[1] |
V P Wright, P F Klawitter, D F Iscru, A J Merola, and T L Clanton
"Superoxide scavengers augment contractile but not energetic responses to hypoxia in rat diaphragm." J. Appl. Physiol. 98, 1753-60 (2005).
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[2] |
Brian S Palmer, Paul F Klawitter, Peter J Reiser, and Mark G Angelos
"Degradation of rat cardiac troponin I during ischemia independent of reperfusion." Am. J. Physiol. Heart Circ. Physiol. 287, H1269-75 (2004).
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[3] |
Paul F Klawitter and Thomas L Clanton
"Tension-time index, fatigue, and energetics in isolated rat diaphragm a new experimental model." J. Appl. Physiol. 96, 89-95 (2004).
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[4] |
Mark G Angelos, Holt N Murray, Robert T Gorsline, and Paul F Klawitter
"Glucose, insulin and potassium GIK during reperfusion mediates improved myocardial bioenergetics." Resuscitation 55, 329-36 (2002).
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[5] |
Paul F Klawitter, Holt N Murray, Thomas L Clanton, Brian S Palmer, and Mark G Angelos
"Low flow after global ischemia to improve postischemic myocardial function and bioenergetics." Crit. Care Med. 30, 2542-7 (2002).
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[6] |
Paul F Klawitter, Holt N Murray, Thomas L Clanton, and Mark G Angelos
"Reactive oxygen species generated during myocardial ischemia enable energetic recovery during reperfusion." Am. J. Physiol. Heart Circ. Physiol. 283, H1656-61 (2002).
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[7] |
T L Clanton and P F Klawitter
"Invited review Adaptive responses of skeletal muscle to intermittent hypoxia the known and the unknown." J. Appl. Physiol. 90, 2476-87 (2001).
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[8] |
T L Clanton, L Zuo, and P Klawitter
"Oxidants and skeletal muscle function: physiologic and pathophysiologic implications." Proc Soc Exp Biol Med 222, 253-62 (1999).
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