Stephen V. Rendig scite author profile

Background-Acupuncture is reported to reduce myocardial ischemia, arrhythmias, and hypertension. To investigate the physiological mechanisms underlying these observations, a model of reflex-induced, reversible myocardial ischemia was developed to test the effects of median nerve stimulation as a surrogate for electroacupuncture. Methods and Results-Chloralose-anesthetized cats were instrumented to measure arterial blood pressure, left ventricular pressure, left ventricular dP/dt, heart rate, left anterior descending (LAD) coronary blood velocity, and regional wall motion. The LAD artery either was partially occluded or a small diagonal branch was ligated. Subsequently, transient reflex activation of the cardiovascular system was evoked by application of bradykinin (typically 1 g/mL) to the gallbladder, which significantly increased myocardial oxygen demand (double product), left ventricular dP/dt, and coronary blood velocity and caused ischemia-induced regional dysfunction, evidenced by significant (PϽ.05) reduction in normalized wall thickening (10.7Ϯ4.2% versus Ϫ23.6Ϯ2.9%; control versus ischemia; nϭ7). However, when median nerves were stimulated with low frequency (5 Hz) to mimic electroacupuncture, bradykinin-induced change in normalized wall thickening was significantly improved (Ϫ23.6Ϯ2.9% versus 9.8Ϯ4.9%; ischemia versus median nerve stimulation, PϽ.05) and remained augmented Ն1 hour. Results were similar in partial and complete occlusion groups. Significant improvement in wall thickening was associated with unchanged increment of coronary blood velocity and significantly diminished increments of double product and diastolic blood pressure. Conclusions-These results suggest that stimulation of the median nerve to mimic electroacupuncture diminishes regional myocardial ischemia triggered by a sympathetically mediated increase in cardiac oxygen demand. The mechanism of this effect is related to reduction in cardiac oxygen demand, secondary to a diminished pressor response. These data provide the first documentation of the physiological mechanisms underlying the possible beneficial effect of electroacupuncture in the context of restricted coronary blood flow and augmented myocardial oxygen demand.

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Limitation of reperfusion injury by a monoclonal antibody to C5a during myocardial infarction in pigs

Amsterdam

Stahl

Pan

et al. 1995

American Journal of Physiology-Heart and Circulatory Physiology

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The complement system has been implicated in reperfusion injury during acute myocardial infarction. We therefore attempted to reduce reperfusion injury with a monoclonal antibody (MAb) to the complement component, C5a. In 13 control pigs and 9 pigs pretreated with this MAb, ischemia was induced by a 50-min occlusion of the left anterior descending coronary artery, followed by 3 h of reperfusion. Infarct area (as percent of risk area) was reduced from 58 +/- 5% in controls to 38 +/- 7% (P < 0.05) in MAb-treated animals. Heart rate-systolic blood pressure product, left ventricular (LV) first derivative of pressure, LV end-diastolic pressure, and coronary blood flow were similar (P > 0.05) in the two groups. At 15 min of reperfusion, immunoreactive factor Bb began to increase significantly (P < 0.05) in regional coronary venous plasma, consistent with activation of the alternative complement pathway. The anti-C5a MAb did not attenuate formation of the membrane attack complex (C5b-9) as assessed by a hemolytic complement assay. Myocardial myeloperoxidase activity, a marker of tissue neutrophil concentration, was similar in the risk regions of the two groups, suggesting that neutrophil infiltration was unaltered by the MAb. However, in vitro the MAb (15 and 30 micrograms/ml) reduced C5a-stimulated neutrophil aggregation (67.4 and 70.9%), chemotaxis (52.5 and 81.4%), degranulation (66.7 and 75.8%), and superoxide generation (26.7 and 100%). In conclusion, myocardial infarction-reperfusion is associated with activation of the alternative complement pathway. Furthermore, a MAb to C5a that inhibits neutrophil cytotoxic activity, but neither the membrane attack complex nor myocardial neutrophil accumulation, decreases infarct size in pigs. These data suggest an important role of the alternative complement pathway and C5a in the propagation of ischemia cardiac damage during reperfusion.

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Microvascular and myocardial contractile responses to ischemia: influence of exercise training

Symons

Rendig

Stebbins

et al. 2000

Journal of Applied Physiology

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We hypothesized that exercise training preserves endothelium-dependent relaxation, lessens receptor-mediated constriction of coronary resistance arteries, and reduces myocardial contractile dysfunction in response to ischemia. After 10 wk of treadmill running or cage confinement, regional and global indexes of left ventricular contractile function were not different between trained and sedentary animals in response to three 15-min periods of ischemia (long-term; n = 17), one 5-min bout of ischemia (short-term; n = 18), or no ischemia (sham-operated; n = 24). Subsequently, coronary resistance vessels ( approximately 106 +/- 4 microm ID) were isolated and studied using wire myographs. Maximal ACh-evoked relaxation was approximately 25, 40, and 60% of KCl-induced preconstriction after the long-term, short-term, and sham-operated protocols, respectively, and was similar between groups. Maximal sodium nitroprusside-evoked relaxation also was similar between groups among all protocols, and vasoconstrictor responses to endothelin-1 and U-46619 were not different in trained and sedentary rats after short-term ischemia or sham operation. We did observe that, after long-term ischemia, maximal tension development in response to endothelin-1 and U-46619 was blunted (P < 0.05) in trained animals by approximately 70 and approximately 160%, respectively. These results support our hypothesis that exercise training lessens receptor-mediated vasoconstriction of coronary resistance vessels after ischemia and reperfusion. However, training did not preserve endothelial function of coronary resistance vessels, or myocardial contractile function, after ischemia and reperfusion.

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Stephen V. Rendig

Reversal of Reflex-Induced Myocardial Ischemia by Median Nerve Stimulation

Limitation of reperfusion injury by a monoclonal antibody to C5a during myocardial infarction in pigs

Microvascular and myocardial contractile responses to ischemia: influence of exercise training

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