Atherosclerotic lesions preferentially localize near side branches or curved vessels. During the last few decades, research has been shown that low or low and oscillating shear stress is associated with plaque location. Despite ample evidence, the precise mechanism is unknown. This is mainly because of a lack of appropriate animal models. We describe two novel methods to study the hypothesis that shear stress acts through endothelial gene expression or shear stress acts through localizing of inflammation. Both literature evidence and own findings support a role for both mechanisms in atherosclerosis.
We compared the effects of the carbonic anhydrase inhibitors methazolamide and acetazolamide (3 mg kg -1 , I.V.) on the steady-state hypoxic ventilatory response in 10 anaesthetized cats. In five additional animals, we studied the effect of 3 and 33 mg kg -1 methazolamide. The steady-state hypoxic ventilatory response was described by the exponential function:whereV I is the inspired ventilation , G is hypoxic sensitivity, D is the shape factor and A is hyperoxic ventilation. In the first group of 10 animals, methazolamide did not change parameters G and D, while A increased from 0.86 ± 0.33 to 1.30 ± 0.40 l min -1 (mean ± S.D., P = 0.003). However, the subsequent administration of acetazolamide reduced G by 44% (control, 1.93 ± 1.32; acetazolamide, 1.09 ± 0.92 l min -1 , P = 0.003), while A did not show a further change. Acetazolamide tended to reduce D (control, 0.20 ± 0.07; acetazolamide, 0.14 ± 0.06 kPa -1 , P = 0.023). In the second group of five animals, neither low-nor high-dose methazolamide changed parameters G, D and A. The observation that even high-dose methazolamide, causing full inhibition of carbonic anhydrase in all body tissues, did not reduce the hypoxic ventilatory response is reminiscent of previous findings by others showing no change in magnitude of the hypoxic response of the in vitro carotid body by this agent. This suggests that normal carbonic anhydrase activity is not necessary for a normal hypoxic ventilatory response to occur. The mechanism by which acetazolamide reduces the hypoxic ventilatory response needs further study.
In anesthetized cats, the mu-opioids morphine and M6G induce respiratory depression at different sites within the ventilatory control system. Because 3mNTX caused full reversal of the respiratory depressant effects of both opioids, it is unlikely that a 3mNTX-sensitive unique M6G receptor is the cause of the differential respiratory behavior of morphine and M6G.
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