This study contains the largest body of epidemiological data on Werdnig-Hoffmann disease (acute infantile spinal muscular atrophy; ASMA) in West-Thüringen in Germany. The incidence of ASMA was calculated to be 1 in 10,202 live births. The prevalence was 1 in 595,362 of the general population (as of 31 December 1987). The study gives an unexpectedly high incidence rate confirming the suggestion that ASMA in Central and Eastern Europe might be more frequent than in Western Europe. However, we consider that this high incidence rate in West-Thüringen is a result of the almost complete ascertainment made possible because of the well-organised and centralised health system existing in Thüringen over the last few decades.
This study presents the most extensive epidemiological data on chronic forms of spinal muscular atrophy in childhood (CSMA) in West-Thüringen in Germany. The incidence of CSMA was calculated to be 1 in 9,420 live births. The prevalence was 1.624 in 100,000 of the general population (as of 31 December 1980).
This study provides epidemiological data on acute infantile (ASMA) and chronic childhood spinal (CSMA) muscular atrophy in Warsaw for the period 1976-1985. All calculations are based on the assumption that ASMA and CSMA result from mutations at two different gene loci. The incidence of ASMA and CSMA was 1 in 19474 live births with a corresponding gene and carrier frequency of 714 x 10(-5) and 1 in 70, respectively. The prevalence of CSMA for the year 1985 was 1.26 x 10(-5). These figures are higher than in similar studies in other countries. This fact might be connected with the careful ascertainment in this study.
Two DNA markers, a random DNA fragment 754 and the cDNA sequence encoding the gene for ornithine transcarbamylase (OTC) have been studied in kindreds segregating for Duchenne muscular dystrophy. 754 and OTC are located close physically to the mutation in the region Xp21 below the breakpoints in two Duchenne females. The genetic distance was found to be approximately 10cM between 754 and DMD (two crossovers in 26 meioses) and to be approximately 10cM between OTC and DMD (two crossovers in 26 meioses). Physical data suggest the order DMD-754-OTC. The frequency of recombination compared to physical distance between these markers and DMD suggests that there may be a hot spot of recombination. The relevance of these observations for the isolation of the DMD mutation and clinical use of these probes is discussed.
SUMMARY Two cDNA probes, cf23a and cf56a, identify deletions of selected exons in about 50% of our DMD/BMD patients. We have estimated the most likely order of the 11 exons detectable with both probes with respect to the different extensions of the deletions. In one of our BMD pedigrees, the observed deletion could be traced in the affected males through three generations. This result shows that with the use of cDNA probes detecting deletions, the only risk of error in genomic prenatal diagnosis is the general high frequency of new mutations for DMD/BMD. This is important progress in diagnosis compared to the 2 to 5% risk of misdiagnosis 'because of crossing over events using conventional linkage analysis with bridging or intragenic probes. The first prenatal diagnosis of an unaffected fetus of a woman who is a DMD carrier according to ultrasound examination is described. In one of our DMD males, the cDNA probe cf56a detects a deletion breakpoint. His sister also shows the altered band and is therefore a DMD carrier, while his mother has a totally normal band pattern. The interpretation of this observation could be either germline mosaicism or two identical new mutations. The identification of deletion breakpoints is a new diagnostic strategy, especially for carrier determination, which excludes misdiagnosis owing to crossing over events and the problems of dosage estimation. It is, however, limited by the low frequency of breakpoints detectable with cDNA probes. Therefore, the generation of new intron probes in this region is an important goal.Duchenne muscular dystrophy (DMD) and its clinically milder allelic form, Becker muscular dystrophy (BMD), are the most common X linked recessive genetic disorders affecting about one in 3000 males. DNA diagnosis has resulted in dramatic progress in carrier detection and prenatal analysis for affected families.1-3 However, since up to now it has been predominantly based on linkage analyses, its reliability was limited by the possibility of crossing over events. This has caused difficulties in decision making for pregnant women, particularly in prenatal diagnosis.
SUMMARY The chromosomes of a male patient who suffers from Duchenne muscular dystrophy (DMD) with a molecular deletion were examined with an improved high resolution R type replication banding technique. High resolution cytogenetic analysis of the proband revealed a deletion of the Xp2l.13 subband. His healthy mother was heterozygous for the deletion, which is subject to random X inactivation in lymphocytes. The
The applicability was tested of real-time ultrasound imaging to the high musculature for the carrier detection of Becker muscular dystrophy (BMD). A total of 17 obligate carriers were examined. Ultrasound images in 3 patients, aged between 46 and 59 years, showed moderate differences compared with the controls. In 3 other obligate carriers, aged between 46 and 71 years, only doubtfully abnormal findings could be made; ultrasound images showed no differences in 11 BMD carriers aged between 10 and 47 years. In women aged over 40 years, compared with adequate controls of the same body type, real-time ultrasound imaging may provide additional evidence and thus help in the detection of BMD carriers.
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