Objective: We investigated the acute effects of SIM on cerebral microvascular rarefaction and dysfunction in SHRs. Methods: Male WKY and SHRs were divided into 4 groups of 8 animals each: WKY-CTL and SHR-CTL, treated with 0.9% saline; and WKY+SIM and SHR+SIM, treated with SIM (30 mg/kg/d) for 3 days by gavage. Cerebral FCD was assessed by intravital fluorescence videomicroscopy. mCBF before and after administration within the cranial window of angiotensin II (1 mu mol L-1) was investigated using laser speckle contrast imaging. Results: Cerebral FCD was reduced in SHR-CTL compared to WKY-CTL (P < .05). SIM increased cerebral FCD in SHRs compared to SHR-CTL (P < .05). The mCBF was reduced in SHR-CTL compared to WKY-CTL (P < .05), and SIM increased mCBF compared with SHR-CTL (P < .05). Angiotensin II elicited a reduction of mCBF in SHR-CTL and increased mCBF in WKY-CTL (SHR-CTL -13.53 +/- 2% vs WKY-CTL + 13.74 +/- 4%; P < .001), which was attenuated in SHRs treated with SIM (SHR+SIM -6.7 +/- 1% vs SHR-CTL -13.53 +/- 2%; P < .01). Conclusions: The antihypertensive effect of SIM is associated with an improvement in cerebral microvascular perfusion and capillary density that may help to prevent hypertension-induced cerebrovascular damage independent of cholesterol-lowering.

• 出版日期2017-11