We describe a novel, biotin-responsive basal ganglia disease in 10 patients. At onset, it appears as a subacute encephalopathy, with confusion, dysarthria and dysphagia with occasional supranuclear facial nerve palsy or external ophthalmoplegia, and progresses to severe cogwheel rigidity, dystonia and quadriparesis. These symptoms disappear within a few days if biotin (5-10 mg/kg/day) is administered, and there are no neurological sequelae. They reappear within 1 month if biotin is discontinued. Patients diagnosed late, or who have had repeated episodes, suffer from residual symptoms such as paraparesis, mild mental retardation or dystonia. The numerous biochemical studies of intermediary metabolism, like the autoimmune and toxicological studies, enzyme assays including biotinidase, carboxylase and lysosomal activities, and bacterial and viral studies were all normal. The aetiology may be related to a defect in the transporter of biotin across the blood-brain barrier. The only consistent radiological abnormality was central necrosis of the head of the caudate bilaterally and complete, or partial, involvement of the putamen on brain MRI. This was present during the initial acute encephalopathy and remained unchanged during follow-up of 3-10 years. Although its aetiology is unknown, it is important to recognize this disease, since its symptoms may be reversed and the progression of its clinical course prevented simply by providing biotin.
Biotin-responsive basal ganglia disease (BBGD) is a recessive disorder with childhood onset that presents as a subacute encephalopathy, with confusion, dysarthria, and dysphagia, and that progresses to severe cogwheel rigidity, dystonia, quadriparesis, and eventual death, if left untreated. BBGD symptoms disappear within a few days with the administration of high doses of biotin (5-10 mg/kg/d). On brain magnetic resonance imaging examination, patients display central bilateral necrosis in the head of the caudate, with complete or partial involvement of the putamen. All patients diagnosed to date are of Saudi, Syrian, or Yemeni ancestry, and all have consanguineous parents. Using linkage analysis in four families, we mapped the genetic defect near marker D2S2158 in 2q36.3 (LOD=5.9; theta=0.0) to a minimum candidate region (approximately 2 Mb) between D2S2354 and D2S1256, on the basis of complete homozygosity. In this segment, each family displayed one of two different missense mutations that altered the coding sequence of SLC19A3, the gene for a transporter related to the reduced-folate (encoded by SLC19A1) and thiamin (encoded by SLC19A2) transporters.
Metabolic profiling of amino acids and acylcarnitines from blood spots by automated electrospray tandem mass spectrometry (ESI-MS/MS) is a powerful diagnostic tool for inborn errors of metabolism. New approaches to sample preparation and data interpretation have helped establish the methodology as a robust, high-throughput neonatal screening method. We introduce an efficient 96-well-microplate batch process for blood-spot sample preparation, with which we can obtain high-quality profiles from 500-1000 samples per day per instrument. A computer-assisted metabolic profiling algorithm automatically flags abnormal profiles. We selected diagnostic parameters for the algorithm by comparing profiles from patients with known metabolic disorders and those from normal newborns. Reference range and cutoff values for the diagnostic parameters were established by measuring either metabolite concentrations or peak ratios of certain metabolite pairs. Rigorous testing of the algorithm demonstrates its outstanding clinical sensitivity in flagging abnormal profiles and its high cumulative specificity.
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