1/5. Proton MR spectroscopy in connatal pelizaeus-merzbacher disease.BACKGROUND: pelizaeus-merzbacher disease (PMD) is a rare dysmyelinating disorder characterised by early pendular nystagmus, often rotatory and muscular hypotonia with subsequent ataxia, spasticity and mental retardation. Various point mutations or duplications in the PLP gene on the x chromosome are responsible for PMD in the majority of patients. Autosomal recessive inheritance, particularly in the connatal form, cannot be excluded. Three different forms of the disease have been identified based on their onset, progression and severity of myelin pathology indicated by MRI features. Objective. To determine if MR spectroscopy is useful in the diagnosis of the connatal form of PMD. MATERIALS AND methods: Proton MR spectroscopy was performed on two children with connatal PMD. RESULTS: Our patients showed a markedly decreased peak of Cho. This alteration is well represented by quantitative analysis of the NAA-to-Cho ratio, which is the most important ratio affected. A significant decrease of the Cho-to-Cr ratio is also present. In the connatal form of PMD, global lack of myelination may be relevant, as demonstrated by a significant Cho peak reduction. CONCLUSIONS: Proton MR spectroscopy may be of diagnostic value in metabolic and destructive disorders of the brain. A greater number of patients with connatal PMD is needed in order to elucidate the significance of reduction of the Cho peak.- - - - - - - - - - ranking = 1keywords = brain (Clic here for more details about this article) |
2/5. A severe connatal form of Pelizaeus Merzbacher disease in a Czech boy caused by a novel mutation (725C>A, Ala242Glu) at the 'jimpy(msd) codon' in the PLP gene.Pelizaeus Merzbacher disease (PMD) is an X-linked recessive disorder of the central nervous system myelination caused by mutations involving the proteolipid protein gene (PLP). Early nystagmus and developmental delay, progressive pyramidal, cerebellar and dystonic signs as well as white matter changes in brain MRI are typical for PMD. The PLP gene can be affected by two major types of mutations. A duplication of the whole PLP gene is the most common mutation and results usually in the milder classical phenotype, whereas point mutations in PLP gene often result in the rarer and more severe connatal form of PMD. The PLP protein is a higly conserved across species and is identical in human, mouse and rat. We describe a 13-year-old Czech boy with an early and severe developmental delay. His maternal uncle died at the age of one year and was also early and severely psychomotoricly retarded. The patient was the first child of healthy unrelated parents born after an uneventful pregnancy and delivery in 1988. hyperbilirubinemia and bronchopneumonia and early stridor complicated his neonatal period. Diffuse hypotonia, nystagmus, psychomotor retardation, visual and hearing impairment have been observed in the patient since the age of 6 weeks. White matter abnormalities, cortical and periventricular atrophy were detected by MRI at the age of 6 and 11 years, respectively. Despite these signs and results an accurate clinical diagnosis was unclear until the age of 11 years. Last neurological examination in 1999 showed no nystagmus anymore, but extremely dystrophic limbs, truncal deformation, due to severe scoliosis, tetraplegia with hyperreflexia in C5C7 and areflexia L2S2 and positive pyramidal signs. The boy had no visual or speech contact. dna tests followed the clinical suspicion for PMD. At first, duplication of PLP gene was excluded by quantitative comparative PCR. Direct sequencing of PLP gene detected a novel mutation in exon 6, a missense mutation 725C-->A (Ala242Glu) in the patient and in his mother and later also in his maternal grandmother. The same codon, but to valine (Ala242Val) is mutated in jimpy(msd) mouse, which is the frequently used animal model for PMD. prenatal diagnosis for the next pregnancy has been offered to the family. The patient died recently at the age of 13 years due to respiratory failure. Our results support the data on the importance of this conserved amino acid alanine at codon 242.- - - - - - - - - - ranking = 15.483237937775keywords = central nervous system, nervous system, brain (Clic here for more details about this article) |
3/5. pelizaeus-merzbacher disease: electrophysiological study of two sibs with the classic form and of their relatives.We examined two sibs with the classic form of pelizaeus-merzbacher disease (PMD) and their relatives. Electromyographic-electroneurographic studies and magnetic stimulation of motor pathways were performed. In both patients we found an absence of compound motor action potential (cMAP) after stimulation of the motor cortex and a normal conduction time by stimulating the cervical roots. Despite reported sparing of the peripheral nervous system in PMD, our conduction study of the tibial nerve revealed a slightly decreased motor nerve conduction velocity in one patient. In both patients the EMG study showed neurogenic findings. The elder sister showed a prolonged central motor conduction time. This study demonstrates abnormalities of motor corticospinal pathways also in PMD relatives suggesting that magnetic stimulation could be useful in detecting "subclinical" abnormalities in this dysmyelinating condition. Furthermore, in accordance with previous studies, we suggest that a slight involvement of the peripheral nervous system could be observed in PMD.- - - - - - - - - - ranking = 3.6960472177617keywords = nervous system (Clic here for more details about this article) |
4/5. Three young adult patients with pelizaeus-merzbacher disease who showed only waves I and II in auditory brainstem responses but had good auditory perception.Three young adult males with pelizaeus-merzbacher disease have been followed up since childhood. This disease is thought to be a dysmyelinating disorder of the brain during the prenatal period caused by gene mutations. The patients manifested horizontal nystagmus and severe rigidity of the extremities. Although the patients showed only waves I and II in auditory brainstem responses, they had relatively good hearing ability at approximately equal to dB. They could not speak words at all but could hear well and enjoy listening to conversation and music. One of them had a normal hearing threshold in pure-tone audiometry and a normal speech discrimination rate in speech audiometry. This can be explained by a nerve conduction blockade through dysmyelinated axons or the desynchronization of neurons and nerves responsible for the waves following waves I and II. At present, all three patients are living with their families. We report their present hearing, speech and language abilities.- - - - - - - - - - ranking = 6keywords = brain (Clic here for more details about this article) |
5/5. Preimplantation genetic diagnosis for pelizaeus-merzbacher disease with testing for age-related aneuploidies.pelizaeus-merzbacher disease (PMD) is an X-linked recessive demyelinating disorder of the central nervous system, caused by mutations of the proteolipid protein 1 gene (PLP1 gene). As no specific therapy is available for PMD, preimplantation genetic diagnosis (PGD) may be a useful option for couples carrying this mutation. PGD was performed for a couple who had had one child with the L86P mutation in exon 3 of the PLP1 gene. Because of advanced maternal age, PGD for this single-gene disorder was performed together with testing for chromosomal abnormalities. polar bodies and blastomeres were tested for the presence of maternal mutation and closely linked markers DXS8020 and PLP5' (CA)n. The same blastomeres were also tested for the copy number of chromosomes 13, 16, 18, 21, 22, X and Y, and five chromosomally abnormal embryos were identified. A total of three embryos predicted to be unaffected and free of chromosomal disorder were transferred back to the patient, resulting in a twin pregnancy and the birth of two healthy female infants confirmed to be free of PMD, representing the first PGD for PMD combined with aneuploidy testing.- - - - - - - - - - ranking = 14.483237937775keywords = central nervous system, nervous system (Clic here for more details about this article) |