RESUMO
Objective: Uniparental isodisomy can lead to blended phenotypes of imprinting disorders and autosomal recessive diseases. To determine whether a presentation of Prader-Willi syndrome (PWS) and progressive neurologic symptoms was caused by uniparental isodisomy, a detailed clinical and molecular characterization was performed. Methods: A combination of clinical, molecular, and imaging data was included in this study. Results: We present the case of a 12-year-old boy with a blended phenotype of PWS and hereditary spastic paraplegia type 11 (HSP-SPG11) caused by maternal uniparental isodisomy of chromosome 15 (UPiD(15)mat) covering a loss-of-function variant in SPG11 (NM_025137.4: c.733_734del; p.Met245ValfsTer2). Although symptoms in early childhood including hypotonia, global developmental delay, hyperphagia, obesity, and seizures were consistent with PWS, additional features of progressive spastic paraparesis, parkinsonism, and cognitive decline in later childhood were atypical. Brain MR imaging showed thinning of the corpus callosum and signal abnormalities of the forceps minor, consistent with a "ears of the lynx" sign. Exome sequencing confirmed a frameshift variant in SPG11 located in the PWS imprinting region on chromosome 15. Discussion: This case highlights that atypical clinical features in patients with well-described imprinting disorders should lead to investigations for recessive conditions caused by variants in genes that localize to the region of homozygosity, including autosomal recessive forms of HSP.
RESUMO
In patients who undergo metabolic decompensation from urea cycle disorders, cerebrospinal fluid glutamine level may be a better marker of cerebral dysfunction than blood ammonia or glutamine levels. However, obtaining cerebrospinal fluid by lumbar puncture carries risk in these acutely ill patients with cerebral edema. Using magnetic resonance single voxel spectroscopy as an alternative to cerebrospinal fluid analysis, elevated brain glutamine/glutamate complex levels were detected in a patient with carbamyl phosphate synthetase deficiency, who had been comatose for many days after normalization of blood ammonia and improvement in blood glutamine levels. Brain glutamine by single voxel spectroscopy decreased toward normal with neurologic recovery. We conclude that brain glutamine may be a better marker than serum ammonia for the management of urea cycle disorders, particularly in patients with prolonged mental status changes.