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“Vascular smooth muscle contraction a

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“Vascular smooth muscle contraction and the myogenic response regulate blood flow in the resistance vascular and

contribute to systemic blood pressure. Three pathways are currently known to contribute to the development of the myogenic response: (i) Ca2+-dependent phosphorylation of LC20; (ii) Ca2+ sensitization Fer-1 in vitro through inhibition of myosin phosphatase; and (iii) cortical actin polymerization. A number of regulatory smooth muscle proteins are integrated with these pathways to fine tune the response and facilitate adaptations to vascular (patho)physiologies. Of particular interest is the SMTN family of proteins, consisting of SMTN-A, SMTN-B, and the SMTN-like protein, SMTNL1. The SMTN-B and SMTNL1 proteins are both implicated in regulating smooth muscle contractility and contributing to vascular adaptations associated with hypertension, pregnancy, and exercise training. In the case of SMTNL1, the protein plays multiple roles in regulating contraction through functional interactions

with contractile regulators as well Idasanutlin as transcriptional control of the contractile phenotype and Ca2+-sensitizing capacity. For the first time, preliminary results suggest SMTNL1 is involved in the myogenic response of the cerebral resistance vasculature. In this regard, global SMTNL1 deletion is associated with greater myogenic reactivity of cerebral arterioles, although the precise mechanism accounting for this finding remains to be defined. “
“This chapter contains sections titled: Introduction: Fundamentals of Laser Speckle Time-Varying Speckle Full-Field Speckle Methods Single-Exposure Speckle

Photography Laser Speckle Contrast Analysis (LASCA) The Question of Speckle Size Theory Practical Considerations Applications and Examples Recent Developments Conclusions Acknowledgments References “
“The acute implantation of a cranial window for studying cerebroarteriolar reactivity in living animals involves a highly surgically invasive craniotomy procedure at the time of experimentation, which limits its application in severely ill animals such as in the experimental STK38 murine model of cerebral malaria (ECM). To overcome this problem, a chronic window implantation scheme was designed and implemented. A partial craniotomy is first performed by creating a skull bone flap in the healthy mice, which are then left to recover for one to two weeks, followed by infection to induce ECM. Uninfected animals are utilized as control. When cranial superfusion is needed, the bone flap is retracted and window implantation completed by assembling a perfusion chamber for compound delivery to the exposed brain surface. The presurgical step is intended to minimize surgical trauma on the day of experimentation. Chronic preparations in uninfected mice exhibited remarkably improved stability over acute ones by significantly reducing periarteriolar tissue damage and enhancing cerebroarteriolar dilator responses.

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