4Quednau BD. Tissue specificity and alternative splicing form of the Na^+-Ca^2+ exchanger isofonm NCX1, NCX2 and NCX3 in rat. An J Physiol ,1997; 272: 1250-1261.
5Studer R. Gene expression tithe cardiac Na^+/Ca^2+ exchanger in end-stage human heart failure. Lirchlation , 1994; 75: 443-453.
6Reincke H. Cardiac Na^+/Ca^2+ exchanger activity in patiens with end-stage heart failure. Cardiovasc Res, 1996; 31: 48-54.
7Hasenfuss G. Relation.drip between Na^+ -Ca^2+ exchanger protein levels and diastolic function of failing human myocardium. Circulation , 1999; 99:641-648.
8Ladilov Y. Cardioprotective effects of KBR7943 a novel inhabitor of the reverse mode of Na^+-Ca^2+ exchanger. Am J Physiol, 1999; 276: 1868-1876.
9Mukai M. Effects of a selsctive inhibitor of Na^+/Ca^2+ exchanger, KB-R7943, on reoxygenation-induced injuries in guinea pig papillary muscles. J Cardiovasc Phamacol, 2000; 35: 121-128.
10Watuno T. Effects of Na^+/Ca^2+ exchanger inhibitor, KB-R7943 on occaban induced arrhythmias in guinea pigs. Br J Pharmacol , 1999; 127:1846-1856.
二级参考文献18
1[1]Tomaselli GF,Marban E. Electrophysiological remodeling m hypertrophy and heart failure[J]. Cardiovasc Res, 1999,42: 270 283.
2[2]Reuter H,Seitz N. The dependence of calcium efflux from cardiac muscle on temperature and external ion composition[J]. J Physiol, 1968,195:451 470.
3[3]Nicoll,DA,Longoni S, Philipson KD. Molecular cloning and functional ex pression of the cardiac sarcolemmal Na +/Ca + + exchanger [J ]. S cience,1990,250; 562-564.
4[4]Janvier N C Boyett M. R The role of Na+/Ca+ +exchange current in the cardiac potential[J]. Cardiovasc Res, 1996,32: 69-84.
5[5]Nakanishi H,Makino N,Hata T,et al. Sarcolemmal Ca+ +transport activities in cardiac hypertrophy caused by pressure overload[J]. Am J Physiol,1989,257:H349-H356.
6[6]Studer R,Reinecke H,Bilger J,et al. Gene expression of the cardiac Na+/Ca +exchanger in end-stage human heart failure[J]. Circulation Res, 1994,75:443-453.
7[7]Hanf R,Drubaix I,Marotte F,et al. Rat cardiac hypertrophy. Aliered sodium-calcium exchange activity in end-stage human heart failure [J]. FEBsLett, 1990,236:145-149.
8[8]Kawamura MS,Natari T,Nagati T. In:Cardiac Adaptationto HemodynamicOverload [M ]. Training and stress, 1983. P. 182-188.
9[9]Heyliger CE,Takeo S Dhalla NS. Alteration in sarcolemmal Na +/Ca + +exchange and ATP dependent Ca ++-binding in hypertrophied heart [J].Can. J. Cardiol, 1985,328-339.
10[10]Reinecke H,Studer R,Vetter R,et al. Cardiac Na+/Ca+ ++ exchange activity in patients with end-stage heart failure[J]. Cardiovasc Res, 1996,31:48-54.
