[Open, non-comparative phase III clinical study to evaluate the efficacy and safety of sapropterin in patients with phenylketonuria and hyperphenylalaninemia].

BACKGROUND: Phenylketonuria (PKU) is an autosomal recessive inherited disease associated with impaired metabolism of the amino acids phenylalanine (Phe) and tyrosine. The main criterion for diagnosis of PKU is high blood Phe level determined during neonatal screening. In case where PKU patient is responsive to tetrahydrobiopterin treatment, sapropterin restores the impaired activity of the enzyme phenylalanine hydroxylase, resulting in the stimulation of normal Phe metabolism and thereby enhancing patient tolerance to natural products. AIM: The present open, non-comparative clinical study was initiated to assess the degree and frequency of response after 8-day sapropterin administration and assess the safety of 6-week sapropterin treatment in patients with PKU and hyperphenylalaninemia. PATIENTS AND METHODS: The study enrolled 90 patients with PKU. The criterion of response to 8-day sapropterin therapy was the reduction of Phe blood levels ≥ 30% compared with the baseline value. RESULTS: Positive response to treatment was observed in 30 (33.3%) patients (95% CI 23.7-44.1). The mean percentage change in Phe blood levels after the 8-day response test period compared to Phe levels prior to dosing was 14.1 ± 28.4% in the overall subject population (95% CI 8.2-20.1) and 44.3 ± 15.1% in the subpopulation of patients with a positive response (95% CI 38.6-49.9). During the study, adverse events were reported in 24 (26.7%) patients in the overall population in 16 (53.3%) patients in the subpopulation who had a response. CONCLUSION: The study results confirmed the efficacy and safety of sapropterin therapy in patients with PKU, which is consistent with international clinical trials data.

[Syndrome Leigh caused by mutations in the SURF1 gene: clinical and molecular-genetic characteristics].

Syndrome Leigh (SL) or subacute necrotizing encephalomyelopathy - is a rare hereditary genetically heterogeneous disease from the group of mitochondrial encephalomyopathies. Twenty-seven children with SL were examined using clinical, laboratory (measuring lactate levels), MRI and molecular-genetic (polymerase chain reaction genotyping of 9 exons of the SURF1 gene) studies. The mean age of manifestation was 11,6 months. The main manifestations of SL were: delay of psychomotor development, diffuse muscle hypertonic, cerebellar syndrome, ophthalmoparesis, hypertrichosis. The disease had a progressive course with the loss of acquired skills. The blood lactate concentration was increased on average up to 3,1 mM/ml (from 1,9 to 5,1 mM/ml) compared to normal values (1,8 mM/ml). Brain MRI revealed the subcortical and cortical atrophy (80% of cases), symmetrical distinctly delineated hyperintense lesions on T2-weighted images (demyelization) in the basal ganglia and the brain stem (50%), as well as in the cerebellum (25%). Genotyping identified 7 different mutations. The most frequent (64,8%) was the deletion of 2 nucleotides (845delCT) in exon 8 that was in line with early data of Polish researchers thus indicating the Slavic origin of this mutation. Other mutations (574-575insCTGT, 311-321del10insAT and IVS8-1G>) were also frequent in the Russian population.

[Study of the duplication of 17p11.2-12 chromosome region in the patients with hereditary motor and sensory neuropathy type 1A]. / Doslidzhennia duplikatsiï khromosomnoï dilianky 17p11.2-12 u hvorykh iz spadkovoiu motosensornoiu nevropatiieiu typu 1A.

Charcot-Marie-Tooth neuropathy (CMT) is one of the most common hereditary disorders, affecting 1:2500 individuals. CMT is a heterogeneous group of disorders characterized by chronic peripheral motor and sensory neuropathy. We have performed the detection of 1.5 Mb CMT1A tandem duplication in 17p11.2-12 chromosome region for autosome-dominant CMT1 patients and their relatives using the analysis of two (CA)n polymorphic microsatellite loci: 17S921 and 17S1358 localised in the duplication region. CMT1A duplication was found in three of five autosome-dominant CMT1 families. It has been shown that CMT1A duplication analysis is important for early differential diagnosis of CMT including prenatal diagnosis and genetic consulting in high risk families.