Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The homozygous factor V Leiden mutation is associated with enhanced venous thrombotic risk. Obesity is a major risk factor for development of thrombotic cardiovascular disease. It was the objective of this study to investigate whether obesity affects the thrombotic risk associated with the mutation. Male mice with homozygous factor V Leiden mutation (Arg 504 to Gln) (FVQ/Q) and corresponding wild-type (WT) mice were kept on a standard fat diet (SFD) or high fat diet (HFD) for 14 weeks, and femoral artery thrombosis was induced by FeCl3 treatment. As compared to SFD, HFD feeding for 14 weeks resulted in significantly higher body weight and fat mass associated with adipocyte hypertrophy, which were, however, similar for both genotypes. In the FeCl3-induced arterial thrombosis model, FVQ/Q mice kept on SFD had a 40% shorter occlusion time (p = 0.015) and 40% lower blood flow (p = 0.03), as compared to WT mice. However, on HFD the occlusion time and blood flow were not significantly different for both genotypes. This finding could not be explained by differential changes of coagulation factors in either genotype fed on SFD or HFD. In conclusion, on SFD, but not on HFD, the factor V Leiden mutation is associated with enhanced thrombotic tendency after FeCl3 injury of the femoral artery, suggesting that in this model obesity rescues the increased thrombotic risk associated with the factor V Leiden mutation.
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PMID:Factor V Leiden mutation is associated with enhanced arterial thrombotic tendency in lean but not in obese mice. 1793 12

The potential prothrombotic effect of the cyclooxygenase-2 (COX-2) inhibitor Rofecoxib (Vioxx) was investigated using murine thrombosis models. In a jugular vein thrombosis model (photochemically induced injury) in lean wild-type mice, Rofecoxib treatment for 4 weeks induced a mild prothrombotic tendency, as indicated by a shorter occlusion time as compared to placebo (median of 12 min versus 36 min; p < 0.05). Thrombus size was somewhat, but not significantly, enhanced after Rofecoxib treatment. In a femoral artery thrombosis model (FeCl3 induced injury) Rofecoxib did not cause an enhanced thrombotic tendency in mice with nutritionally induced or genetically determined (ob/ob) obesity. The occlusion time was comparable for obese wild-type mice with (8.8+/-0.7 min) or without (7.8+/-2.1 min) Rofecoxib treatment, as well as for ob/ob mice (8.5+/-0.7 min versus 6.8+/-3.0 min). Thus, an enhanced prothrombotic effect of Rofecoxib was detected when using a venous thrombosis model in lean mice, but not when using an arterial thrombosis model in obese mice.
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PMID:Prothrombotic effect of Rofecoxib in a murine venous thrombosis model. 1857 Dec 22

Arterial thrombosis (blood clot) is a common complication of many systemic diseases associated with chronic inflammation, including atherosclerosis, diabetes, obesity, cancer and chronic autoimmune rheumatologic disorders. Thrombi are the cause of most heart attacks, strokes and extremity loss, making thrombosis an extremely important public health problem. Since these thrombi stem from inappropriate platelet activation and subsequent coagulation, targeting these systems therapeutically has important clinical significance for developing safer treatments. Due to the complexities of the hemostatic system, in vitro experiments cannot replicate the blood-to-vessel wall interactions; therefore, in vivo studies are critical to understand pathological mechanisms of thrombus formation. To this end, various thrombosis models have been developed in mice. Among them, ferric chloride (FeCl3) induced vascular injury is a widely used model of occlusive thrombosis that reports platelet activation and aggregation in the context of an aseptic closed vascular system. This model is based on redox-induced endothelial cell injury, which is simple and sensitive to both anticoagulant and anti-platelets drugs. The time required for the development of a thrombus that occludes blood flow gives a quantitative measure of vascular injury, platelet activation and aggregation that is relevant to thrombotic diseases. We have significantly refined this FeCl3-induced vascular thrombosis model, which makes the data highly reproducible with minimal variation. Here we describe the model and present representative data from several experimental set-ups that demonstrate the utility of this model in thrombosis research.
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PMID:Ferric Chloride-induced Murine Thrombosis Models. 2768 94