Lund University Publications

@phdthesis{24474597-d4ce-4b02-8e5e-337da835201b,
  abstract     = {{The only validated method to characterize the phenotype and to reach a definitive diagnosis<br/><br>
of Malignant Hyperthermia Susceptibility (MHS; OMIM *145600), a pharmacogenetic<br/><br>
disease linked to the Ryanodine 1 receptor gene (RYR1; OMIM *180901), is<br/><br>
an invasive muscle contraction test requiring a muscle biopsy, according to the European<br/><br>
(IVCT) protocol or to the North American (CHCT) protocol.<br/><br>
The series of scientific papers in this thesis tries to reach as far as possible in diagnosing<br/><br>
MHS from peripheral venous blood samples collected at the patients’ local primary<br/><br>
care provider and sent to the laboratory over significant transportation time and distance.<br/><br>
Study I uses a traditional method of direct sequencing of a limited number of central<br/><br>
exons of the RYR1 gene in the Swedish population with an outcome of only one fifth<br/><br>
of the tested probands positive for a known MH causative mutation.<br/><br>
Study II tries to bypass the laborious direct sequencing method of the very large<br/><br>
RYR1 gene by using a method of stabilizing RNA in test tubes for transportation and<br/><br>
synthesizing of RYR1cDNA for direct sequencing.<br/><br>
Study IV implies a recent method based on establishing and analysing High<br/><br>
Resolution Melting (HRM) DNA curves of 131 amplicons of the RYR1 on stable<br/><br>
genomic DNA with an encouraging finding of a sequence variant in 81 % of the tested<br/><br>
patients and similarly reducing the sequencing work by 79 %.<br/><br>
By analysing all the found sequence variants in studies I, II and IV leading to amino<br/><br>
acid changes in the final RYR1 receptor, it seems that the formerly known hotspot<br/><br>
(N-terminal, central and C-terminal) distribution pattern can be seen, but sequence<br/><br>
variants appear also outside of these traditional hotspots.<br/><br>
Therefore coverage of the total coding region of the gene remains necessary.<br/><br>
Another fact is that about half of the found sequence variants leading to amino acid<br/><br>
changes are previously unknown and therefore uncharacterized at functional level.<br/><br>
Study III presents a method of measuring the [Ca2+]i resting level and the increase in<br/><br>
cytoplasmic [Ca2+]i level in prepared B lymphoblastic cell clones from patients carrying<br/><br>
the actual candidate mutations, after influence of a RYR1 agonist. And of combining<br/><br>
the outcome data on cellular level with clinical data.<br/><br>
The series of studies I-IV presented in this thesis cannot give a definitive method<br/><br>
to reach the diagnosis MHS, or even more important; to reach the definitive diagnosis<br/><br>
of MHN, without an IVCT. But it can present advanced techniques to describe the<br/><br>
genetical status of the patients and the impact of new previously unknown candidate<br/><br>
mutations at functional level, and to combine this data with clinical data, based on only<br/><br>
a simple venous blood sample.<br/><br>
Once a MH causative mutation is found in a pedigree this allows for predictive testing<br/><br>
in the family members and the individuals positive for the actual mutation can be<br/><br>
assigned MHS without an IVCT, whereas the individuals negative for the mutation<br/><br>
must go through IVC testing in order to confirm the MHN status.}},
  author       = {{Broman, Marcus Ewert}},
  isbn         = {{978-91-86671-86-0}},
  issn         = {{1652-8220}},
  keywords     = {{General Anaesthesia; Ryanodine 1 Receptor; Malignant Hyperthermia; Genetics}},
  language     = {{eng}},
  publisher    = {{Department of Clinical Sciences, Lund University}},
  school       = {{Lund University}},
  series       = {{Lund University Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Anaesthesia and Genetics of the Ryanodine 1 Receptor}},
  volume       = {{2011:38}},
  year         = {{2011}},
}