicos de la enfermedad, tales como inflamación, fibrosis, regeneración muscular, etc. Es probable que un tratamiento eficaz para la distrofia muscular de Duchenne requiera combinaciones que se apliquen tanto al defecto primario como las consecuencias fisiopatológicas secundarias.

Duchenne muscular dystrophy is a genetically determined disease, linked to the X chromosome, c haracterized clinically by producing progressive muscle weakness, with an incidence of 1 per 3500-6000 males born. It is caused by the mutation of the DMD gene, which encodes dystrophin, a sub-sarcolemmal protein essential for structural muscle stability. The genetic defects in the DMD gene are divided into: deletions (65%) duplications (5.10%) and point mutations (10-15%). At present there is no curative treatment, the only drug that has been shown to modify the natural history of the disease (independently of the genetic mutation) are corticosteroids, currently indicated in early stages of the disease. In relation to clinical trials, in the last ten years, has experienced great advances in the field of therapeutic options, divided into two major therapeutic targets: 1) the area of gene therapies and 2) trying to reverse or block the pathophysiological processes of the disease, such as inflammation, fibrosis, muscle regeneration, etc. It is likely that an effective treatment for Duchenne muscular dystrophy requires combinations of therapies that address both the primary defect and its secondary pathophysiological consequences.