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- Janunger, Tomas, et al.
(författare)
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A novel stroke locus identified in a northern Sweden pedigree : linkage to chromosome 9q31-33.
- 2009
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Ingår i: Neurology. - 0028-3878 .- 1526-632X. ; 73:21, s. 1767-1773
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Tidskriftsartikel (refereegranskat)abstract
- OBJECTIVES: The population of northern Sweden is characterized by reduced genetic diversity and a high incidence of stroke. We sought to reduce genetic variation further, using genealogic analysis in a set of nuclear families affected by stroke, and we subsequently performed a genome-wide scan to identify novel stroke susceptibility loci. METHODS: Through genealogy, 7 nuclear families with a common ancestor, connected over 8 generations, were identified. A genome-wide scan using 449 microsatellite markers was performed with subsequent haplotype analyses. RESULTS: A maximum allele-sharing lod score of 4.81 on chromosome 9q31-q33 was detected. Haplotype analysis identified a common 2.2-megabase interval in the chromosomal region in 4 of the nuclear families, where an overrepresentation of intracerebral hemorrhage was observed. CONCLUSIONS: We have identified a novel susceptibility locus for stroke. Haplotype analysis suggests that a shared genetic factor is of particular importance for intracerebral hemorrhage.
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- Janunger, Tomas, 1972-
(författare)
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The genetic contribution to stroke in northern Sweden
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Stroke is a common multi factorial cerebrovascular disorder with a large impact on global health. It is a disorder primarily associated with old age but environmental factors, lifestyle choices and medical history are all important for the risk of developing the disorder. It is also known that heritability is important for predisposition to the disorder. The aim of this work has been to identify genetic variations that increase the risk of being affected by stroke in the population of northern Sweden, a population well apt for genetic studies due to well kept church and medical records together with limited genetic diversity. In the first paper we used linkage analysis in families with early onset of stroke. By this approach we identified a region on chromosome 5q to be linked to an increased risk of developing stroke, a region previously identified as a susceptibility locus for stroke in the Icelandic population. In the second study we used genealogy to identify common ancestry and thereby identify common susceptibility to stroke. The seven families we connected showed significant linkage to the chromosome 9q31-33 region and four of the families shared a common haplotype over 2.1 megabases. In the third manuscript we investigated sequence variation of two candidate genes, TNFSF15 and TLR4. Sequencing of the TLR4 gene revealed previously identified variations in affected individuals from two of the families. Further SNP analysis showed five separate haplotypes among the investigated families and four haplotypes for TNFSF15. However none of these co-segregated with stroke among the investigated families. In the final paper we used a case-control stroke cohort to ascertain association for genetic variation in five genes and genetic regions previously suggested to be linked with stroke. Initial analyses showed association for the 9p21 chromosomal region and a variant in Factor 5 that showed protection against stroke, but after adjustments for common risk factors for stroke, the findings were no longer significant. In conclusion, by studying selected families we have been able to show linkage to two chromosomal regions, 5q and 9q31-33, that indicate genetic predisposition for developing stroke. Further we have shown that family based studies are still an important tool in deciphering the underlying mechanisms for complex disease.
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- Nilsson-Ardnor, Sofie, et al.
(författare)
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Linkage of ischemic stroke to the PDE4D region on 5q in a Swedish population.
- 2005
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Ingår i: Stroke. - 0039-2499 .- 1524-4628. ; 36:8, s. 1666-1671
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Tidskriftsartikel (refereegranskat)abstract
- BACKGROUND AND PURPOSE: Recent Icelandic studies have demonstrated linkage for common forms of stroke to chromosome 5q12 and association between phosphodiesterase4D (PDE4D) and ischemic stroke. Using a candidate region approach, we wanted to test the validity of these findings in a different population from northern Sweden. METHODS: A total of 56 families with 117 affected individuals were included in the linkage study. Genotyping was performed with polymorphic microsatellite markers with an average distance of 4.5 cM on chromosome 5. In the association study, 275 cases of first-ever stroke were included together with 550 matched community controls. Polymorphisms were tested individually for association of PDE4D to stroke. RESULTS: Maximum allele-sharing lod score in favor of linkage was observed at marker locus D5S424 (lod score=2.06; P=0.0010). Conditional logistic regression calculations revealed no significant association of ischemic stroke to the defined at-risk allele in PDE4D (odds ratio, 1.1; 95% confidence interval, 0.84 to 1.45). A protective effect may though be implied for 2 of the polymorphisms analyzed in PDE4D. CONCLUSIONS: Using a candidate region approach in a set of stroke families from northern Sweden, we have replicated linkage of stroke susceptibility to the PDE4D gene region on chromosome 5q. Association studies in an independent nested case-control sample from the same geographically located population suggested that different alleles confer susceptibility/protection to stroke in the Icelandic and the northern Swedish populations.
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