Positron emission tomography allows noninvasive assessment of myocardial blood flow and metabolism, and may aid in defining the extent and severity of an ischemic injury. This hypothesis was tested by studying, in chronically instrumented dogs, regional blood flow and metabolism during and after a 3 hour balloon occlusion of the left anterior descending coronary artery. The metabolic findings after ischemia were compared with the recovery of regional function over a 4 week period. N-13 ammonia was used as a blood flow tracer, and C-11 palmitic acid and F-18 deoxyglucose as tracers of fatty acid and glucose metabolism, respectively. Regional myocardial function was monitored with ultrasonic crystals implanted subendocardially. Regional function improved most between 24 hours and 1 week after reperfusion, but was still attenuated at 4 weeks. The slow functional recovery was paralleled by sustained metabolic abnormalities, reflected by segmentally delayed clearance of C-11 activity from myocardium and increased uptake of F-18 deoxyglucose. Absence of blood flow and C-11 palmitic acid uptake at 24 hours of reperfusion correlated with extensive necrosis as evidenced by histologic examination. Conversely, uptake of C-11 palmitic acid with delayed C-11 clearance and increased F-18 deoxyglucose accumulation identified reversibly injured tissue that subsequently recovered functionally and revealed little necrosis. Thus, recovery of metabolism after 3 hours of ischemia is slow in canine myocardium and paralleled by slow recovery of function. Metabolic indexes by positron tomography early after reperfusion can identify necrotic and reversibly injured tissue. Positron tomography may therefore aid in defining the extent and prognosis of an ischemic injury in patients undergoing reperfusion during evolving myocardial infarction.
Three measures of left ventricular (LV) performance derived from pressure (P)-volume (V) loops have been proposed: the end-systolic P-V (PES-VES) relation, the stroke workend-diastolic V (SW-VED) relation, and maximum dP/dt-VED (dP/dtmax-VED) relation. We evaluated the variability of repeated determinations, and inotropic and load sensitivity of these relations in conscious dogs. LVV was determined from three orthogonal LV diameters measured by sonomicrometry. Three to six sets of variably loaded P-V loops were generated by transient caval occlusions before and again after increasing inotropic state by infusing dobutamine (6±1 ug/kg/min, mean+SD) and after increasing PEs by 49±17 mm Hg with phenylephrine following autonomic blockade. The slope (Msw) of the SW-VED relation was the least variable at constant inotropic state (coefficient of variation, 4±N3%) compared with the slope (EES) of the PES-VEs relation (8+±3%) or the slope (dE/dtmax) of the dP/dtmax-VED relation (11±6%, p
We tested the hypothesis that intracoronary administration of L-arginine (L-Arg), the physiological nitric oxide (NO) precursor, during reperfusion would attenuate postischemic damage by L-Arg NO-pathway mechanisms. Open-chest, anesthetized dogs underwent 60 min of left anterior descending coronary arterial (LAD) occlusion followed by 270 min of reperfusion. Dogs received intracoronary 10 mM L-Arg (n = 9 dogs), intracoronary 10 mM D-arginine (D-Arg, n = 7), or saline vehicle (Veh, n = 10) in the LAD during the first 120 min of reperfusion using an extracorporeal system. After 270 min of reperfusion, segmental systolic and diastolic function were comparably impaired in all three groups. Infarct size (triphenyltetrazolium chloride) expressed as a percentage of the area at risk (An/Ar) was significantly (P < 0.05) reduced in the L-Arg group (17.7 +/- 3.2%) compared with the Veh group (34.8 +/- 2.4%); D-Arg reversed this cardioprotection (48.8 +/- 5.2%, P < 0.05 vs. L-Arg, Veh). Cardiac myeloperoxidase activity, an index of neutrophil accumulation (U/100 mg tissue), was significantly (P < 0.05) lower in the necrotic tissue of the L-Arg group (0.88 +/- 0.26) than in the Veh group (2.46 +/- 0.38). Furthermore, responses to endothelium-dependent vasodilators acetylcholine and A23187 in isolated ischemic-reperfused LAD rings were significantly (P < 0.05) greater in the L-Arg group than in the other two groups. We conclude that intracoronary infusion of L-Arg during the early phase of reperfusion reduced neutrophil accumulation and infarct size and the infusion preserved endothelial function, possibly by increasing NO release or production by the endothelium.
We conclude that 1) endogenous adenosine building up during ischemia is cardioprotective, and 2) pretreatment with adenosine confers cardioprotection independent of hemodynamic effects. Whether pretreatment effects of adenosine subsequently modulate the effects of endogenous adenosine (through alterations in receptor population or sensitivity) or endogenous and exogenous adenosine represent additive compartments is unclear.
While adenosine exerts its predominant modulation of infarct size during reperfusion, the cardioprotection mediated by A1 receptor mechanisms is modest and exerted principally during the ischaemic time period.
Adenosine (ADO) attenuates polymorphonuclear neutrophil (PMN)-mediated damage, partly by inhibiting superoxide anion (O2-.) generation and PMN adherence to the coronary artery endothelium. This study tests the hypothesis that the antineutrophil effects of ADO are mediated by A2-receptor activation. Isolated canine PMN were activated by 100 nM platelet-activating factor (PAF). Compared with untreated activated PMN (100%), ADO attenuated O2-. production (46 +/- 9% of activated PMN), which was mimicked by the A2 agonist CGS-21680 (50 +/- 6% of activated PMN), unaltered by A1-selective antagonism with KW-3902 in the presence of ADO (40 +/- 7%), but blocked by combined A1-A2 blockade with 8-p-sulfophenyl theophylline (8-SPT, 94 +/- 14%). ADO reduced adherence of fluorescent PMN to endothelial surfaces of isolated canine coronary artery segments from 174 +/- 12 to 29 +/- 9/mm2 (P < 0.01), which was unaltered by A1 antagonism (35 +/- 7/mm2) but was reversed by 8-SPT (150 +/- 11/mm2). CGS-21680 inhibited adherence (48 +/- 8/mm2), comparable to that of ADO. Canine coronary artery rings were incubated with activated PMN to induce injury to the endothelium. The concentration of drug required to elicit 50% of maximal relaxation (-log M) derived from dose-relaxation responses to acetylcholine in PMN-damaged rings was significantly (P < 0.05) less in ADO-treated (6.88 +/- 0.08) and CGS-21680-treated (7.12 +/- 0.09) rings than untreated rings (6.54 +/- 0.10). This protection with ADO was reversed by inclusion of 8-SPT (6.49 +/- 0.12) but not KW-3902 (6.96 +/- 0.07). We conclude that ADO reduces PMN-induced coronary endothelial injury by A2-receptor-mediated inhibition of O2-. generation and adherence.
To determine the effect of the intact pericardium on ventricular end-diastolic pressures (EDP) during acute volume loading, we measured left ventricular (LV) and right ventricular (RV) micromanometer pressure and LV volume using a conductance catheter in eight open-chest, anesthetized dogs. A range of LV pressure and volume was obtained by intravascular volume expansion with the pericardium intact and then over a similar range after removal of the pericardium. Pericardial pressure (Pper) was calculated using static equilibrium analysis as the difference between LVEDP with the pericardium present and absent at a constant LV volume. At the beginning of the fluid infusion (LVEDP 7.3 +/- 1.7 mmHg and RVEDP 4.4 +/- 2.6 mmHg, mean +/- SD), Pper was not different from zero (-1.0 +/- 2.3 mmHg, P not significant). The onset of pericardial restraint (Pper greater than or equal to 0 mmHg) occurred when LVEDP was 9.1 +/- 2.9 mmHg and RVEDP was 4.1 +/- 2.9 mmHg. At low cardiac volumes before fluid infusion, RV transmural pressure was positive and significantly greater than the near zero Pper. After the onset of pericardial restraint, however, RVEDP and Pper increased similarly and were related according to Pper = 1.1 (+/- 0.34) RVEDP - 4.2 (+/- 2.6) mmHg, standard deviation 0.6 +/- 0.8 mmHg, r = 0.98 +/- 0.10. These data indicate that the intact pericardium behaves in two functionally distinct ways. At low cardiac volumes, Pper is zero and the pericardium does not affect LV filling. RV transmural pressure is positive and greater than Pper.(ABSTRACT TRUNCATED AT 250 WORDS)
We assessed the linearity and slope of the left ventricular end-systolic pressure (PES)-volume (VEs) relation over a wide range of contractile states in conscious dogs. The
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