Susceptibility to malignant hyperthermia (MH) is currently diagnosed by the in vitro contracture test (IVCT) in skeletal muscle. However, this test does not possess absolute specificity. Thus, in addition to the established procedure, the "ryanodine contracture test" has been proposed to improve discrimination between MH-susceptible (MHS) and normal (MHN) patients. In all previous studies, the ryanodine used was a mixture consisting of high-purity ryanodine (HPR) and 9,21-dehydroryanodine (DHR). Therefore, in this study the effects of both substances were investigated in concentrations of 2, 5 and 10 mumol litre-1. With all concentrations, contractures appeared earlier in MHS than in MHN muscles, but these differences were significant at all contracture levels with HPR only. Moreover, with the smallest concentration (2 mumol litre-1), the best discrimination between MHS and MHN was observed. Classification of MH-equivocal patients (MHE) as MHS or MHN seems to be possible with the use of ryanodine-induced contractures. The contracture test with HPR should therefore be added to the established procedure of the IVCT.
In swine, a point mutation in the ryanodine receptor gene can account for all cases of malignant hyperthermia (MH). The frequency of a corresponding mutation in humans (C1840-T) and its relationship to the in vitro contracture profile is unknown. We screened 192 patients from 28 unrelated northern German families for the C1840-T mutation in the human ryanodine receptor gene and tested for MH susceptibility using the in vitro contracture test (IVCT) according to the European MH Protocol. In our patients 106 revealed MH susceptible (MHS), 56 MH nonsusceptible and 30 MH equivocal status following IVCT. In each family one or two individuals had developed clinical signs of MH or a MH crisis. All of these patients were classified MHS. The C1840-T mutation was found in 2 of 28 families (7.1%). All eight individuals of the two families characterized by this mutation revealed MHS status following IVCT. The thresholds for halothane- and caffeine-induced contractures as well as the contracture profiles following cumulative (0.4-10.0 mumol/l every 3 min) and bolus (10 mumol/l) administration of ryanodine were found to be similar in MHS patients with and without the C1840-T mutation. In conclusion, the C1840-T mutation in the human ryanodine receptor gene is a rare abnormality in MHS families. Similar contracture profiles in the presence and absence of this mutation might imply no major functional role with respect to the contracture response. At present, molecular genetic analysis cannot replace IVCT to discover MH susceptibility in humans.
The halothane-caffeine contracture test is presently the most well-established method for identification of malignant hyperthermia susceptibility (MHS) or non-susceptibility (MHN). However, 10-20% of the patients tested are classified as equivocal (MHE), i.e. their susceptibility remains uncertain. A genetic disorder of the calcium releasing ryanodine receptor has been postulated recently. Therefore, 12 patients were tested in addition to the protocol of the European Malignant Hyperthermia Group (EMHG) for dose- and time-dependent contracture after ryanodine application. In this study, contracture of 0.2g appeared significantly earlier in MHS patients (17.5 +/- 1.7 min; n = 5) during cumulative ryanodine exposition (0.4-0.8-1.6-10.0 mumol/l) than in MHN (38.2 +/- 5.4 min; n = 5). A significant difference between MHS (10.0 +/- 1.7 min; n = 6) and MHN (19.8 +/- 0.6 min; n = 3) was also seen after bolus application of ryanodine (10.0 mumol/l). One patient classified as MHE according to the EMHG protocol, manifested as MHN after the ryanodine contracture test. This study supports previous work suggesting the ryanodine contracture test as an improvement in the in-vitro diagnosis of MH susceptibility.
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