References
- Bartlett IS, Segal SS. (2000). Resolution of smooth muscle and endothelial pathways for conduction along hamster cheek pouch arterioles. Am J Physiol Heart Circ Physiol 278:H604–H612.
- Berg BR, Cohen KID, Sarelius RI. (1997). Direct coupling between blood flow and metabolism at the capillary level in striated muscle. Am J Physiol 272:H2693–H2700.
- Boitano S, Dirksen ER, Sanderson MJ. (1992). Inter-cellular propagation of calcium waves mediated by in-ositol trisphosphate. Science 258:292–295.
- Budel S, Bartlett IS, Segal SS. (2003). Homocellular conduction along endothelium and smooth muscle of arterioles in hamster cheek pouch: unmasking an NO wave. Circ Res 93:61–68.
- Busse R, Edwards G, Feletou M, Fleming I, Vanhoutte P, Weston A. (2002). EDHF: bringing the concepts together. Trends Pharmacol Sci 23:374.
- Chen GF, Cheung DW. (1992). Characterization of acetylcholine-induced membrane hyperpolarization in endothelial cells. Circ Res 70:257–263.
- Chen Y, Rivers RJ. (2002). Arteriolar occlusion causes independent cellular responses in endothelium and smooth muscle. Microcirculation 9:353–362.
- Crane GJ, Hines ML, Neild TO. (2001). Simulating the spread of membrane potential changes in arteriolar networks. Microcirculation 8:33–43.
- Duling BR, Berne RM. (1970). Propagated vasodi-lation in the microcirculation of the hamster cheek pouch. Circ Res 26:163–170.
- Emerson GG, Neild TO, Segal SS. (2002). Conduction of hyperpolarization along hamster feed arteries: aug-mentation by acetylcholine. Am J Physiol Heart Circ Physiol 283:H102–H109.
- Emerson GG, Segal SS. (2000). Endothelial cell path-way for conduction of hyperpolarization and vasodi-lation along hamster feed artery. Circ Res 86:94–100.
- Hirst GD, Neild TO. (1978). An analysis of exci-tatory junctional potentials recorded from arterioles. J Physiol 280:87–104.
- Iadecola C, Yang G, Ebner TJ, Chen G. (1997). Local and propagated vascular responses evoked by focal synaptic activity in cerebellar cortex. J Neurophysiol 78:651–659.
- Jack JJB, Noble D, Tsien RW. (1975). Electric Current Flow in Excitable Cells. Oxford, UK: Clarendon.
- Jackson WE (2000). Ion channels and vascular tone. Hypertension 35:173–178.
- Kurjiaka DT, Segal SS. (1995). Conducted vasodila-tion elevates flow in arteriole networks of hamster stri-ated muscle. Am J Physiol 269:H1723–H1728.
- Neild TO, Kotecha N. (1987). Relation between membrane potential and contractile force in smooth muscle of the rat tail artery during stimulation by norepinephrine, 5-hydroxytryptarnine, and potas-sium. Circ Res 60:791–795.
- Nelson MT, Patlak JIB, Worley JF, Standen NB. (1990). Calcium channels, potassium channels, and voltage dependence of arterial smooth muscle tone. Am J Phys-iol 259:C3–C18.
- Nilius B, Droogmans G. (2001). Ion channels and their functional role in vascular endothelium. Physiol Rev 81:1415–1459.
- Quayle ym, Nelson MT, Standen NB. (1997). ATP-sensitive and inwardly rectifying potassium channels in smooth muscle. Physiol Rev 77:1165–1232.
- Rivers RJ. (1997). Cumulative conducted vasodilation within a single arteriole and the maximum conducted response. Am J Physiol 273:H310–H316.
- Segal SS. (1991). Microvascular recruitment in ham-ster striated muscle: role for conducted vasodilation. Am J Physiol 261:H181–H189.
- Segal SS, Duling BR. (1986). Flow control among microvessels coordinated by intercellular conduction. Science 234:868–870.
- Segal SS, Duling BR. (1989). Conduction of vasomo-tor responses in arterioles: a role for cell-to-cell cou-pling? Am J Physiol 256:H838–H845.
- Segal SS, Jacobs TL. (2001). Role for endothelial cell conduction in ascending vasodilatation and exer-cise hyperaemia in hamster skeletal muscle. J Physiol 536:937–946.
- Segal SS, Neild TO. (1996). Conducted depolariza-tion in arteriole networks of the guinea-pig small intes-tine: effect of branching of signal dissipation. J Physiol 496:229–244.
- Steinhausen M, Endlich K, Nobiling R, Parekh N, Schutt E (1997). Electrically induced vasomotor re-sponses and their propagation in rat renal vessels in vivo. J Physiol 505:493–501.
- Stuart G. (1999). Voltage-activated sodium channels amplify inhibition in neocortical pyramidal neurons. Nat Neurosci 2:144–150.
- Wagner AJ, Holstein-Rathlou NH, Marsh DJ. (1997). Internephron coupling by conducted va-somotor responses in normotensive and sponta-neously hypertensive rats. Am J Physiol 272:F372–F397.
- Welsh DG, Segal SS. (1997). Coactivation of resis-tance vessels and muscle fibers with acetylcholine re-lease from motor nerves. Am J Physiol 273:H156–H163.
- Welsh DG, Segal SS. (1998). Endothelial and smooth muscle cell conduction in arterioles controlling blood flow. Am J Physiol 274:H178–H186.
- Welsh DG, Segal SS. (2000). Role of EDHF in con-duction of vasodilation along hamster cheek pouch arterioles in vivo. Am J Physiol Heart Circ Physiol 278:H1832–H1839.
- Weston AH, Richards GR, Burnham MP, Feletou M, Vanhoutte PM, Edwards G. (2002). K(+) -induced hy-perpolarization in rat mesenteric artery: identification, localization and role of Na(±)/K(±)-ATPases. Br J Pharmacol 136:918–926.
- Williams DA, Segal SS. (1993). Feed artery role in blood flow control to rat hindlirnb skeletal muscles. J Physiol 463:631–646.
- Xia J, Duling BR. (1995). Electromechanical coupling and the conducted vasomotor response. Am J Physiol 269:H2022–H2030.
- Xia J, Little TL, Duling BR. (1995). Cellular path-ways of the conducted electrical response in arteri-oles of hamster cheek pouch in vitro. Am J Physiol 269:H2031–H2038.