Variability of phenotype in two sisters with pyridoxine dependent epilepsy.

BACKGROUND: Pyridoxine dependent epilepsy (PDE) is characterized by neonatal epileptic encepahalopathy responsive to pharmacological doses of vitamin B6. Recently an autosomal recessive deficiency in Antiquitin (ALDH7A1), a gene involved in the catabolism of lysine has been identified as the underlying cause. CASE REPORT: In 21 and 23 year-old sisters, who had presented with neonatal / early infantile onset seizures, PDE was confirmed by elevated urinary alpha aminoadipic- 6- semialdehyde (α-AASA) excretion and compound heterozygosity for two known ALDH7A1 missense mutations. Although epilepsy was well controlled upon treatment with pyridoxine, thiamine, phenytoin and carbamazepine since early infancy, both had developmental delay with prominent speech delay as children. As adults, despite the same genetic background and early treatment with pyridoxine, their degree of intellectual disability (ID) differed widely. While the older sister's cognitive functions were in the moderate ID range and she was not able to live unattended, the younger sister had only mild ID and was able to live independently. CONCLUSION: Although seizures are a defining feature of PDE, other disease manifestations can vary widely even within the same family. Adult neurologists should be aware that the diagnosis of PDE can be delayed and PDE should be considered in the differential diagnosis of adults with seizure disorders dating from childhood.

Profound neonatal hypoglycemia and lactic acidosis caused by pyridoxine-dependent epilepsy.

Pyridoxine-dependent epilepsy (PDE) was first described in 1954. The ALDH7A1 gene mutations resulting in α-aminoadipic semialdehyde dehydrogenase deficiency as a cause of PDE was identified only in 2005. Neonatal epileptic encephalopathy is the presenting feature in >50% of patients with classic PDE. We report the case of a 13-month-old girl with profound neonatal hypoglycemia (0.6 mmol/L; reference range >2.4), lactic acidosis (11 mmol/L; reference range <2), and bilateral symmetrical temporal lobe hemorrhages and thalamic changes on cranial MRI. She developed multifocal and myoclonic seizures refractory to multiple antiepileptic drugs that responded to pyridoxine. The diagnosis of α-aminoadipic semialdehyde dehydrogenase deficiency was confirmed based on the elevated urinary α-aminoadipic semialdehyde excretion, compound heterozygosity for a known splice mutation c.834G>A (p.Val278Val), and a novel putative pathogenic missense mutation c.1192G>C (p.Gly398Arg) in the ALDH7A1 gene. She has been seizure-free since 1.5 months of age on treatment with pyridoxine alone. She has motor delay and central hypotonia but normal language and social development at the age of 13 months. This case is the first description of a patient with PDE due to mutations in the ALDH7A1 gene who presented with profound neonatal hypoglycemia and lactic acidosis masquerading as a neonatal-onset gluconeogenesis defect. PDE should be included in the differential diagnosis of hypoglycemia and lactic acidosis in addition to medically refractory neonatal seizures.

Pyridoxine-dependent seizures caused by alpha amino adipic semialdehyde dehydrogenase deficiency: the first polish case with confirmed biochemical and molecular pathology.

Pyridoxine-dependent seizures are a rare condition recognized when numerous seizures respond to pyridoxine treatment and recur on pyridoxine withdrawal. For decades the diagnosis was confirmed only with pyridoxine treatment withdrawal trial. Recently described biochemical and molecular pathology improved the diagnostic process for those cases in which seizures are caused by alpha amino adipic semialdehyde dehydrogenase deficiency. This article presents a girl with recurrent status epilepticus episodes resistant to phenobarbital and phenytoin and partly responding to midazolam. Eventually the seizures were completely controlled with pyridoxine; however, due to the severe condition of this child when seizing, no trial of withdrawal has been performed. The diagnosis of pyridoxine-dependent seizures was confirmed with biochemical and molecular testing revealing elevated alpha-AASA excretion and the presence of 2 different mutations in the antiquitin ( ALDH7A1) gene. Due to the availability of reliable laboratory testing, confirmation of the diagnosis was made without the life-threatening trial of pyridoxine withdrawal.