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  • Title: Electromechanical alterations in the cerebrovasculature of stroke-prone rats.
    Author: Smeda JS, King S.
    Journal: Stroke; 2000 Mar; 31(3):751-8; discussion 758-9. PubMed ID: 10700515.
    Abstract:
    BACKGROUND AND PURPOSE: Cerebrovascular pressure-dependent constriction (PDC) is associated with smooth muscle (SM) depolarization and Ca(2+) influx through voltage-gated channels. We studied the alterations in electromechanical contraction in the middle cerebral arteries (MCAs) of stroke-prone Wistar-Kyoto spontaneously hypertensive rats (SHRsp) in relation to the stroke-related loss of PDC. METHODS: Constriction to pressure, elevated [K(+)](o) and/or [Ca(2+)](o), and SM membrane potentials (E(m)) were measured in isolated pressurized MCAs of SHRsp and stroke-resistant SHR. RESULTS: MCAs of SHRsp exhibited an age-related decrease in PDC before hemorrhagic stroke and a loss of PDC after stroke. At 100 mm Hg, the MCAs of poststroke SHRsp maintained partial constriction that was not altered with pressure but was inhibited by nifedipine (1 micromol/L). The MCAs of poststroke SHRsp constricted to vasopressin (0.17 micromol/L) but not to elevated [K(+)](o). When pressure was reduced from 100 to 0 mm Hg, the MCAs from young prestroke SHRsp exhibited SM hyperpolarization (-38 to -46 mV), whereas those of poststroke SHRsp maintained a constant, depolarized E(m) (-34 mV). Alterations in E(m) with varying [K(+)](o) suggested that there was a decrease in SM K(+) conductance in the MCAs of poststroke SHRsp. CONCLUSIONS: The observation that the MCAs of poststroke SHRsp depolarize but do not constrict to elevated [K(+)](o) suggests the presence of dysfunctional voltage-gated Ca(2+) channels. The inability to alter E(m) with pressure or to constrict to depolarization could partially contribute to the loss of PDC in the MCAs of poststroke SHRsp.
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