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REFERENCES

  • Aickin CC & Thomas RC (1977a). An investigation of the ionic mechanism of intracellular pH regulation in mouse soleus muscle fibres. J Physiol 273, 295316.
  • Aickin CC & Thomas RC (1977b). Microelectrode measurement of the intracellular pH and buffering power of mouse soleus muscle fibres. J Physiol 267, 791810.
  • Bers DM (1987). Ryanodine and the calcium content of cardiac SR assessed by caffeine and rapid cooling contractures. Am J Physiol 253, C408415.
  • Blank PS, Silverman HS, Chung OY, Hogue BA, Stern MD, Hansford RG, Lakatta EG & Capogrossi MC (1992). Cytosolic pH measurements in single cardiac myocytes using carboxy-seminaphthorhodafluor-1. Am J Physiol 263, H276284.
  • Bountra C, Powell T & Vaughan-Jones RD (1990). Comparison of intracellular pH transients in single ventricular myocytes and isolated ventricular muscle of guinea-pig. J Physiol 424, 343365.
  • Bountra C & Vaughan-Jones RD (1989). Effect of intracellular and extracellular pH on contraction in isolated, mammalian cardiac muscle. J Physiol 418, 163187.
  • Buckler KJ & Vaughan-Jones RD (1990). Application of a new pH-sensitive fluoroprobe (carboxy-SNARF-1) for intracellular pH measurement in small, isolated cells. Pflugers Arch 417, 234239.
  • Ch'en FF-T, Goddard RS & Vaughan-Jones RD (2000). Temperature dependence of cardiac Na+−H+ exchange and Na+−HCO3 co-transport. J Physiol 527.P, 6667P (abstract).
  • Ch'en FF-T, Goddard RS & Vaughan-Jones RD (2001). Temperature sensitivities of Na+−H+ exchange and Na+−HCO3 co-transport in guinea-pig ventricular myocytes. Biophys J 80, 2645 (abstract).
  • Ch'en FF-T, Vaughan-Jones RD, Clarke K & Noble D (1998). Modelling myocardial ischaemia and reperfusion. Prog Biophys Mol Biol 69, 515538.
  • Dart C & Vaughan-Jones RD (1992). Na+−HCO3 symport in the sheep cardiac Purkinje fibre. J Physiol 451, 365385.
  • Do E, Ellis D & Noireaud J (1996). Intracellular pH and intrinsic H+ buffering capacity in normal and hypertrophied right ventricle of ferret heart. Cardiovasc Res 31, 729738.
  • Ellis D & Macleod KT (1985). Sodium-dependent control of intracellular pH in Purkinje fibres of sheep heart. J Physiol 359, 81105.
  • Fabiato A & Fabiato F (1978). Effects of pH on the myofilaments and the sarcoplasmic reticulum of skinned cells from cardiac and skeletal muscles. J Physiol 276, 233255.
  • Graber M, Barry C, Dipaola J & Hasagawa A (1992). Intracellular pH in OK cells. 2. Effects of temperature on cell pH. Am J Physiol 262, F723730.
  • Hartmann M & Decking UKM (1999). Blocking Na+−H+ exchange by cariporide reduces Na+-overload in ischaemia and is cardioprotectiv e. J Mol Cell Cardiol 31, 19851995.
  • Hearse DJ, Braimbridge MV & Jynge P (1981). Protection of the Ischaemic Myocardium: Cardioplegia. Raven Press, New York .
  • Hoshino K & Avkiran M (2001). Effects of moderate hypothermia on sarcolemmal Na+−H+ exchanger activity and its inhibition by cariporide in cardiac ventricular myocytes. Br J Pharm 134, 15871595.
  • Ives HE (1985). Proton hydroxyl permeability of proximal tubule brush-border vesicles. Am J Physiol 248, F7886.
  • Karmazyn M (1999). Expression and role of the Na+/H+ exchanger in myocardial injury: From the ischaemic and reperfused myocardium to congestive heart failure. Eur Heart J Suppl 1, K38K44.
  • Kiang JG, McKinney LC & Gallin EK (1990). Heat induces intracellular acidification in human A-431 cells – role of Na+−H+ exchange and metabolism. Am J Physiol 259, C727737.
  • Knerr SMM & Lieberman M (1993). Ion-transport during hypothermia in cultured heart-cells – implications for protection of the immature myocardium. J Mol Cell Cardiol 25, 277288.
  • Lagadic-Gossmann D, Buckler KJ & Vaughan-Jones RD (1992). Role of bicarbonate in pH recovery from intracellular acidosis in the guinea-pig ventricular myocyte. J Physiol 458, 361384.
  • Leem CH, Lagadic-Gossmann D & Vaughan-Jones RD (1999). Characterisation of intracellular pH regulation in the guinea-pig ventricular myocyte. J Physiol 517, 159180.
  • Marjanovic M, Elliott AC & Dawson MJ (1998). The temperature dependence of intracellular pH in isolated frog skeletal muscle: Lessons concerning the Na+−H+ exchanger. J Membr Biol 161, 215225.
  • Meno H, Jarmakani JM & Philipson KD (1989). Developmental-changes of sarcolemmal Na+−H+ exchange. J Mol Cell Cardiol 21, 11791185.
  • Orchard CH & Cingolani HE (1994). Acidosis and arrhythmias in cardiac muscle. Cardiovasc Res 28, 13121319.
  • Piper HM, Balser C, Ladilov YV, Schafer M, Siegmund B, Ruiz Meana M & Garcia Dorado D (1996). The role of Na+−H+ exchange in ischaemia-reperfusion. Basic Res Cardiol 91, 191202.
  • Reeves RB (1972). An imidazole alphastat hypothesis for vertebrate acid-base regulation: Tissue carbon dioxide content and body temperature in bullfrogs. Respir Physiol 14, 219236.
  • Richmond PH & Vaughan-Jones RD (1997). Assessment of evidence for K+−H+ exchange in isolated type-1 cells of neonatal rat carotid body. Pflugers Arch 434, 429437.
  • Roos A & Boron WF (1981). Intracellular pH. Physiol Rev 61, 296434.
  • Schafer C, Ladilov YV, Siegmund B & Piper HM (2000). Importance of bicarbonate transport for protection of cardiomyocytes against reoxygenation injury. Am J Physiol Heart Circ Physiol 278, H14571463.
  • Scholz W, Albus U, Counillon L, Gogelein H, Lang HJ, Linz W, Weichert A & Scholkens BA (1995). Protective effects of Hoe 642, a selective sodium–hydrogen exchange subtype-1 inhibitor, on cardiac ischaemia and reperfusion. Cardiovasc Res 29, 260268.
  • Seldin DW & Giebisch GH (1989). Regulation of Acid-Base Balance. Raven Press, New York .
  • Shipolini AR, Galinanes M, Edmondson SJ, Hearse DJ & Avkiran M (1997). Na+−H+ exchanger inhibitor Hoe 642 improves cardioplegic myocardial preservation under both normothermic and hypothermic conditions. Circulation 96, suppl. II, 266273.
  • Sun B, Leem CH & Vaughan-Jones RD (1996). Novel chloride-dependent acid loader in the guinea-pig ventricular myocyte: Part of a dual acid-loading mechanism. J Physiol 495, 6582.
  • van Dijk PLM, Hardewig I & Portner HO (1997). Temperature-dependent shift of pHi in fish white muscle: Contributions of passive and active processes. Am J Physiol 41, R8489.
  • Vaughan-Jones RD, Peercy B, Keener JP & Spitzer KW (2002). Intrinsic H+ ion mobility in the mammalian ventricular myocyte. J Physiol 541, 139158.
  • Vaughan-Jones RD & Wu ML (1990). pH dependence of intrinsic H+ buffering power in the sheep cardiac Purkinje fibre. J Physiol 425, 429448.
  • Westerblad H, Bruton JD & Lannergren J (1997). The effect of intracellular pH on contractile function of intact, single fibres of mouse muscle declines with increasing temperature. J Physiol 500, 193204.
  • Xiao XH & Allen DG (2000). Activity of the Na/H exchanger is critical to repperfusion damage and preconditioning in the isolated rat heart. Cardiovasc Res 48, 244253.
  • Xue YX, Aye NN & Hashimoto K (1996). Anti-arrhythmic effects of Hoe 642, a novel Na+−H+ exchange inhibitor, on ventricular arrhythmias in animal hearts. Eur J Pharm 317, 309316.
  • Zaniboni M, Swietach P, Rossini A, Yamamoto T, Spitzer KW, Vaughan-Jones RD (2003). Intracellular proton mobility and buffering power in cardiac ventricular myocytes from rat, rabbit and guinea-pig. Am J Physiol Heart Circ Physiol 285, H12361246.
  • Zhou ZQ & Willis JS (1989). Differential effects of cooling in hibernator and non-hibernator cells – Na+ permeation. Am J Physiol 256, R4955.