Anne-Marie Koop

3 145 23. Sharma S, Taegtmeyer H, Adrogue J, Razeghi P, Sen S, Ngumbela K, Essop MF. Dynamic changes of gene expression in hypoxia-induced right ventricular hypertrophy. Am J Physiol - Hear Circ Physiol H. Taegtmeyer, Dept. of Internal Medicine, Division of Cardiology, Univ. of Texas-Houston Med. School, Houston, TX 77030, United States; 2004; 286 :H1185–H1192. 24. Nouette-Gaulain K, Malgat M, Rocher C, Savineau J-P, Marthan R, Mazat J-P, Sztark F. Time courseof differentialmitochondrialenergymetabolismadaptation to chronic hypoxia in right and left ventricles. Cardiovasc Res F. Sztark, Laboratoire d’Anesthésiologie, E.A. Physiologie Mitochondriale, Universite Bordeaux 2, 33076 Bordordeaux, France; 2005; 66 :132–140. 25. Adrogue J V, Sharma S, Ngumbela K, Essop MF, Taegtmeyer H. Acclimatization to chronic hypobaric hypoxia is associated with a differential transcriptional profile between the right and left ventricle. Mol Cell Biochem H. Taegtmeyer, Department of Internal Medicine, Division of Cardiology, University of Texas Houston - Medical School, Houston, TX 77030, United States; 2005;278:71–78. 26. Beek-Harmsen BJ Van, Laarse WJ Van Der. Immunohistochemical determination of cytosolic cytochrome c concentration in cardiomyocytes. J Histochem Cytochem W.J. Van Der Laarse, Department of Physiology, Institute for Cardiovascular Research, VU University Medical Center, 1081 BT Amsterdam, Netherlands; 2005;53:803–807. 27. Schott P, Singer SS, Kögler H, Neddermeier D, Leineweber K, Brodde O-E, Regitz-Zagrosek V, Schmidt B, Dihazi H, Hasenfuss G. Pressure overload and neurohumoral activation differentially affect the myocardial proteome. Proteomics P. Schott, Georg-August- Universitat Gottingen, Abt. fur Kardiologie und Pneumologie, D-37075 Göttingen, Germany; 2005;5:1372–1381. 28. Faber MJ, Dalinghaus M, Lankhuizen IM, Bezstarosti K, Dekkers DHW, Duncker DJ, Helbing WA, Lamers JMJ. Proteomic changes in the pressure overloaded right ventricle after 6 weeks in young rats: Correlations with the degree of hypertrophy. Proteomics J.M.J. Lamers, Department of Biochemistry, Cardiovascular Research School COEUR, Erasmus MC, 3000 DR Rotterdam, Netherlands; 2005; 5 :2519–2530. 29. Kluge R, Barthel H, Pankau H, Seese A, Schauer J, Wirtz H, Seyfarth H-J, Steinbach J, Sabri O, Winkler J. Different mechanisms for changes in glucose uptake of the right and left ventricular myocardium in pulmonary hypertension. J Nucl Med R. Kluge, Department of Nuclear Medicine, University of Leipzig, D-04103 Leipzig, Germany; 2005;46:25–31. 30. Oikawa M, Kagaya Y, Otani H, Sakuma M, Demachi J, Suzuki J, Takahashi T, Nawata J, Ido T, Watanabe J, Shirato K. Increased [18F]fluorodeoxyglucose accumulation in right ventricular free wall in patients with pulmonary hypertension and the effect of epoprostenol. J Am Coll Cardiol Y. Kagaya, Department of Cardiovascular Medicine, Tohoku University, Graduate School of Medicine, Aoba-ku, Sendai 980-8574, Japan; 2005;45:1849–1855. 31. Redout EM, Wagner MJ, Zuidwijk MJ, Boer C, Musters RJP, Hardeveld C van, Paulus WJ, SimonidesWS. Right-ventricular failure is associatedwith increasedmitochondrial complex II activity and production of reactive oxygen species. Cardiovasc Res 2007;75:770–781. 32. Faber MJ, Dalinghaus M, Lankhuizen IM, Bezstarosti K, Verhoeven AJM, Duncker DJ, Helbing WA, Lamers JMJ. Time dependent changes in cytoplasmic proteins of the right ventricle during prolonged pressure overload. J Mol Cell Cardiol M. Dalinghaus, Erasmus MC-Sophia, Department of Pediatrics, Division of Pediatric Cardiology, 3015 GJ Rotterdam, Netherlands; 2007;43:197–209.