Glenda Corrêa Borges de Lacerda scite author profile

Patients with epilepsy may suffer from renal or hepatic diseases that interfere with their antiepileptic drug (AED) treatment. Furthermore, such diseases may themselves cause seizures. Reduced renal function and hypoalbuminemia lead to accumulation of renally excreted AEDs, such as gabapentin, vigabatrin, topiramate, levetiracetam, and phenytoin. Valproate, lamotrigine, and benzodiazepines are less affected. Low protein-bound AEDs are extensively removed by hemodialysis and supplemental doses are required for dialysis patients. Uremia and related conditions, including intracranial hemorrhage, glucose and electrolyte imbalances, and concomitant drug use, can cause seizures, as can dialysis encephalopathy, primary cerebral lymphoma, fungal infections, and immunosuppressant toxicity in renal transplant recipients. Hepatic dysfunction reduces enzymatic metabolism of AEDs and causes hypoalbuminemia. Gabapentin, topiramate, and levetiracetam are preferred in these conditions, whereas conversely valproate and felbamate are potentially hepatotoxic and should be avoided. Seizures related to hepatic encephalopathy are controlled by oral lactulose or neomycin. Porphyria sufferers may benefit from gabapentin, oxcarbazepine, or levetiracetam. Seizures in Wilson's disease may derive from d-penicillamine-induced pyridoxine deficiency. Effective treatment of seizures in renal and hepatic diseases requires attention to changes in AED pharmacokinetics and adequate care of the underlying illnesses. Monitoring of free drug concentrations is a valuable aid to therapy.

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A novel in-frame deletion affecting the BAR domain of OPHN1 in a family with intellectual disability and hippocampal alterations

Santos-Rebouças

Belet

Almeida

et al. 2013

Eur J Hum Genet

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Oligophrenin-1 (OPHN1) is one of at least seven genes located on chromosome X that take part in Rho GTPase-dependent signaling pathways involved in X-linked intellectual disability (XLID). Mutations in OPHN1 were primarily described as an exclusive cause of non-syndromic XLID, but the re-evaluation of the affected individuals using brain imaging displayed fronto-temporal atrophy and cerebellar hypoplasia as neuroanatomical marks. In this study, we describe clinical, genetic and neuroimaging data of a three generation Brazilian XLID family co-segregating a novel intragenic deletion in OPHN1. This deletion results in an in-frame loss of exon 7 at transcription level (c.781_891del; r.487_597del), which is predicted to abolish 37 amino acids from the highly conserved N-terminal BAR domain of OPHN1. cDNA expression analysis demonstrated that the mutant OPHN1 transcript is stable and no abnormal splicing was observed. Features shared by the affected males of this family include neonatal hypotonia, strabismus, prominent root of the nose, deep set eyes, hyperactivity and instability/ intolerance to frustration. Cranial MRI scans showed large lateral ventricles, vermis hypoplasia and cystic dilatation of the cisterna magna in all affected males. Interestingly, hippocampal alterations that have not been reported in patients with loss-of-function OPHN1 mutations were found in three affected individuals, suggesting an important function for the BAR domain in the hippocampus. This is the first description of an in-frame deletion within the BAR domain of OPHN1 and could provide new insights into the role of this domain in relation to brain and cognitive development or function.

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Neurologic Presentations of Renal Diseases

2010

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