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Title: Sympathetic co-activation of skin blood vessels and sweat glands. Author: Estañol B, Corona MV, Elías Y, Téllez-Zenteno JF, Infante O, García-Ramos G. Journal: Clin Auton Res; 2004 Apr; 14(2):107-12. PubMed ID: 15095053. Abstract: Skin blood vessels and sweat glands are both innervated by sympathetic C fibers. We investigated whether during diverse respiratory maneuvers the vasomotor responses (VRs) and the sympathetic skin responses (SSRs) were frequently or occasionally co-activated. We simultaneously recorded the amplitude of the vasomotor responses and the sympathetic skin responses, the ECG and the respiratory movements in 30 healthy subjects during natural breathing at rest, rhythmic respirations at 6 per minute, sudden deep inspiration and Valsalva maneuver. We found: 1) The SSR habituates with all respiratory maneuvers whereas the VRs do not habituate. 2) There was slight co-activation between the SSRs and VRs during natural default breathing (56 percent). 3) During rhythmic breathing at 6 per minute the VRs and the SSRs were frequently co-activated (97 percent). The SSR appeared at the end of the inspiration coinciding with the end of the decreased blood flow. However the SSR habituated after few rhythmic respirations. 4) During sudden deep inspiration one hundred percent of co-activations were between the initial phase of the VRs and the SSR. The SSR is large in amplitude and longer in duration than during rhythmic breathing. 5) During the Valsalva maneuver there was a strong co-activation (100 percent) particularly during the phases II and III that are characterized by vaso-constriction but also during phase IV. The SSR is the longest of duration in all of the maneuvers. The sympathetic innervation to the sweat glands of the palm of the hand and to the skin blood vessels of the fingertips is differentiated. Under normothermic conditions sudden deep inspiration and Valsalva maneuver induced a large sympathetic simultaneous outflow to the skin blood vessels and sweat glands. The simultaneous recording of skin blood flow and the SSRs provides a more complete assessment of the sympathetic outflow to the skin than either one alone.[Abstract] [Full Text] [Related] [New Search]