Chronic recurrent multifocal osteomyelitis (CRMO) is characterised by recurrent inflammatory lesions in the metaphyses of long bones and usually affects children and adolescents. Similarity with an autosomal recessive mouse disorder (cmo, chronic multifocal osteomyelitis) prompted us to perform a family based association study with two markers on chromosome 18q in the region homologous to the cmo localisation of the mouse. We found a significant association of CRMO with a rare allele of marker D18S60, resulting in a haplotype relative risk (HRR) of 18. This suggests the existence of a gene in this region contributing in a significant manner to the aetiology of CRMO and concomitantly demonstrates evidence for a genetic basis of CRMO for the first time. This gene is different from RANK, which is mutated in familial expansile osteolysis (FEO), but not in CRMO. Mutation screening in RANK and the genes PIGN and KIAA1468 led to detection of two variants (one in RANK and one in PIGN), which are in linkage disequilibrium with the rare D18S60 allele, but not independently associated with CRMO.
In order to obtain reliable information on HLA types, DNA typing with sequence-specific oligonucleotide/primer (SSO/SSP) typing sets or sequencing-based typing (SBT) is increasingly performed. The quality of the evaluation depends on the presence of a complete listing of all typed alleles as well as on the ability of detecting all corresponding alleles/allele pairs. We have developed the concept of virtual DNA analysis (VDA), which is able to combine all types of SSO/SSP/SBT results and evaluate this typing in combination according to the latest published allele sequence lists. The concept is based on the target DNA recognised by the respective typing techniques. All SSO/SSP or SBT results are transformed to a virtual sample DNA, which subsequently is analysed. Evaluation of generic or allele-specific DNA typing or the combination of both is supported. Due to this flexible approach, all kinds of SSO/SSP sets, as far as the respective SSO/SSP sequences are available, can be entered and evaluated immediately. The combination of collected data of different typing sets and procedures leads to the highest possible typing resolution. If more than one possible allele combination persists, the program reduces the result to the most specific common denominator in a stepwise manner. VDA offers the possibility of re-evaluation of former SSO/SSP/SBT results, alone or in combination. No solutions are omitted. This might be a first step towards standardisation of evaluating DNA-based HLA typing results or transfer of the respective typing data for later evaluation.
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