UMLS:C1762617 - FACTA Search

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Query: UMLS:C1762617 (weakness)
37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three genetic loci for the Charcot-Marie-Tooth (CMT) syndromes with slow motor nerve conduction velocities (hereditary motor and sensory neuropathy: HMSN type I) have been mapped to chromosomes 1 (CMT1B), 17 (CMT1A), and the X chromosome (CMTX). The clinical features of these three CMT subgroups are similar. To determine whether any clinical features distinguish CMTX families, the range of clinical findings and motor nerve conduction velocities were examined in two large CMTX families, the range of clinical findings and motor nerve conduction velocities were examined in two large CMTX families with CMTX proven by linkage to X-chromosome markers. CMTX males had more wasting and weakness than CMTX females or individuals with CMT1A. Patellar reflexes were more often retained in CMTX. Motor nerve conduction velocities were faster than in CMT1A. Intermediate-range median nerve conduction velocities were present in CMTX females (45 +/- 9 m/sec; range, 26 to 61 m/sec). These velocities were significantly faster than those for CMT1A females (22 +/- 8 m/sec, p < 0.0001). Median nerve conduction velocities in CMTX males (31 +/- 6 m/sec) were significantly slower than in CMTX females and faster than in CMT1A males (20 +/- 6 m/sec, p < 0.0001). The combination of slow conduction velocities in affected males (< 40 m/sec) and intermediate-range median motor conduction velocity results (> 40 m/sec) in affected or obligate carrier females is a useful distinguishing feature to separate CMTX from CMT1A, as intermediate conduction velocities are not present in autosomal-dominant dominant CMT1A families. This feature defines possible CMTX families for linkage studies. Families with no male-to-male inheritance of the syndrome, slow motor nerve conductions in affected males, and normal or intermediate-range conduction velocities in carrier females should be considered to be X-linked CMT families.
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PMID:Intermediate nerve conduction velocities define X-linked Charcot-Marie-Tooth neuropathy families. 825 57

A clinical and electrophysiological study was performed in 119 Type 1A Charcot-Marie-Tooth disease (CMT1A) patients with proven 17p11.2 duplication. Onset of the first functional manifestations was in the first decade in 50% of cases and before the age of 20 years in 70% of cases. The predominant clinical signs were muscle weakness and wasting in the lower limbs. None of the patients was normal on clinical examination and all presented at least pes cavus or ankle jerk areflexia. Motor nerve conduction velocity (MNCV) was uniformly reduced in all nerves, and was < or = 33 m/s in the median nerve for all patients. Sensory potentials were abnormal in all cases, even where there was no clinical sensory loss. Needle electromyography recruitment was reduced in distal muscles for all patients. MNCV slowing was fully consistent with the presence of duplication even in clinically asymptomatic individuals or in children, confirming the complete electrophysiological penetrance of 17p11.2 duplication and making median nerve MNCV a reliable tool for screening affected at-risk individuals. Functional disability was mild. Ninety-six percent of patients were autonomous; 25% were asymptomatic and diagnosed by systematic family investigation especially on the basis of median nerve MNCV reduction. Early age at onset and greatly reduced median nerve MNCV were predictive of a more severe disease course; the earlier the onset the more reduced the median nerve MNCV and the higher the functional disability tended to be after an equivalent disease duration. Cross-sectional analysis of neurological deficit, functional deficit and MNCV according to disease duration showed that, regardless of age at onset, CMT1A disease with 17p11.2 duplication is a clinically progressive disorder. Neurological deficit and functional disability increased, whereas median nerve MNCV and compound muscle action potential (CMAP) amplitude did not change with disease course. Intrafamilial phenotype variation between parents and children and between siblings was studied in large families. Functional disability and neurological deficit differed widely and the highest range of median nerve MNCV within a family reached 23 m/s. Clinical and electrophysiological data were compared with those of CMT1B patients with peripheral myelin P0 protein point mutation. CMT1A patients were found to be more severely affected with more prolonged distal motor latency and more reduced CMAP amplitude, whereas MNCV did not significantly differ, indicating that peripheral myelin P0 protein point mutation is not always associated with a severe phenotype. The same genetic defect (17p11.2 duplication) results in variable expression within the phenotype, even in siblings with variations in age at onset, clinical severity and MNCV slowing. This phenotypic variation could be due to additional genetic factors related to peripheral myelin protein 22 expression as well as to other endogenous or environmental factors.
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PMID:Charcot-Marie-Tooth disease type 1A with 17p11.2 duplication. Clinical and electrophysiological phenotype study and factors influencing disease severity in 119 cases. 918 52

Charcot-Marie-Tooth disease type 1A (CMT1A) is an autosomal dominant demyelinating peripheral neuropathy. Most patients with CMT1A including sporadic cases have been found to have a 1.5 megabase tandem DNA duplication in chromosome 17 p11.2-p12 (CMT1A duplication). We reported a 7-year-old girl with sporadic CMT 1 associated with the CMT1A duplication. The diagnosis of CMT 1 was based on the symmetrical distal muscle weakness, per cavus deformity, reduced motor and sensory nerve conduction velocities, and segmental de- and remyelinatin on sural nerve biopsy. To detect the CMT 1A duplication, peripheral myelin protein 22 (PMP-22) cDNA and a polymorphic marker in this region, VAW409 R3, were employed as probes for Southern blot analysis. Sporadic cases of autosomal dominant-CMT type 1 can not be clinically differentiated from recessive-CMT1. Testing for the CMT1A duplication is an important first step even in the molecular diagnosis of sporadic CMT1.
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PMID:[A sporadic case of Charcot-Marie-Tooth disease type 1 A associated with a duplication in chromosome 17 p11.2-p12]. 1048 71

Hereditary neuropathy with liability to recurrent pressure-sensitive palsies (HNPP; also called tomaculous neuropathy) is an autosomal dominant disorder that produces an episodic, recurrent demyelinating neuropathy. HNPP generally develops during adolescence, and may cause attacks of numbness, muscular weakness, and atrophy. Peroneal palsies, carpal-tunnel syndrome, and other entrapment neuropathies are frequent manifestations of this disorder. Motor and sensory nerve conduction velocities may be reduced in clinically affected patients, as well as in asymptomatic gene carriers. Pathological changes observed in peripheral nerves of HNPP patients include segmental demyelination and tomaculous or "sausage-like" formations. Because of mild overlap of clinical features with CMT1, HNPP patients may be misdiagnosed as having CMT1. HNPP and CMT1 are both demyelinating neuropathies; however, their clinical, pathological, and electrophysiological features are quite distinct. The HNPP locus maps to chromosome 17p11.2-12 and is associated with a 1.5-Mb deletion. DNA markers known to map to the region in 17p11.2-12 associated with the CMT1A duplication, including the PMP22 gene, are deleted in HNPP. The deletion breakpoints in HNPP map to the same intervals in which the CMT1A duplication breakpoints map. In one pedigree, de novo deletion of paternal origin was detected as a basis for sporadic HNPP. HNPP results from deletion of the PMP22 gene and underexpression of this locus, which is reflected in reduced mRNA and protein levels in sural nerve biopsy samples from HNPP patients. Further support for this hypothesis was provided by the identification of a nondeleted HNPP kindred in which a two base pair deletion and early termination codon within exon 1 of PMP22 was present. The possibility of genetic heterogeneity in HNPP was raised by the identification of an HNPP pedigree that did not demonstrate linkage to the region of 17p11.2-12. Hereditary neuralgic amyotrophy (familial brachial plexus neuropathy) is an autosomal dominant disorder causing painful, recurrent brachial plexopathies and maps to chromosome 17q25.
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PMID:Overview of hereditary neuropathy with liability to pressure palsies. 1058 25

We have developed a protocol to measure the progression of disability in patients with Charcot Marie Tooth (CMT) disease, particularly CMT1 over a several year period. Because CMT1 is a chronic disease, the natural history of changes occurring in such a brief period are not well understood, making clinical trials for CMT1 patients difficult to evaluate. We hypothesize that weakness in CMT1 correlates with axonal loss secondary to the abnormalities in Schwann cell myelin gene expression, which cause the disease. To test this hypothesis, we elected to carefully evaluate CMT patients by various modalities to measure strength, sensory loss, and axonal loss and demyelination and to compare these modalities to determine whether they correlated with findings on clinical examination. As suspected, patient weakness correlates more with secondary axonal loss than with demyelination, even though the primary abnormality in CMT1 is demyelination.
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PMID:Correlation between weakness and axonal loss in patients with CMT1A. 1058 81

Mutations in the gene for the peripheral myelin protein zero (P0, MPZ) cause type 1B of Charcot-Marie-Tooth sensorimotor neuropathy (CMT1B). Here we report a German family with a novel heterozygous P0 nonsense mutation (G206X) that supposedly removes four-fifths of the amino acid residues constituting the P0 intracellular domain. The 12-year-old propositus had childhood-onset CMT1B associated with bilateral pes cavus, moderate lower limb weakness, and mildly reduced sensory qualities in the distal legs. The electrophysiology was consistent with a demyelinating neuropathy. He inherited the mutation from his mother who had no complaints but slight pes cavus deformity and slow nerve conduction velocities (NCV). Conclusively, truncating mutations within the P0 intracellular domain do not necessarily cause a severe phenotype such as Dejerine-Sottas syndrome (DSS) or congenital hypomyelinating neuropathy (CHN), but can result in mild or moderate CMT1B with intrafamilial clinical variability.
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PMID:Phenotypic variation of a novel nonsense mutation in the P0 intracellular domain. 1170 Nov 52

Charcot-Marie-Tooth disease comprises a heterogeneous group of hereditary neuropathies which fall into two main groups: demyelinating CMT1 with reduced nerve conduction velocity and axonal CMT2 with normal nerve conduction velocity. The neuropathological features correspond in most cases to this classification. Four genes were recently identified to cause autosomal dominant CMT2, including the neurofilament light gene. Thus far, only few mutations have been reported in neurofilament light involving eight amino acids of the gene. We identified a novel mutation, Glu397Lys, in a conserved motive signaling the end of the rod domain. The affected family members from three generations showed strikingly different clinical phenotypes, including weakness of the lower extremities, foot deformities, and deafness. The mutation was associated with nerve conduction velocities ranging from 27 m/s in a 25-year-old female to 43 m/s in an 82-year-old male in the lower extremity motor nerves. Sural nerve biopsies of two affected subjects were analyzed by light and electron microscopy. The pathological changes consisted of a reduction of predominantly large myelinated nerve fibers and various stages of onion bulb formation as typically seen in CMT1. This correlative study further confirms that neurofilament light gene mutations cause a wide clinical spectrum. Thus, analysis of the neurofilament light gene should not be restricted to pure axonal neuropathies.
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PMID:The novel neurofilament light (NEFL) mutation Glu397Lys is associated with a clinically and morphologically heterogeneous type of Charcot-Marie-Tooth neuropathy. 1473 62

A nationwide study of CMT and FAP has been performed. In FAP TTR Met30 families with late onset, neuropathy showed male preponderance, low penetrance, little relationship to endemic foci, sensorimotor symptoms beginning distally in the lower extremities with disturbance of both superficial and deep sensation, and relatively mild autonomic symptoms, consistent with pathological findings. In contrast, families with early onset showed higher penetrance, concentration in endemic foci, predominant loss of superficial sensation, severe autonomic dysfunction. Demyelinating versus axonal phenotypes are major issues in CMT. CMT1A duplication caused mainly demyelinating phenotype, while axonal features were variably present. In CMT1B, two distinctive phenotypic subgroups were present: one showed exclusively axonal features; and another was exclusively demyelinating. CMTX showed intermediate slowing of MCV, predominantly axonal features, and relatively mild demyelinating pathology. Differing from CMT1B, these axonal and demyelinating features were concomitantly present in individual patients in variable extent. Median nerve MCVs were well maintained independently of age, disease duration, and severity of clinical and pathologic abnormalities. Amplitude of CMAPs was correlated significantly with distal muscle strength, indicating that clinical weakness results from reduced numbers of functional large axons, not from demyelination. CMT patients with demyelinating and/or axonal features, together with FAP patients with axonal feature and scattered distribution, are supposed to increase according to the development of genetic diagnosis for hereditary neuropathy that verifies late-onset, de novo and asymptomatic patients.
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PMID:[Clinical phenotype of Charcot-Marie-Tooth disease (CMT) and familial amyloid polyneuropathy (FAP)]. 1515 60

Charcot-Marie-Tooth (CMT) disease is a clinically and genetically heterogeneous group of inherited peripheral neuropathies characterized by progressive weakness and atrophy of distal limb muscles. Recently, SIMPLE/LITAF was shown to be responsible for an autosomal dominant demyelinating form of CMT linked to 16p (CMT1C). Although two transcripts encoding different proteins (SIMPLE and LITAF) have been reported from the same gene, we could not confirm the existence of LITAF. Here we show that the LITAF transcript appears to result from a DNA sequencing error. We screened the SIMPLE gene for mutations in a cohort of 192 patients with CMT or related neuropathies, each of whom tested negative for other known genetic causes of CMT. In 16 unrelated CMT families we identified nine different nucleotide variations in SIMPLE that were not detected in control chromosomes. SIMPLE mutations can occur de novo, associated with sporadic CMT1 and may convey both demyelinating and axonal forms. Bioinformatics analyses and other observations of SIMPLE suggest that 1) it could be a member of the RING finger motif-containing subfamily of E3 ubiquitin ligases that are associated with the ubiquitin-mediated proteasome processing pathway, 2) it could interact through its PPXY motifs with a WW domain containing protein, for instance with NEDD4, an E3 ubiquitin ligase, and 3) it could interact through the PSAP motif with TSG10, a protein associated with endosomal multivesicular protein sorting. Since both SIMPLE and Hrs are endosomal proteins and have both PPXY and P(S/T)AP motifs, we hypothesize that SIMPLE, like Hrs, is potentially a clathrin adaptor aiding in the retention of ubiquitinated proteins on to the endosomes. Thus the potential E3 ubiquitin ligase activity of SIMPLE, alteration in its interactions with NEDD4 or TSG101, or changes in its properties as a clathrin coat adaptor may underlie the pathogenesis of Charcot-Marie-Tooth disease.
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PMID:SIMPLE mutations in Charcot-Marie-Tooth disease and the potential role of its protein product in protein degradation. 1577 29

Charcot-Marie-Tooth disease is a clinically and genetically heterogeneous group of inherited neuropathies. The common clinical symptoms include distal muscle weakness, wasting and impaired distal sensation, more in the legs than in the arms, and reduced or absent reflexes. Moreover, foot and hand deformities are often encountered. A distinction between a primarily demyelinating or axonal neuropathy is often possible by means of nerve conduction studies. The major groups of inheritance are the autosomal dominant CMT1 (demyelinating), CMT2 (axonal) and the X-linked type (CMTX), but there are also autosomal recessive demyelinating (CMT4) and axonal (AR-CMT2) forms. The number of genes and loci is steadily increasing, with genes encoding proteins involved in myelin maintenance and axonal function, but also with genes encoding proteins, the function of which in peripheral nerve maintenance is notyet clear. Despite the increase in the number of known genes, especially for CMT2, there are many patients in whom no mutation can yet be found.
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PMID:[From gene to disease; Charcot-Marie-Tooth disease or the hereditary motor and sensory neuropathies]. 1603 95

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