Kardiyovasküler Fonksiyon ve Fizyoloji
Özet
Referanslar
Forbes MJ and Sperelakis, N. Ultrastructure of mam- malian cardiac muscle. Physiology and pathophysio- logy of the heart, 1984;pp:3-42.
Sommer JR, Jennings RB. Ultrastructure of cardiac muscle. The Heart and Cardiovascular System. New York, Raven Press, 1986;p:61.
Herzig JW, Ruegg JC, Solaro RJ. Myocardial excitation- contraction coupling as influenced through modulati- on of the calcium sensitivity of the contractil proteins. Heart Failure 1991;6:244.
Fozzard HA, Haber E, Jennings RB, Katz AM, Morgan HE. The Heart and Cardiovascular System: Scientific Foundantations, 2d ed. New York: Raven; 1991:1-2193.
Bers DM. Excitation-Contraction Coupling and Cardiac Contractile Force. Dordrecht, The Netherlands: Kluwer; 1991.
Langer GA. Calcium at sarcolemma. J Mol Cell Cardiol 1984;16:147-53.
McDonald TF. Excitation-contraction coupling: Relation of the slow inward current to contraction. The Physio- logy and Pathophysiology of the Heart. 1984:187-98.
Coraboeuf E. Ionic basis of electrical activity in cardiac tissue. Excitation and Neural Control of the Heart. Williams & Wilkins; 1982:1-35.
Fozzard HA, Hauck DA. Sodium channels. The Heart and Cardiovascular System, 2d ed. New York: Raven; 1991:1091-119.
Philipson KD, Bers DM, Nashimoto AY, Langer GA. Binding of calcium and sodium to sarcolemmal mem- branes: Relation to control of myocardial contractility. Am J Physiol, 1980;238:373-8.
Fleischer S, Inui M. Biochemistry and biophysics of excitation-contraction coupling. Annu Rev Biophys Chem, 1989;18:333-64.
Calleweart G. Excitation-contraction coupling in mam- malian cardiac cells. Cardiovasc Res, 1992;26:923-32.
Carafoli E. The homeostasis of calcium in heart cells. J Mol Cell Cardiol, 1985;17:203-12.
Reuter H. Calcium channel modulation by neurotrans- mitters, enzymes and drugs. Nature, 1983;301:569.
Sperelakis N. Role of the sarcolemma in excitation- contraction coupling in cardiac muscle. Heart Failure, 1991;6:212.
Lehninger AL. Calcium transport by mitochondria and its possible role in the cardiac contraction-relaxation cycle. Circ Res, 1974;35(Suppl 3):83-90.
Carafoli E, Tiozzo R, Lugli G, Crovetti F, Kratzing C. The release of calcium from heart mitochondria by sodi- um. J Mol Cell Cardiol, 1974;6:361-371.
Fabiato A, Baumgarten CM. Methods for detecting cal- cium release from the sarcoplasmic reticulum of skin- ned cardiac cells and the relationships between calcu- lated transsarcolemmal calcium movements and cal- cium release. The Physiology and Pathophysiology of the Heart, 1984;215-54.
Lepeuch CJ, Demaille JG. Covalent regulation of the cardiac sarcoplasmic reticulum calcium pump. Review article. Cell Calcium, 1989;10:397-400.
Schatzmann HJ. The calcium pump at the surface membrane and at the sarcoplasmic reticulum. Annu Rev Physiol, 1989;51:473-85.
Carafoli E. Calcium pump of the plasma membrane. Physiol Rev, 1991;71:129-53.
Hisano R, Cooper G. Coorelation of force-length area with oxygen consumption in ferret papillary muscle. Circ Res, 1987;61:318.
Sonnenblick EH, Braunwald E, Morrow AG. The con- tractil properties of human heart muscle: Studies on myocardial mechanics of surgically excised papillary muscles. J Clin Invest, 1965;44:966-77.
Braunwald E, Ross J Jr, Sonnenblick EH. Mechanics of contraction of the normal and failing heart, 2d ed Boston: Little, Brown; 1976.
Roberts R, ed. Molecular Basis of Cardiology. Oxford: Blackwell; 1993.
Schlant RC, Rawls WJ, Dixon F, Elson S. An additional determinant of ventricular performance. Clin Res 1965;13:62.
Dietz JR. Release of natriuretic factor from rat heart- lung preparations by atrial distension. Am J Physiol
1984;247:1093-6. 3
Debold AJ. Atrial natriuretic factor: A hormone produ- ced by the heart. Science, 1985;230:767-70.
Susanni EE, Vatner DE, Hmcy CJ. The beta-adrenerjic receptor/adenylyl cyclase system. The Heart and Cardiovasc System, 2d ed. New York: Raven; 1991:1685-708.
Sutherland EW. On the biological role of cyclic AMP. JAMA, 1970;241:1281-8.
Vatner SA. Sympathetic mechanisms regulating myo- cardial contractility in conscious animals. The Heart and Cardiovasc System, 2d ed. New York: Raven; 1991: 1709-28.
Williamson JR, Monck JR. Second messengers of ino- sitol lipid metabolism and calcium signaling. The Heart and Cardiovasc System, 2d ed. New York: Raven; 1991:1729-44.
Brown AM. Cardiac reflexes. In: Berne RM, ed. Handbook of Physiology, sec 2: The Cardiovascular System, vol 1: The Heart. Bethesda, MD: American Physiological Society; 1979:677-89.
Korner PI. Central nervous control of autonomic car- diovascular function. In: Berne RM, ed. Handbook of Physiology, sec 2: The Cardiovascular System, vol 1: The Heart. Bethesda, MD: American Physiological Society, 1979:691-739.
Dzau VJ, Re RN. Evidence for the existence of renin in the heart. Circulation, 1987;75:1134-6.
Dzau VJ. Cardiac renin-angiotensin system: Molecular and functional aspects. Am J Med, 1988;84:22-7.
Sadoshima J, Malhotra R, Izumo S. The role of cardiac renin-angiotensin system in load-induced cardiac hypertrophy. J Cardiac Failure, 1996;2(Suppl 4):1-6.
Holmer SR, Honey CJ. G proteins in the heart: A redun- dant and diverse transmembrane signaling network. Circulation, 1991;84:1891-902.
Eisner DA, Smith TW. The Na-K pump and its effectors in cardiac muscle. The Heart and Cardiovascular System, 2d ed. New York: Raven; 1991:863-902.
Smith TW. Digitalis: Mechanisms of action and clinical use. N Eng J Med, 1988;318:358-65.
Saman S, Thandroyen F, Opie LH. Serotonin and the heart: Effects of ketanserin on myocardial function, heart rate, and arrhythmias. J Cardiovasc Pharmacol 1985;7(Suppl 7):70-5.
Zaritsky AL, Horowitz M, Chernow B. Glucagon antago- nism of calcium channel blocker-induced myocardial dysfunction. Crit Care Med, 1988;16:246-51.
Marsden PA, Danthuluri NR, Brenner BM, Ballermann BJ, Brock TA. Endothelin action on vascular smooth muscle involves inositol triphosphate and calcium mobilization. Biochem Biophys Res Commun 1988;158:86-93.
Goto K, Kasuya Y, Matsuki N et al. Endothelin activates the dihydropyridine-sensitive, voltag-dependent calci- um channel in vascular smooth muscle. Proc Natl Acad Sci USA, 1989;86:3915-8.
Strobeck JE, Sonnenblick EH. Myocardial and ventri- cular function. Cardiovasc Rev Rep, 1983;4:568.
Mast F, Elzinga G. Heat released during relaxation equals force-length area in isometric contraction of rabbit papillary muscle. Circ Res, 1990;67:893.
Teplick R, Haas GS, Trautman E et al. Time dependen- ce of the oxygen cost of force development during systole in the canine left ventricle. Circ Res, 1986;59:27.
Young MA, Vatner SF. Regulation of large coronary arteries. Ccirc Res, 1986;59:579.
Kelm M, Schrader J. Control of coronary vascular tone by nitric oxide. Circ Res, 1990;66:1561.
Clozel Z, Clozel M. Effects of endothelin on the coro- nary vascular bed in open-chest dogs. Circ Res, 1989;65:1193.
Siegfried MR, Aoki N, Mulloy D, Lefer AM. Direct posi- tive inotropic and vasoconstrictor effects of endothelin. Heart Vessels, 1990;5:146.
Olsson RA, Bugni WJ. Coronary circulation. In Fozzard et al. The Heart and Cardiovascular System. New York, Raven Press, 1986;pp:987-1038.
Oien AH, Aukland KA. A mathematical analysis of the myogenic hypothesis with special reference to autore- gulation of renal blood flow. Circ Res, 1983;52:241.
Furchgott RF, Vanhautte PM. Endothelin-derived rela- xing and contracting factors. FASEB J, 1989;3:2007.
Vanhautte PM, Shimokawa H. Endothelin-derived rela- xing factor and coronary vasospasm Circulation, 1989;80:1.
Berne RM, Rubio R. Coronary Circulation. In Berne RM, Sperelakis N, Geiger SR. Handbook of Physiology; Section 2, The Cardiovascular System. Bethesda, American Physiological Society, 1979;p:897.
Young MA, Vatner SF. Regulation of large coronary arteries. Circ Res, 1986;59:579.
Vatner DE, Knight DR, Homcy CJ et al. Subtypes of beta-adrenergic receptors in bovine coronary arteries. Circ Res, 1986;59:463.
Feldman RD, Christy JP, Paul ST, Harrison DG. Beta- adrenergic receptors on canine coronary collateral vessels. Characterization and function. Am J Physiol 1989;257:H1634.
Woodman OL, Vatner SF. Coronary vasoconstruction mediated by alpha1 and alpha2 adrenoreceptors in the conscious dog. Am J Physiol, 1987;253:388.
Young MA, Vatner DE, Knight DR et al. Alpha-adrener- gic vasoconstruction and receptor subtypes in large co- ronary arteries of calves. Am J Physiol, 1988;255:1452.
Gorman MW, Tune JD, Richmond KN, et al. Feedforward sympathetic coronary vasodilatation in exercising dogs. J Appl Physiol 2000 Nov;89(5):1892-902.
