Neuropsychological profile and social cognition in congenital central hypoventilation syndrome (CCHS): Correlation with neuroimaging in a clinical case.

INTRODUCTION: Congenital central hypoventilation syndrome (CCHS) is a rare genetic disorder due to paired-like homeobox gene (PHOX2B) mutations. CCHS patients suffer from dysregulation of the autonomic nervous system characterized by the absence of or extremely reduced response to hypercapnia and hypoxia, with neuropsychological deficits. The aim of this exploratory study is to describe the longitudinal neuropsychological profile and its correlations with magnetic resonance imaging (MRI) of a child with CCHS with a PHOX2B mutation. METHOD: A comprehensive neuropsychological evaluation was conducted serially at age 7 years 4 months and 10 years 3 months, including assessment of intellectual functioning (IQ), motor functioning, perception, attention, executive functions, language, memory, social cognition, academic skills, and psychopathology. Reliable change index (RCI) scores were used to assess changes between assessments. We collected spin lattice relaxation time (T1)-weighted, fluid-attenuated inversion recovery (FLAIR), and spin spin lattice relaxation time (T2)-weighted images from the child at age 10 years 3 months using a 1.5-tesla MRI scanner. RESULTS: IQ, processing speed index (PSI), social cognition (theory of mind and facial emotion recognition), selective attention, naming, academic skills (reading/comprehension), and manual speed with right hand declined in the second evaluation relative to the initial evaluation, while visuoconstructional praxis, receptive vocabulary, working memory, and arithmetic skill improved. The patient showed a remarkable global deterioration in executive functions (planning, task flexibility, behavioral regulation, and metacognition) as revealed by parental report and clinical evaluation. MRI revealed gliosis from the head to tail of the hippocampus and thinning of parahippocampal gyri. CONCLUSIONS: In a clinical case of CCHS, serial evaluation revealed deterioration of executive functions and social cognition over a 3-year interval. These changes corresponded to hippocampal damage as revealed in MRI, which may have affected social cognition through its role in the default mode network. Serial neuropsychological assessment is clinically useful in managing the needs of these patients.

Alteraciones reversibles en la neuroimagen asociadas al tratamiento con vigabatrina en lactantes con espasmos epilépticos / Reversible alterations in the neuroimages associated with vigabatrine treatment in infants with epileptic spasms

Introducción. La vigabatrina (VGB) es un fármaco de primera línea para el tratamiento de espasmos infantiles. Diversos estudios han hallado anomalías en la resonancia magnética (RM) cerebral, que afectaban particularmente a los ganglios de la base, y especialmente en secuencias de difusión, en lactantes con espasmos que recibían VGB en altas dosis (> 100 mg/kg/día), y se ha observado la desaparición de las lesiones tras la retirada de dicho tratamiento. Casos clínicos. Se presentan dos casos clínicos con inicio de una encefalopatía epiléptica en el primer año de vida y crisis en forma de espasmos infantiles. Ambos recibieron tratamiento con distintos fármacos, entre ellos VGB hasta dosis de 200 mg/kg/día. Con 11 y 28 meses de vida, respectivamente, aparecían imágenes en la RM cerebral con una marcada hiperintensidad de señal en secuencias ponderadas en T2 en ambos pálidos, tálamos, porción posterior del tronco encefálico y núcleos dentados, que asociaban restricción en secuencias de difusión. Ambos disponían de estudios previos de RM, sin alteraciones. Tras excluir una metabolopatía subyacente, se decidió la retirada de la VGB y tres meses después, en una RM de control, se apreció la total reversibilidad de dichas lesiones. Conclusiones. Deben evaluarse con cautela los hallazgos de la RM cerebral en lactantes que reciban VGB en altas dosis para el tratamiento de espasmos. Su aparente efecto citotóxico sobre los ganglios de la base podría simular metabolopatías/ enfermedades mitocondriales. Conocer este efecto de la VGB y sus características típicas en la RM puede evitar pruebas innecesarias, como una biopsia muscular o un nuevo cribado metabólico (AU)

Introduction. Vigabatrin (VGB) is a first-line drug for the treatment of infantile spasms. Recently, several reports claim the existence of abnormalities in magnetic resonance imaging (MRI) (particularly affecting basal ganglia, and visible in T2 and diffusion sequences) in infants with spasms that were receiving high doses of VGB (> 100 mg/kg/day), which appear to be reversible after withdrawal of treatment. Case reports. We present two cases with an epileptic encephalopathy in the first year of life and seizures consisting of infantile spasms. Both were treated with several antiepileptic drugs, including VGB up to a maximum dosage of 200 mg/ kg/day. At the age of 11 and 28 months, respectively, MRI images showed marked signal hyperintensities on T2-sequences on bilateral globus pallidus, thalamus, posterior portion of the brainstem and dentate nuclei, also visible on diffusion sequences. Both had previous unaltered MRI studies. After excluding an underlying metabolic disease, VGB withdrawal is decided, appreciating the reversibility of those lesions in a prospective MRI study, three months later. Conclusions. We must consider and carefully evaluate findings on brain MRI in infants receiving VGB at high doses for treatment of spasms. The apparent cytotoxic effect on basal ganglia could simulate metabolic/mitochondrial diseases. By knowing this effect of VGB and its typical MRI features, unnecessary testing can be avoided in young infants with epileptic encephalopathies, including complex procedures like muscle biopsy or a new metabolic screening (AU)

Neuroimagen en las encefalopatías epilépticas del lactante / Neuroimaging in epileptic encephalopathies in infants

La resonancia magnética desempeña un papel crucial en el diagnóstico etiológico de las encefalopatías epilépticas, al poder identificar patrones etiológicamente específicos o sugestivos de diferentes entidades. Se revisan los principales hallazgos por resonancia magnética que se objetivan en las encefalopatías epilépticas sintomáticas (AU)

Magnetic resonance plays a vital role in the aetiological diagnosis of epileptic encephalopathies, since it is capable of identifying specific aetiological patterns or patterns which are suggestive of different conditions. We review the main magnetic resonance findings that are observed in symptomatic epileptic encephalopathies (AU)

Recommendations for the radiological diagnosis and follow-up of neuropathological abnormalities associated with tuberous sclerosis complex.

Tuberous sclerosis complex (TSC) is a genetic condition with multisystem involvement, characterized by the development of tumors and other abnormalities in organs such as the brain, retina, skin, heart, kidneys, and lungs. Most patients have neuropathological abnormalities such as cortical tubers, white matter radial migration lines, subependymal nodules, and subependymal giant cell astrocytomas (SEGAs). These lesions are associated with different neurological manifestations that are frequently associated with TSC. These manifestations consist of epilepsy, intellectual disability, and neurobehavioral and psychiatric problems, including autism spectrum disorder. Hydrocephalus may also develop in patients with SEGAs due to ventricular obstruction, when this usually slow-growing tumor reaches sufficient size. Surgery has been the classical approach to treat SEGAs, although this treatment is associated with substantial morbidity and does not completely prevent tumor recurrence. Recently, the mammalian target of rapamycin (mTOR) inhibitor, everolimus, has been approved by the Food and Drug Administration and the European Medicines Agency for the treatment of patients with SEGAs associated with TSC. However, the treatment of SEGAs with these agents requires the development of guidelines that establish a differential diagnosis between SENs and SEGAs, in which neuroradiological examinations play an essential role. With the aim of improving the neuroradiological diagnosis and follow-up of the neuropathological abnormalities associated with TSC, a group of experts in this field has reviewed different aspects related to these issues and put together, a series of statements and recommendations intended to provide guidance to specialists involved in the management of TSC.

Epiphyseal ewing sarcoma: first reported case with molecular confirmation.

Ewing sarcoma is the second most common pediatric malignant bone neoplasm after osteosarcoma. Ewing sarcoma comprises "small, round, blue-cell" tumors thought to arise from neural crest cells. The authors report the case of a 14-year-old boy that presented with a nonpainful circumscribed lesion. The radiographs showed a lytic lesion at the tibial epiphysis with a large soft tissue mass, best depicted in the magnetic resonance imaging scan that suggested an aggressive lesion. A needle biopsy of the lesion was performed. The diagnosis of Ewing sarcoma was made based on microscopic, immunohistochemical, polymerase chain reaction, and fluorescence in situ hybridization. This is the third case report about a primary epiphyseal Ewing sarcoma and the fist one with molecular confirmation.