P.J. Halsall scite author profile

Key points † MH is rare, but its incidence may be increasing. † Prompt recognition is the key to a safe outcome. † These guidelines provide a template for diagnosis and treatment. † Suspected cases and their relatives should be followed up and investigated for MH.Survival from a malignant hyperthermia (MH) crisis is highly dependent on early recognition and prompt action. MH crises are very rare and an increasing use of total i.v. anaesthesia is likely to make it even rarer, leading to the potential risk of reduced awareness of MH. In addition, dantrolene, the cornerstone of successful MH treatment, is unavailable in large areas around the world thereby increasing the risk of MH fatalities in these areas. The European Malignant Hyperthermia Group collected and reviewed all guidelines available from the various MH centres in order to provide a consensus document. The guidelines consist of two textboxes: Box 1 on recognizing MH and Box 2 on the treatment of an MH crisis.

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Genetic variation in RYR1 and malignant hyperthermia phenotypes

Carpenter

Robinson

Quinnell

et al. 2009

British Journal of Anaesthesia

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The MH phenotype differs significantly with different RYR1 variants. Variants leading to more severe MH phenotype are distributed throughout the gene and tend to lie at relatively conserved sites in the protein. Differences in phenotype severity between RYR1 variants may explain the variability in clinical penetrance of MH during anaesthesia and why some variants have been associated with exercise-induced rhabdomyolysis and heat stroke. They may also inform a mutation screening strategy in cases of idiopathic hyperCKaemia.

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The role of CACNA1Sin predisposition to malignant hyperthermia

et al. 2009

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BackgroundMalignant hyperthermia (MH) is an inherited pharmacogenetic disorder of skeletal muscle, characterised by an elevated calcium release from the skeletal muscle sarcoplasmic reticulum. The dihydropyridine receptor (DHPR) plays an essential role in excitation-contraction coupling and calcium homeostasis in skeletal muscle. This study focuses on the gene CACNA1S which encodes the α1 subunit of the DHPR, in order to establish whether CACNA1S plays a major role in MH susceptibility in the UK.MethodsWe investigate the CACNA1S locus in detail in 50 independent MH patients, the largest study to date, to identify novel variants that may predispose to disease and also to characterise the haplotype structure across CACNA1S.ResultsWe present CACNA1S cDNA sequencing data from 50 MH patients in whom RYR1 mutations have been excluded, and subsequent mutation screening analysis. Furthermore we present haplotype analysis of unphased CACNA1S SNPs to (1) assess CACNA1S haplotype frequency differences between susceptible MH cases and a European control group and (2) analyse population-based association via clustering of CACNA1S haplotypes based on disease risk.ConclusionThe study identified a single potentially pathogenic change in CACNA1S (p.Arg174Trp), and highlights that the haplotype structure across CACNA1S is diverse, with a high degree of variability.

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Evidence for related myopathies in exertional heat stroke and malignant hyperthermia

1991

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P.J. Halsall

In vitro contracture test for diagnosis of malignant hyperthermia following the protocol of the European MH Group: Results of testing patients surviving fulminant MH and unrelated low‐risk subjects

Recognizing and managing a malignant hyperthermia crisis: guidelines from the European Malignant Hyperthermia Group

Genetic variation in RYR1 and malignant hyperthermia phenotypes

The role of CACNA1Sin predisposition to malignant hyperthermia

Evidence for related myopathies in exertional heat stroke and malignant hyperthermia

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