Thijs (2019) Aspirin intake in the morning is associated with suboptimal platelet inhibition, as measured by serum Thromboxane B 2, during infarct-prone earlymorning hours,
Daily generation of novel platelets may compromise aspirin's platelet inhibitory action, especially near the end of the regular 24-h dosing interval. A contributor to this attenuation could be the endogenous circadian rhythm. The primary objective of this study was to assess platelet activity 12 and 24 h after different times of aspirin intake (c.q. 8.00 AM and 8.00 PM). A randomized open-label crossover study was conducted, comprising outpatients with stable cardiovascular disease taking aspirin once daily. We measured platelet aggregation with the platelet function analyzer (PFA)-200(®) and light transmission aggregometry (LTA). The attenuation of aspirin's inhibitory action was most apparent in the 8.00 AM regimen. The platelet function analyzer-closure time was 78 s faster at 24 h than at 12 h after intake in the 8.00 AM regimen (IQR: 166.8-301 vs. 132.8-301; p = 0.006) and 0 s faster at 24 h than at 12 h after intake in the 8.00 PM regimen (IQR: 198.8-837.0 vs. 169.8-301; p = 0.653). The adenosine diphosphate 1.0 µmol/L maximum amplitude was 5.40% higher at 24 h than at 12 h after intake in the 8.00 AM regimen (95% confidence interval (CI): -0.03--10.8; p = 0.040) and was 0.75% higher 24 h than at 12 h after intake in the 8.00 PM regimen (95% CI: -4.83-3.33; p = 0.705). The platelet inhibitory effect of aspirin decreases after 24 h, particularly after intake in the morning. These results suggest that patients might benefit from evening intake or twice daily intake regimens.
Intraperitoneal LPS injection in ApoE3*Leiden mice triggers a profound systemic inflammatory response, but does not increase atherosclerotic plaque area or inflammatory cell density. This model of LPS-induced inflammation in atherosclerosis-prone mice argues against intraplaque alterations as an explanation for acute inflammation-induced cardiovascular event risk.
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