Use of NaCl saline hydration and N-Acetyl Cysteine to prevent contrast induced nephropathy in different populations of patients at high and low risk undergoing coronary artery angiography.

AIM: Contrast-induced nephropathy (CIN) is most commonly defined as acute renal failure occurring within 48-72 h of exposure to intravascular radiographic contrast medium that is not attributable to other causes. In international literature a 25% increase in serum creatinine levels or an increase in absolute values of 0.5 mg/dL from baseline has been suggested to define CIN. The reported incidence of CIN varies widely, ranging from 2% to 50%. This variability results from differences in the presence or absence of risk factors. With a retrospective analysis authors evaluated the use of NaCl saline hydration and N-acetyl cysteine (NAC) to prevent CIN in different populations of patients at high and low risk undergoing coronary artery angiography. METHODS: From January 2007 to December 2008, 597 patients underwent coronary artery angiography with a low osmolarity contrast agent. Nephrotoxic drugs such as diuretics, metformin, ACE-I and ARBs were stopped at least 24 h before the procedure. The population was divided into two groups: group A (high risk 342 patients, 57.2%) identified for the presence of at least one risk factor such as diabetes, age >65 years, baseline creatinine >1.4 mg/dL and group B (low risk 255 patients, 42.8%) for the absence of any of the risk mentioned above. Only group A was treated with a saline hydration (1 mL/kg/h) plus NAC 600 mg 12 h before and 12 h after the procedure. RESULTS: The overall incidence of CIN was 6.7% (40 patients). In particular, the incidence of CIN was 4.4% (15 patients) in the group A and 9.8% (25 patients) in the group B respectively (P=0.017). Interestingly, the Contrast Index (volume administrated/theoretical maximum volume) was significantly lower in group B (P<0.005). In the multivariate analysis, including risk factors such as age, diabetes, hypertension, hypercholesterol-mia, current smoke, baseline creatinine level, Contrast Index and hydration, the last variable was the only one inversely correlated independently with the incidence of CIN (P=0.001). CONCLUSIONS: The hydration with saline and NAC is an effective and low-cost tool in preventing CIN in patients undergoing coronary artery angiography and, according to the current guidelines, should be used in all high-risk patients. Present results show that even in patients at low risk for CIN, hydration could be useful: in fact, despite the Contrast Index was significantly lower in this population, the incidence of CIN was greater, thus suggesting a potential role for hydration also in the low-risk population.

Similar cardiac remodelling after transcatheter atrial septal defect closure in children and young adults.

OBJECTIVE: To study the cardiac geometric changes after transcatheter closure of large atrial septal defects (ASDs) according to patient age at the time of the procedure. DESIGN: Prospective echocardiographic follow-up study. SETTING: Tertiary referral centre. PATIENTS AND INTERVENTION: 25 asymptomatic patients younger than 16 years (median 8 years; group 1) and 21 asymptomatic adults (median 38 years; group 2) underwent percutaneous closure of large ASD with the Amplatzer septal occluder device (mean 25 (SD 7) mm). MAIN OUTCOME MEASURES: Cardiac remodelling was assessed by M mode and two dimensional echocardiography one and six months after ASD closure. RESULTS: By six months, right atrial volume decreased from 31 (15) to 19 (5) ml/m(2) (p < 0.001) and right ventricular (RV) transverse diameter decreased from 29.8 (8.6) to 23.2 (5.6) mm/m(2) (p < 0.001). Conversely, left atrial volume did not change significantly (from 18 (6) to 20 (6) ml/m(2), NS) and left ventricular (LV) transverse diameter increased from 27.8 (6.4) to 31.8 (7.3) mm/m(2) (p < 0.05). Ventricular remodelling resulted in an RV:LV diameter ratio decrease from 1.1 (0.2) to 0.7 (0.1) (p < 0.001). The magnitude and time course of cardiac remodelling did not differ significantly between the age groups. Indeed, right atrial volume decreased by 33 (26)% versus 37 (23)%, RV diameter decreased by 26 (10)% versus 20 (13)%, LV diameter increased by 17 (15)% versus 15 (10)%, and RV:LV diameter ratio decreased by 36 (8)% versus 27 (15)% in groups 1 and 2, respectively. CONCLUSIONS: Cardiac remodelling after percutaneous ASD closure seems to be independent of the patient's age at the time of the procedure up to early adulthood. Thus, postponing ASD closure for a few years may be a reasonable option for potentially suitable asymptomatic children.

Effects of high-cholesterol and atherogenic diets on vascular relaxation in spontaneously hypertensive rats.

Hypercholesterolemia is associated with more rapid development of atherosclerosis, and hypertension is frequently associated with abnormal vascular function. Therefore, to investigate the role of hypercholesterolemia and hypertension on vascular function, we studied three groups of male rats (aged 6 wk): normotensive Wistar-Kyoto rats (WKY) as a control group and spontaneously hypertensive rats (SHR) receiving either standard diet (SD; SHR-SD) or high-cholesterol (1%) diet (ChD; SHR-ChD). Vascular reactivity was tested on isolated aortic rings at 4 wk and at 3 and 6 mo of diet. At 3 mo, endothelium-dependent relaxation to acetylcholine (ACh) and ADP was significantly reduced in SHR-ChD but not in SHR-SD compared with WKY. At 6 mo, relaxations to ACh were further impaired in both SHR groups compared with WKY. Endothelium-independent vasodilation to nitroglycerin (NTG) was not different in the three groups of animals throughout 6 mo of diet. In additional experiments, we evaluated vascular reactivity in rats fed with ChD enriched with an excess of vitamin D [atherogenic diet (AD)] capable of producing vascular atherosclerotic lesions. In particular, we studied three additional groups of WKY and SHR rats fed with SD, AD, or AD plus a nonhypotensive dose of the calcium antagonist nitrendipine (Nit). Vasodilation to ACh and ADP was significantly blunted in WKY-AD compared with WKY-SD, whereas it was partially improved in WKY-Nit. There were no differences in endothelium-independent relaxation to NTG in the three WKY groups. In contrast, SHR-AD showed a marked reduction of endothelium-dependent and -independent vasodilation, but only endothelium-dependent vasodilation was preserved by addition of Nit to the diet. These data suggest that the development of vascular dysfunction in rat genetic hypertension is accelerated by ChD, in absence of detectable vascular lesions. Our study also shows that AD alters both vascular smooth muscle and endothelium-dependent relaxation. Low doses of Nit partially preserve endothelium-dependent vasodilation but do not affect the impairment of smooth muscle function in these rats.

Role of oxidative metabolism on endothelium-dependent vascular relaxation of isolated vessels.

The obligatory role of endothelium in mediating vasodilator response to numerous humoral agents has been definitely accepted. However, the chemical identity of endothelium-derived relaxing factor(s) (EDRF) and the mechanisms underlying its synthesis and release remain unclear. Much evidence suggests a compartmentalization of ATP into cells, such that ATP derived from glycolysis or from oxidative metabolism is used for different cellular functions. To investigate which energy source (i.e. oxidative v glycolytic metabolism) is preferentially used for the biosynthesis and/or release of EDRF, rings of rabbit thoracic aorta were studied in organ chambers. After preconstriction with PGF2 alpha, inhibition of glycolysis with either iodoacetate (300 microM) (n = 6) or 2-deoxyglucose (20 mM) (n = 6) did not affect concentration-response curve to the endothelium-dependent agent acetylcholine. In contrast, inhibition of oxidative metabolism with either 1 mM amytal or 5 microM rotenone markedly impaired relaxation to acetylcholine. In fact, maximal relaxation was 75 +/- 5% in control rings (n = 6), and 42 +/- 7% (P < 0.01) in amytal-treated rings (n = 6), whereas rotenone converted acetylcholine relaxation into constriction (n = 6; P < 0.001). The effect of amytal on endothelium-dependent relaxation was reversible, suggesting that endothelial cells were not damaged by the inhibitor. Amytal also markedly reduced endothelium-mediated relaxation to ADP (37 +/- 6%; P < 0.05; n = 5), as well as to the calcium ionophore A23187. Neither mitochondrial inhibitor affected relaxation to nitroglycerin, an endothelium-independent agent. Finally, amytal did not affect relaxation to S-nitrosocysteine (a recently proposed EDRF) (n = 5), suggesting that the effects on acetylcholine and ADP responses were not due to non-specific interferences with EDRF once released from endothelial cells. In conclusion, our data demonstrate that the active process of biosynthesis and/or release of EDRF requires energy derived mainly from mitochondrial oxidative metabolism.

Ceruloplasmin impairs endothelium-dependent relaxation of rabbit aorta.

This study evaluated the effects of ceruloplasmin, the copper-containing blue oxidase of vertebrate plasma, on the relaxation of rabbit aortic rings after endothelial release of nitric oxide (NO). Ceruloplasmin at physiological, i.e., micromolar, concentrations inhibited relaxation of rabbit aorta induced by endothelium-dependent agonists like acetylcholine or ADP, whereas it was ineffective toward vasodilation due to direct stimulation of smooth muscle cells by nitroglycerin. The effect was reversible and specific for native, fully metalated ceruloplasmin, since relaxation was not impaired by the heat-treated or metal-depleted derivatives. A trapping mechanism, involving a direct interaction of NO or other NO-containing species (like nitrosothiols and iron-dinitrosyls) with the copper sites and/or with the free thiol of ceruloplasmin, could be safely excluded on the basis of spectroscopic and chemical analyses of the protein exposed to authentic NO, nitrosothiols, or iron-dinitrosyls. The data presented in this paper constitute the first evidence of impairment of the endothelium-dependent vasodilatation by a plasma protein and may shed some light on the still uncertain physiological role of ceruloplasmin.

Effect of acute hypertension in the coronary circulation: role of mechanical factors and oxygen radicals.

OBJECTIVE: In previous studies severe, acute hypertension damaged the endothelium in proximal coronary arteries and selectively potentiated constriction of the artery to serotonin. In the present study we investigated the role of several mechanical factors and of oxygen radicals in this response. DESIGN: To test the role of mechanical factors in the response to acute hypertension, the effect of different magnitudes of elevation of perfusion pressure and the rate of the rise in perfusion pressure were studied. Pharmacologically induced increases in blood pressure were produced by infusion of angiotensin II or phenylephrine. The role of oxygen radicals was tested by measuring responses to serotonin before and after increases in perfusion pressure in dogs treated with a combination of superoxide dismutase and catalase or with deferoxamine. METHODS: In open-chest anesthetized dogs the diameter of the left anterior descending coronary artery (LADCA) was measured using sonomicrometer crystals, and the LADCA was perfused at a constant pressure of 80 mmHg from a reservoir. Responses to serotonin were measured at this perfusion pressure before and after an abrupt increase in perfusion pressure. RESULTS: Intracoronary serotonin (5 or 50 micrograms/min) produced a dose-dependent constriction of the LADCA while increasing coronary flow. Abruptly increasing the coronary perfusion pressure from 80 to 120, 150 or 200 mmHg augmented the constriction to serotonin twofold, whereas increases in perfusion pressure to 100 mmHg had no effect. Increasing coronary pressure slowly (over a 4-min period) from 80 to 200 mmHg augmented constriction to serotonin. Inducing acute hypertension (coronary pressure 200 mmHg) pharmacologically with angiotensin II also augmented constriction to serotonin, whereas phenylephrine-induced hypertension did not. Superoxide dismutase, a scavenger of superoxide anions and catalase, a scavenger of hydrogen peroxide, prevented the augmented constriction to serotonin following a pressure increase. Deferoxamine, which prevents generation of hydroxyl radicals from superoxide anions and hydrogen peroxide, also prevented the enhanced constriction to serotonin following an acute pressure increase. CONCLUSIONS: Moderate physiological increases in pressure, induced either mechanically or pharmacologically, can augment the responses to serotonin. Oxygen-derived free radicals, particularly hydroxyl radicals, might be involved in the abnormal response to serotonin following an abrupt increase in coronary pressure.

Local effect of serotonin released during coronary angioplasty.

BACKGROUND: Serotonin is released after the aggregation of platelets, a phenomenon that may occur after coronary angioplasty. We sought to determine whether serotonin is released into the coronary circulation during coronary angioplasty and to assess whether serotonin can affect coronary-artery tone during angioplasty. METHODS: Blood samples were drawn from the ascending aorta and the coronary sinus of eight patients scheduled to undergo angioplasty of the left anterior descending or circumflex coronary artery. Samples were obtained before angioplasty and after each balloon dilation. The dimensions of arterial segments distal to the site of dilation were measured angiographically before angioplasty and 5 and 15 minutes after the last dilation in these eight patients and in seven similar patients; the latter group was treated with ketanserin, a serotonin2-receptor antagonist, before angioplasty. RESULTS: Before the eight patients underwent angioplasty, their mean (+/- SE) plasma serotonin level in the aorta was 2.5 +/- 0.7 ng per milliliter and that in the coronary sinus was 2.3 +/- 0.6 ng per milliliter (P = 0.34). The serotonin level in plasma from the coronary sinus rose significantly, to 31.5 +/- 13.5, 17.6 +/- 5.3, and 29.1 +/- 8.1 ng per milliliter after the first, second, and third dilations, respectively (P = 0.014 for the comparison with preoperative levels). In contrast, the serotonin level in plasma from the ascending aorta did not change. The cross-sectional area of the coronary artery was significantly reduced 5 and 15 minutes after the last dilation (from a preoperative value of 3.7 +/- 0.5 mm2 to 2.7 +/- 0.4 mm2 15 minutes after the last dilation; P = 0.011). This vasoconstriction was significantly blunted in the seven patients who received ketanserin (from 3.7 +/- 0.5 mm2 before angioplasty to 3.9 +/- 0.4 mm2 after 15 minutes) (P = 0.017 for comparison with the eight patients who did not receive ketanserin). CONCLUSIONS: Serotonin is released into the coronary circulation during angioplasty, and this vasoactive substance may contribute to the occurrence of vasoconstriction distal to the dilated site. The vasoconstriction is attenuated by ketanserin, a serotonin2-receptor antagonist.

Endothelium-derived relaxing factor modulates platelet aggregation in an in vivo model of recurrent platelet activation.

It has been shown that endothelium-derived relaxing factor (EDRF) may inhibit platelet aggregation in vitro through activation of platelet-soluble guanylate cyclase. To assess whether EDRF may also affect platelet function in vivo, intravascular platelet aggregation was initiated by placing an external constrictor around endothelially injured rabbit carotid arteries. Carotid blood flow velocity was measured continuously by a Doppler flow probe placed proximal to the constrictor. After placement of the constrictor, cyclic flow reductions (CFRs), due to recurrent platelet aggregation, developed at the site of the stenosis. After CFRs were observed for 30 minutes, a solution of authentic nitric oxide (NO, n = 10) was infused into the carotid artery via a small catheter placed proximally to the stenosis. Before infusion of NO, CFR frequency averaged 18.3 +/- 2.9 cycles per hour, and CFR severity (lowest carotid blood flow as percentage of baseline values) was 6 +/- 1%. NO completely inhibited CFRs in all animals, as shown by the normal and constant pattern of carotid blood flow (CFR frequency, 0 cycles per hour, p < 0.001; carotid blood flow, 92 +/- 5%, p = NS versus baseline). These effects were transient; CFRs were restored spontaneously within 10 minutes after cessation of NO infusion. After CFRs returned, S-nitroso-cysteine (S-NO-cys), a proposed form of EDRF, was infused into the carotid artery. S-NO-cys also abolished CFRs in all animals but at a significantly lower dose than NO (0.3 +/- 0.1 versus 12 +/- 4 nmol/min). The role of endogenously released EDRF in modulating in vivo platelet function was then tested in additional experiments. In 10 animals, endogenous release of EDRF was stimulated by infusing acetylcholine into the aortic root during CFRs. Infusion of acetylcholine was also associated with a complete inhibition of CFRs, similar to that observed during exogenous infusion of NO or S-NO-cys. These antithrombotic effects of acetylcholine were completely lost when EDRF synthesis was prevented by administration of the L-arginine analogue NG-monomethyl L-arginine (L-NMMA). Furthermore, in six additional rabbits the basal release of EDRF was blocked by L-NMMA after CFRs had been previously abolished with aspirin or the combination of aspirin and ketanserin, a serotonin S2 receptor antagonist. L-NMMA caused restoration of CFRs in all animals, indicating that even the basal release of EDRF is important in modulating platelet reactivity in vivo. Taken together, the data of the present study demonstrate that endogenous EDRF might importantly contribute to the modulation of platelet function in vivo.

Evidence of a role for compounds derived from arginine in coronary response to serotonin in vivo.

Recent studies have demonstrated that a nitroso compound derived from L-arginine (Arg) may be the endothelium-derived relaxing factor (EDRF) released from vascular endothelium. Synthesis of EDRF from L-Arg is inhibited by analogues of Arg such as NG-monomethyl-L-arginine (L-NMMA) and N omega-nitro-L-arginine (L-NNA). We tested the role of compounds derived from Arg in the constriction of the proximal left anterior descending coronary artery (LAD) to serotonin in vivo by measuring responses before and during infusion of L-NMMA or L-NNA. In open-chest anesthetized dogs the LAD was perfused at constant pressure (80 mmHg) from a reservoir. Large-artery diameter was measured with piezoelectric crystals, and coronary flow was measured with an in-line electromagnetic flow probe. Intracoronary serotonin (5 and 50 micrograms/min) caused a dose-dependent constriction of the proximal LAD and increase in coronary flow. Intracoronary L-NMMA (2 mg/min) or L-NNA (2 mg/min) augmented the constriction to serotonin, whereas the increase in coronary flow was blunted only by L-NNA. L-Arg (10 mg/min, intracoronary) alone did not alter either the large-artery constriction or the increase in flow to serotonin; however, it prevented the enhanced constriction to serotonin following L-NMMA. Constriction to the endothelium-independent agent prostaglandin F2 alpha was not affected by L-NMMA. We conclude that a metabolite of L-Arg modulates the large coronary artery response to serotonin in vivo.

Divergent effects of serotonin on coronary-artery dimensions and blood flow in patients with coronary atherosclerosis and control patients.

BACKGROUND: Studies in animals have shown that serotonin constricts coronary arteries if the endothelium is damaged, but in vitro studies have revealed a vasodilating effect on isolated coronary segments with an intact endothelium. To investigate the effect of serotonin in humans, we studied coronary-artery cross-sectional area and blood flow before and after the infusion of serotonin in seven patients with angiographically normal coronary arteries and in seven with coronary artery disease. METHODS: We measured the cross-sectional area of the coronary artery by quantitative angiography and coronary blood flow with an intracoronary Doppler catheter. Measurements were obtained at base line and during intracoronary infusions of serotonin (0.1, 1, and 10 micrograms per kilogram of body weight per minute, for two minutes). We repeated the measurements after an infusion of ketanserin, an antagonist of serotonin receptors that is thought to block the effect of serotonin on receptors in the arterial wall but not in the endothelium. RESULTS: In patients with normal coronary arteries, the highest dose of serotonin increased cross-sectional area by 52 percent (P less than 0.001) and blood flow by 58 percent (P less than 0.01). The effect was significantly potentiated by administration of ketanserin. In patients with coronary-artery atherosclerosis, serotonin reduced cross-sectional area by 64 percent (P less than 0.001) and blood flow by 59 percent (P less than 0.001). Ketanserin prevented this effect. CONCLUSIONS: Serotonin has a vasodilating effect on normal human coronary arteries; when the endothelium is damaged, as in coronary artery disease, serotonin has a direct, unopposed vasoconstricting effect. When considered with other evidence, these data suggest that platelet-derived factors such as serotonin may have a role in certain acute coronary ischemic syndromes.

Reduction in infarct size by the phospholipase inhibitor quinacrine in dogs with coronary artery occlusion.

It has been suggested that activation of tissue phospholipases may contribute to the development of ischemic cell injury. In the present study we sought to assess whether administration of the phospholipase inhibitor quinacrine would reduce the extent of myocardial necrosis after coronary artery occlusion. In open-chest, anesthetized dogs the left anterior descending coronary artery was ligated, and technetium-99-labeled albumin microspheres were injected into the left atrium to measure the area at risk. The animals were then randomly divided into a control group (n = 8) and a group receiving quinacrine (5 mg/kg intravenous bolus followed by a 40 micrograms/kg/min infusion for 6 hours; n = 9). The animals were killed 6 hours after occlusion, and the infarcted area was delineated by triphenyltetrazolium chloride staining. The extent of the risk region was similar in the two groups (32.3 +/- 2.1% of the left ventricle in control dogs and 34.2 +/- 3.4% in quinacrine-treated dogs). Infarct size was 86.4 +/- 8.8% of the risk region in control animals, whereas in treated dogs it averaged 62.3 +/- 6.4% of the risk region (p = 0.05). No differences were found in heart rate, arterial pressure, and rate-pressure product between the two groups. Thus administration of the phospholipase inhibitor quinacrine reduced the extent of myocardial necrosis in a model of fixed coronary artery occlusion. Preservation of membrane phospholipids, reduced formation of lipoxygenase metabolites, or both may mediate this phenomenon.

Effects of intravenous verapamil on left ventricular relaxation and filling in stable angina pectoris.

Left ventricular (LV) diastolic function is often impaired in coronary artery disease (CAD). To assess whether verapamil could improve LV diastolic properties, 12 patients with CAD undergoing right- and left-sided cardiac catheterization, as well as simultaneous radionuclide angiography, were studied before and during intravenous administration of verapamil (0.1 mg/kg as a bolus followed by 0.007 mg/kg/min). The heart rate was kept constant by atrial pacing in both studies. LV pressure-volume relations were obtained. Verapamil decreased LV systolic pressure (130 +/- 22 to 117 +/- 16 mm Hg, p less than 0.01) and the end-systolic pressure/volume ratio (2.4 +/- 1.3 to 1.6 +/- 0.5 mm Hg/ml, p less than 0.05), and increased LV end-diastolic (13 +/- 4 to 16 +/- 4 mm Hg, p less than 0.02) and pulmonary capillary pressures (10 +/- 5 to 12 +/- 5 mm Hg, p less than 0.005). Despite such negative inotropic effects, cardiac index increased (3.4 +/- 0.7 to 3.9 +/- 0.6 liters/min/m2, p less than 0.02). The time constant of isovolumic relaxation shortened (63 +/- 14 to 47 +/- 9 ms, p less than 0.02); peak filling rate increased (370 +/- 155 to 519 +/- 184 ml/s, p less than 0.001; 2.6 +/- 1.1 to 3.3 +/- 0.9 end-diastolic counts/s, p less than 0.02; and 4.1 +/- 1.6 to 5.5 +/- 1.5 stroke counts/s, p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Leukocyte and platelet-derived factors augment canine coronary constriction to serotonin.

In open-chest anesthetized dogs acute hypertension causes neutrophil and platelet adhesion to vascular endothelium and selectively potentiates constriction to serotonin in proximal coronary arteries. To examine underlying mechanisms, canine left anterior descending coronary arteries subjected to 15 min hypertension (LAD-HYP) and control left circumflex coronary arteries (CX) perfused at normal pressure were studied in organ chambers. In endothelium-intact LAD-HYP rings, constriction to serotonin was potentiated fourfold compared with control CX rings but was similar in denuded LAD-HYP and CX vessels. Endothelium-dependent relaxation to acetylcholine was not affected by acute hypertension. In LAD-HYP rings 10 microM LY 83583 (which depletes guanosine 3',5'-cyclic monophosphate and inhibits effects of endothelium-derived relaxing factor) augmented constriction to serotonin twofold. LY 83583 did not affect the serotonin response in hypertensive rings whose endothelium was mechanically removed. Blockade of either leukotriene D4 (LTD4) receptors (either with LY 171883 or SKF 102992) or thromboxane A2 (TxA2) receptors (with SQ 29548) partially blunted constriction to serotonin. Combined LTD4- and TxA2-receptor blockade completely normalized serotonin-induced constriction in LAD-HYP rings. In preconstricted LAD-HYP rings, relaxations to serotonin were markedly impaired but were restored by addition of ketanserin. Normalization of relaxation to serotonin in hypertensive vessels by ketanserin is likely due to inhibition of 5-hydroxytryptamine2 (5-HT2) receptors on platelet membranes. In conclusion, augmented constriction to serotonin in canine epicardial vessels exposed to acute hypertension is not due to an impairment of endothelium-dependent relaxation to the amine but to concomitant release of leukotrienes and TxA2 from leukocytes and platelets adhering to damaged endothelium. Activation of 5-HT2 serotonergic receptors on platelet membranes could be a possible trigger mechanism.

Paradoxical effects of cardiac arrest by multidose potassium cardioplegia on myocardial lysosome integrity and phospholipid content.

Multidose potassium cardioplegia is known to result in greater preservation of myocardial ATP content and better recovery of function as compared to cardiac arrest induced by aortic clamping. The present study was undertaken to assess the effects of this procedure on biochemical markers of tissue damage. Rat hearts undergoing either multidose cardioplegia or ischemic cardiac arrest were maintained at 18 degrees C for 1 or 2 hr and processed without reperfusion. Control hearts were processed at time zero. The activity of two lysosomal enzymes (beta-glucuronidase and acid phosphatase), as well as membrane phospholipid content, was measured in cardiac homogenates. One hour of arrest by either technique did not induce significant changes in these parameters. Two hours of arrest affected lysosomal integrity, as indicated by release of lysosomal enzymes into the cytosol. Soluble acid phosphatase activity averaged 44.7 +/- 1.3 mU/mg of protein in the hearts processed after 2 hr of cardioplegic arrest, and was significantly higher than that of control hearts (12.3 +/- 3.8 mU/mg of protein; P less than 0.01) and that of hearts subjected to 2 hr of ischemic arrest (29.2 +/- 4.5 mU/mg of protein; P less than 0.01 vs cardioplegic arrest; P less than 0.01 vs controls). Phospholipid content in hearts subjected to 2 hr of cardioplegic arrest was lower than in controls (0.49 +/- 0.06 micrograms Pi/mg of protein vs 0.76 +/- 0.03 micrograms Pi/mg of protein; P less than 0.01). In conclusion, 2 hr of hypothermic cardiac arrest was associated with biochemical indices of tissue damage.(ABSTRACT TRUNCATED AT 250 WORDS)

Reduction in infarct size by the prostacyclin analogue iloprost (ZK 36374) after experimental coronary artery occlusion-reperfusion.

In this study we attempted to determine whether administration of iloprost (ZK 36374), a chemically stable prostacyclin analogue, would reduce infarct size after experimental coronary artery occlusion and reperfusion. One hour of coronary artery occlusion was performed in 28 open-chest, anesthetized rabbits++, followed by 5 hours of reperfusion. Two minutes after occlusion, 99mTc-labeled albumin microspheres were injected into the left atrium for later assessment of the area at risk of infarction. Fifteen minutes after occlusion animals were randomly assigned to either the treatment group (iloprost, 1.2 micrograms/kg/min intravenously for 6 hours; n = 14) or the control group (n = 14). In vitro platelet aggregation was inhibited in rabbits receiving iloprost. In 10 rabbits (five treated and five control) regional myocardial blood flow was also measured by means of differentially labeled radioactive microspheres. Infarct size was significantly smaller in treated rabbits (53.6 +/- 4.1% of the risk zone vs 89.4 +/- 3.8% in control rabbits; p less than 0.001). Flow to the nonischemic myocardium was higher in treated animals, that is, 1.87 +/- 0.20 ml/min/gm of tissue 50 minutes after occlusion and 1.90 +/- 0.20 ml/min/gm of tissue 4 hours after reperfusion, compared with 1.54 +/- 0.20 and 1.64 +/- 0.30 ml/min/gm of tissue, respectively, in control rabbits (p less than 0.01). Collateral flow to the ischemic region was not affected by the drug. Mean arterial blood pressure, heart rate, and pressure-rate product in treated rabbits were not significantly different from values in control rabbits. In conclusion, administration of iloprost reduced myocardial infarct size in this model of myocardial ischemia and reperfusion in absence of major hemodynamic effects.

[Percutaneous brachial approach in left heart catheterization with 5 French catheters. Preliminary experience]. / Approccio percutaneo brachiale nel cateterismo cardiaco sinistro con cateteri 5 French. Esperienza preliminare.

This describes our preliminary experience with percutaneous brachial approach for cardiac catheterization, by using 5 French (F) preformed catheters. Thirty patients (pts) were studied from the left arm (Group A) with a 5F sheath and 5F Judkins catheters and 30 from the right arm (Group B) with 5F sheath and 5F Amplatz catheters. Pigtail catheters (5F) were used for the left ventricular angiograms in all patients. In 10 patients arterial velocity signals and radial and ulnar artery blood pressures were monitored with the Doppler ultrasonic velocity detector before and immediately after each procedure, and 24 hours later. Arterial puncture was carried out successfully in each patient by using a 18-gauge Potts-Cournand needle. The puncture site was as close as possible to the ante cubital fossa where the artery is less mobile. Both coronary arteries were selectively opacified and the left ventricular angiography was done on every patient. The diagnostic quality of the angiograms was evaluated by the visual analogue scale and the results were not different from those obtained with the femoral approach in our catheterization laboratory. In 3 out of 30 pts in group B it was impossible to obtain a good left coronary opacification with Amplatz catheters for anatomical reasons, thus the right femoral approach was preferred. Brachial artery occlusion occurred in 1 patient from group B and needed surgical thrombectomy carried out to restore normal radial and ulnar pulses.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibition of ischemia-induced phospholipase activation by quinacrine protects jeopardized myocardium in rats with coronary artery occlusion.

Phospholipase activation has been proposed as one relevant biochemical step toward irreversible myocardial injury during ischemia. Accordingly, after coronary artery occlusion, the time course of myocardial phospholipid degradation was studied in 83 control rats and 84 rats treated with quinacrine (75 mg/kg s.c. every 8 hr), a phospholipase inhibitor. Animals were sacrificed at different times ranging from 2 to 48 hr postocclusion. In controls a rapid fall in left ventricular phospholipid concentration (from 1.33 +/- 0.12 to 0.67 +/- 0.05 micrograms of P/mg of protein) and creatinkinase (CK) activity (from 9.84 +/- 0.49 to 6.93 +/- 0.60 I.U./mg of protein) was observed within 4 hr postocclusion. In quinacrine-treated animals phospholipids and CK also fell initially; however, 24 and 48 hr after occlusion they were higher than in controls (phospholipids: 0.99 +/- 0.05 vs. 0.62 +/- 0.04 micrograms of P/mg of protein, P less than .001; CK: 7.76 +/- 0.54 vs. 4.99 +/- 0.37 I.U./mg of protein, P less than .001, at 48 hr). Additional rats surviving coronary occlusion were divided randomly into a control (n = 14) and three treated groups receiving quinacrine every 8 hr at the dose of 5 (n = 13), 20 (n = 13) or 75 mg/kg (n = 15); 13 rats were sham-operated. Forty-eight hours postocclusion myocardial phospholipids were measured and infarct size calculated by CK depletion. Infarct size was significantly smaller in high dose quinacrine-treated than in control rats (16.6 +/- 5.7 vs. 42.1 +/- 4.4% of left ventricle, P less than .001). In treated animals, myocardial phospholipid concentration was also significantly higher.(ABSTRACT TRUNCATED AT 250 WORDS)

A biochemical method for the quantitation of myocardial scarring after experimental coronary artery occlusion.

The histologic examination and planimetric evaluation of tissue slices has been so far the only available technique for studying the extent of experimental myocardial infarcts in long-term studies; however, this approach is rather time-consuming when the sample size is large. This study describes a new biochemical method for the quantitation of myocardial scarring, based on the determination of left ventricular hydroxyproline, and collagen content at the end of the healing process. Accordingly, several modifications were introduced into previously existing methods for the assay of hydroxyproline: our method allows a linear estimation of hydroxyproline in the range from 0.5 to 5 micrograms, with a precision of +/- 6.1% and a day-to-day variation of +/- 10.5%. The reliability of this approach for studying infarct size has been verified in rats with coronary artery occlusion divided into a control group and in a treated group receiving nitroglycerin. The animals were killed 21 days after coronary ligation and randomly assigned for infarct size evaluation either to the histologic or the collagen method. By histology infarct size averaged 30.6 +/- 4.8% (mean +/- S.E.M.) of left ventricle (LV) in control rats and 16.2 +/- 5.8% of LV in nitroglycerin-treated animals; by the proposed alternative method left ventricular collagen content was 26.8 +/- 1.0 micrograms/mg of dry weight in control rats and 19.5 +/- 1.2 micrograms/mg of dry weight in nitroglycerin-treated animals; infarct size calculated from collagen content by a simple formula, was 37.4 +/- 2.6% of LV and 22.3 +/- 2.6% of LV, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)