Lund University Publications

@phdthesis{4d902164-2156-4a52-b62f-9ca4fdeec9d5,
  abstract     = {{Introduction: Haemophilia A (HA) and B (HB) are two of our most common inherited bleeding disorders and are<br/><br>
due to a variety of gene mutations.<br/><br>
Aims: The overall objective of the present research was to perform clinical and basic scientific studies on<br/><br>
haemophilia in Sweden to further improve and individualise the care of haemophilia patients and their relatives.<br/><br>
More specific aims were: to study trends and changes for prenatal diagnosis (PND) of haemophilia (paper I); to<br/><br>
describe the mutation spectrum of HB and its origin in terms of the mutations being recurrent mutations or<br/><br>
identical by descent (IBD) (paper II); to analyse the mutation profile in HB highlighting unique mutations and<br/><br>
inhibitor development alongside genotype-phenotype associations (paper III); and to define the origin of mutations<br/><br>
of sporadic severe cases of HA.<br/><br>
Methods and results: Through semi-structured interviews and PND-registry data, 90 PND performed by 54 women<br/><br>
during 1977–2013 were found. There were 27/90 haemophilia-affected foetuses of which 16 went to termination<br/><br>
and 11 were born (during 2000–2013). PND was used in 27/55 cases for mental preparation (paper I). Mutation<br/><br>
analysis found 47/77 patients to share mutations, and haplotype analysis found (51%) (24/47) to be IBD, the<br/><br>
majority of these were mild forms (paper II). Mutation and haplotype analysis among 113 families (each<br/><br>
represented by one patient) identified 32% ‘null mutations’ and 19% inhibitor among the severely affected<br/><br>
families, whereas the frequency of unique mutations was at least 65% (paper III). In 40/45 sporadic families the<br/><br>
mutation occurred within the last two generations and in 82% (23/28) the mother was hitherto an unknown carrier.<br/><br>
Conclusions: PND is increasingly used as a psychological preparation for having a child with haemophilia (paper<br/><br>
I). Mild forms of haemophilia associated with IBD have estimated ages of mutations of between two and 23<br/><br>
generations (paper II). A high frequency of unique mutations was found. The high number of inhibitor families is<br/><br>
most likely caused by many ‘null mutations’ (paper III). Due to the young age of mutations, this indicates relatives<br/><br>
having a low carrier risk (paper IV).}},
  author       = {{Mårtensson, Annika}},
  isbn         = {{978-91-7619-182-8}},
  issn         = {{1652-8220}},
  keywords     = {{haemophilia; factor VIII; factor IX; factor 8 gene; factor 9 gene; carriers; prenatal diagnosis; mutations; inhibitors; haplotype}},
  language     = {{eng}},
  publisher    = {{Department of Paediatrics, Lund University}},
  school       = {{Lund University}},
  series       = {{Lund University Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Haemophilia in Sweden – Studies on mutations and clinical implications}},
  volume       = {{2015:103}},
  year         = {{2015}},
}