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Query: UMLS:C0024591 (
malignant hyperthermia
)
2,353
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Malignant hyperthermia
(MH) is a potentially lethal pharmacogenetic disease with autosomal dominant inheritance triggered by exposure to commonly used inhalational anaesthetics or depolarising muscle relaxants. A
MHS
locus has been identified on human chromosome 19q12-q13.2 and the gene for the skeletal muscle calcium release channel of sarcoplasmic reticulum (ryanodine receptor) (RYR1) is considered a candidate for the molecular defect. However, MH has been shown to be genetically heterogeneous, and in the ensuing search for other
MHS
genes, a locus on chromosome 17q has been proposed, and the gene for the adult muscle
sodium channel
(SCN4A) was suggested as a candidate. We performed linkage studies using polymorphic microsatellite markers for subunits of the skeletal muscle dihydropyridine (DHP) receptor, CACNL1A3 mapped to chromosome 1q, as well as C-ACNLB1 and CACNLG, the latter two localised on chromosome 17q11.2-q24 in proximity to the proposed MHS2 and the SCN4A loci, and we also included markers for the loci D17S250, D17S579, NM23 (NME1), GH1, and SCN4A from that region. Our results exclude the alpha 1, beta 1 and gamma subunit of the DHP receptor as well as the SCN4A locus from that region. Our results exclude the alpha 1, beta 1, and gamma subunit of the DHP receptor as well as the SCN4A locus as candidates for the molecular defect in
MHS
for these pedigrees where also the RYR1 on chromosome 19q13.1 has been excluded. A multipoint analysis excludes the disease from the entire 84 cM interval containing the proposed
MHS
locus on chromosome 17q.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Exclusion of malignant hyperthermia susceptibility (MHS) from a putative MHS2 locus on chromosome 17q and of the alpha 1, beta 1, and gamma subunits of the dihydropyridine receptor calcium channel as candidates for the molecular defect. 839 39
Malignant hyperthermia
(MH) is a potentially fatal, inherited pharmacogenetic disorder characterised by a dysfunction of the intracellular calcium regulation. Linkage to DNA markers from the chromosome 19q12-13.2 region and the
MHS
-phenotype (MH susceptible) has been shown in about 50% of families with a history of MH. The ryanodine receptor gene encoding the human skeletal muscle ryanodine receptor has been localised to the chromosome 19q13.1-13.2 region. The ryanodine receptor, which is an intracellular calcium release channel, has been proposed to be one of the candidate structures for the MH defect. At present, eight different single point mutations have been identified in the human skeletal muscle ryanodine receptor gene in families with disposition to MH. The incidence of the various mutations has been reported as 2-10% each. A combination of different mutations within one pedigree has not been demonstrated. A few years ago, linkage of the
MHS
-phenotype to DNA markers from the chromosome 17q11.2-24 region was published by an American group. However, this observation has not been confirmed in any of the several European families susceptible to MH. Genes encoding for subunits of the dihydropyridine receptor and the
sodium channel
of the human skeletal muscle have been found to be located in the chromosome 17q11.2-24 region which, in fact, could be additional candidates for the MH defect. The dihydropyridine receptor is linked to the ryanodine receptor and involved in the calcium regulation of skeletal muscle. Very recent studies have shown linkage to DNA markers from chromosome 7q- and chromosome 3q13.1 regions and the
MHS
phenotype in two distinct families with history of MH. However, the relevance of this observation is so far unknown. At present, unambiguous preoperative screening of MH disposition based on molecular genetic characteristics is not available because of the enormous heterogeneity of the human MH syndrome. Thus, the halothane-caffeine in-vitro contracture test according to the standard protocol of the "European MH Group" must be performed in order to discover MH susceptibility.
...
PMID:[What significance to genotype changes have in diagnosis of malignant hyperthermia?]. 896 26
Recent advances in the field of molecular myology have provided significant insight into the pathological mechanisms underlying a variety of neuromuscular disorders. Genetic abnormalities can now be linked to primary and secondary pathophysiological changes in muscle fibres which compromise structural, metabolic, regulatory or contractile mechanisms. Ion channel myopathies such as paramyotonia congenita, hyper- and hypokalaemic periodic paralysis, myotonia congenita, episodic ataxia and
malignant hyperthermia
were established as linked to mutations in genes encoding the
sodium channel
, dihydropyridine receptor, chloride channel, potassium channel and the ryanodine receptor calcium release channel, respectively. Metabolic disorders affecting skeletal muscle were found to be due to deficiencies in a variety of enzymes. Identification of defects in components belonging to the gigantic dystrophin-glycoprotein complex led to the discovery of the molecular pathogenesis of Duchenne muscular dystrophy and related disorders. Based on these molecular findings, it is now feasible to design and evaluate new techniques such as gene and myoblast transfer therapy in order to replace defective components in diseased muscle fibres.
...
PMID:[Molecular pathogenesis of muscular diseases]. 903 37
Hyperkalemic periodic paralysis (HPP) is caused by mutations of the adult skeletal muscle
sodium channel
(SCN4A) gene on chromosome 17.
Malignant hyperthermia
(MH) is a genetically heterogeneous autosomal-dominant disorder occurring in association with various neuromuscular diseases or without other apparent abnormalities. In some families, MH is associated with mutations of a calcium release channel (RYR1) gene on chromosome 19. In other families, linkage of this disorder to the SCN4A gene on chromosome 17 has been suggested. We report on linkage analysis in a family in which both HPP and MH are inherited as autosomal-dominant traits. Two polymorphisms within the SCN4A locus, an RFLP and a (C-A)n repeat, were typed on multiple family members. The findings were consistent with linkage of the polymorphic markers within the SCN4A gene to both HPP (Zmax = 6.79 at theta = 0.0) and MH (Zmax = 1.76 at theta = 0) in this family. Our data provide further evidence that MH is linked to the SCN4A locus in some families.
...
PMID:Linkage of malignant hyperthermia and hyperkalemic periodic paralysis to the adult skeletal muscle sodium channel (SCN4A) gene in a large pedigree. 950 59
Advances in physiology and molecular genetics have promoted greater understanding of the various clinical manifestations of muscle disorders. For example, myotonia or profound weakness may be observed in
sodium channel
disease (e.g., paramyotonia congenita or hyperkalemic periodic paralysis), depending on the specific channel defect or with slight changes in membrane potential. Observed effects of anesthetic techniques have been essential to elucidating the primary muscular nature of myotonia. Commonly used anesthetic medications have potentially lethal (e.g., MH) or serious (e.g., myotonic dystrophy) adverse effects. Conversely, lidocaine or propofol may have therapeutic benefit for patients with skeletal muscle
sodium channel
disorders. Additional investigation is required to improve our understanding of how age, gender, or other factors determine the phenotypic expression of
malignant hyperthermia
. Future research holds the promise for more accurate pre-anesthetic identification of persons with heritable myopathies, especially those who are asymptomatic. Enhanced awareness of multiple organ system involvement in myotonic dystrophy is essential for planning perioperative care. Patients with periodic paralysis require that we know factors that incite or inhibit the development of their attacks. Advances in bench research and detailed clinical studies will further improve our ability to provide optimal care for patients with muscle disorders.
...
PMID:Malignant hyperthermia and myotonic disorders. 1229 10
This article is dedicated to our teacher, Prof. Erich Kuhn, Heidelberg, on the occasion of his 88th birthday on 23rd November 2008. In contrast to muscular dystrophies, the muscle channelopathies, a group of diseases characterised by impaired muscle excitation or excitation-contraction coupling, can fairly well be treated with a whole series of pharmacological drugs. However, for a proper treatment proper diagnostics are essential. This article lists state-of-the-art diagnostics and therapies for the two types of myotonic dystrophies, for recessive and dominant myotonia congenita, for the
sodium channel
myotonias, for the primary dyskalemic periodic paralyses, for central core disease and for
malignant hyperthermia
susceptibility in detail. In addition, for each disorder a short summary of aetiology, symptomatology, and pathogenesis is provided.
...
PMID:Diagnostics and therapy of muscle channelopathies--Guidelines of the Ulm Muscle Centre. 1947 19
Malignant hyperthermia
(MH) is an autosomal dominant pharmacogenetic disorder of skeletal muscle characterized by disturbance of intracellular calcium homeostasis in the sarcoplasmic reticulum. Mutations of the ryanodine receptor 1 (RYR1) gene account for most cases, with some studies claiming up to 86% of mutations in this locus. However, RYR1 gene is large and variants are common even in the normal population. We examined 54 families with MH susceptibility and 21 diagnosed with equivocal MH. Thirty-five were selected for an anesthetic reaction, whereas the remainder for hyperCKemia. In these, we studied all 106 exons of the RYR1 gene. When no mutation was found, we also screened:
sodium channel
voltage-gated, type IV alpha subunit (SCN4A), calcium channel voltage-dependent, L type, alpha 1S subunit (CACNA1S), and L-type voltage-gated calcium channel alpha 2/delta-subunit (CACNL2A). Twenty-nine different RYR1 mutations were discovered in 40 families. Three other MH genes were tested in negative cases. Fourteen RYR1 amino acid changes were novel, of which 12 were located outside the mutational 'hot spots'. In two families, the known mutation p.R3903Q was also observed in
malignant hyperthermia
-nonsusceptible (MHN) individuals. Unexpectedly, four changes were also found in the same family and two in another. Our study confirms that MH is genetically heterogeneous and that a consistent number of cases are not due to RYR1 mutations. The discordance between in vitro contracture test status and the presence of a proven causative RYR1 mutation suggests that the penetrance may vary due to as yet unknown factors.
...
PMID:Novel missense mutations and unexpected multiple changes of RYR1 gene in 75 malignant hyperthermia families. 2068 98
Brugada syndrome is a rare electrophysiological cardiac disease which can result in serious arrhythmias and sudden cardiac death. Peripartum management is centred around avoiding arrhythmogenic drugs, including high doses of
sodium channel
blocking drugs such as bupivacaine. Myoadenylate deaminase deficiency, also known as adenosine monophosphate deaminase deficiency, is the commonest cause of myopathy in Caucasians. There is evidence that myoadenylate deaminase deficiency can predispose patients to developing
malignant hyperthermia
when exposed to specific anaesthetic agents. We present a case of a pregnant patient with both Brugada syndrome and myoadenylate deaminase deficiency, in which analgesic and general anaesthetic options for each condition presented potentially conflicting dilemmas for the delivery of intrapartum care.
...
PMID:Peripartum anaesthetic management of a patient with Brugada syndrome and myoadenylate deaminase deficiency. 2965 94
