TY - JOUR
T1 - Can divergent plasmin-antiplasmin-carbon monoxide interactions in young, healthy tobacco smokers explain the 'smoker's paradox'?
AU - Nielsen, Vance G.
AU - Hafner, David T.
AU - Steinbrenner, Evangelina B.
PY - 2013/6
Y1 - 2013/6
N2 - In the setting of acute myocardial infarction, decreases in early/late mortality, reocclusion after thrombolysis, and restenosis rate after percutaneous intervention are lower in smokers-this phenomenon has been designated as the 'smoker's paradox'. These benefits of smoking, however, are abrogated by stent placement. We hypothesized that fibrinolytic vulnerability would change in response to smoking, and that inhaled carbon monoxide may play a role. Smoking patients (n=20, two cigarettes consumed within 90âŠmin, average carboxyhemoglobin concentration of 5%) had plasma collected and normal individual (n=20) plasma was also obtained. Thrombelastographic analyses conducted with addition of tissue-type plasminogen activator revealed that with the exception of the rate of thrombus generation, there was little difference in fibrinolytic kinetics between normal and smoking individuals. Addition of exogenous carbon monoxide resulted in diminished fibrinolytic response to the same extent in both groups. Subanalyses demonstrated that the smoking cohort had both hyperfibrinolytic and hypofibrinolytic patients as defined by confidence interval (5-95%) values generated from normal individuals. Addition of carbon monoxide reduced hyperfibrinolytic parameter values by 80% in smokers, whereas only a 17% decrease in hypofibrinolytic values changed. Our investigation suggests that 'smoker's paradox' involves a marked change in the character of the plasmin-antiplasmin-carbon monoxide interaction. Further investigation will be required to further define the molecular mechanism responsible for the 'smoker's paradox'.
AB - In the setting of acute myocardial infarction, decreases in early/late mortality, reocclusion after thrombolysis, and restenosis rate after percutaneous intervention are lower in smokers-this phenomenon has been designated as the 'smoker's paradox'. These benefits of smoking, however, are abrogated by stent placement. We hypothesized that fibrinolytic vulnerability would change in response to smoking, and that inhaled carbon monoxide may play a role. Smoking patients (n=20, two cigarettes consumed within 90âŠmin, average carboxyhemoglobin concentration of 5%) had plasma collected and normal individual (n=20) plasma was also obtained. Thrombelastographic analyses conducted with addition of tissue-type plasminogen activator revealed that with the exception of the rate of thrombus generation, there was little difference in fibrinolytic kinetics between normal and smoking individuals. Addition of exogenous carbon monoxide resulted in diminished fibrinolytic response to the same extent in both groups. Subanalyses demonstrated that the smoking cohort had both hyperfibrinolytic and hypofibrinolytic patients as defined by confidence interval (5-95%) values generated from normal individuals. Addition of carbon monoxide reduced hyperfibrinolytic parameter values by 80% in smokers, whereas only a 17% decrease in hypofibrinolytic values changed. Our investigation suggests that 'smoker's paradox' involves a marked change in the character of the plasmin-antiplasmin-carbon monoxide interaction. Further investigation will be required to further define the molecular mechanism responsible for the 'smoker's paradox'.
KW - carbon monoxide
KW - fibrinolysis
KW - smoking
KW - thrombelastography
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U2 - 10.1097/MBC.0b013e32835d53ec
DO - 10.1097/MBC.0b013e32835d53ec
M3 - Article
C2 - 23429256
AN - SCOPUS:84877701741
SN - 0957-5235
VL - 24
SP - 381
EP - 385
JO - Blood Coagulation and Fibrinolysis
JF - Blood Coagulation and Fibrinolysis
IS - 4
ER -