Adenosine and nitric oxide regulate regional vascular resistance via interdependent and independent mechanisms during sepsis

OBJECTIVE

Adenosine receptor blockade increases regional resting vascular resistance during sepsis. In healthy subjects, part of adenosine's actions are mediated via stimulation of nitric oxide synthase. Because nitric oxide synthase activity is thought to be a major contributor to altered vascular tone in sepsis, we tested the hypothesis that some of the nitric oxide-mediated resting regional resistance during sepsis is secondary to endogenous adenosine stimulation of nitric oxide synthase.

DESIGN

Prospective, randomized, controlled experiment.

SETTING

Shock-trauma and basic science laboratory.

SUBJECTS

Male Sprague-Dawley rats.

INTERVENTIONS

Twenty-four hours after sepsis or sham induction, rats were separated into two groups (n = 6 to 10 in each group). Group 1 received a 10-min infusion of the adenosine antagonist 8-sulfophenyltheophylline (0.9 mg/kg x min) followed by a 10-min infusion of L-nitro-arginine-methyl ester (0.5 mg/kg x min). Group 2 similarly received L-nitro-arginine-methyl ester followed by 8-sulfophenyltheophylline in the presence of L-nitro-arginine-methyl ester.

MEASUREMENTS AND MAIN RESULTS

Hemodynamic and blood flow measurements (microspheres) were made before infusions, 10 mins after the administration of each single-agent infusion, and 10 mins after combined-agent infusions were administered. No significant resistance alterations were observed in nonseptic rats. In septic rats, adenosine receptor blockade alone increased hepatosplanchnic and skeletal muscle vascular resistance, but no further increases were seen when L-nitro-arginine-methyl ester was added. Nitric oxide synthase inhibition alone increased hepatosplanchnic and skeletal muscle vascular resistances. When 8-sulfophenyltheophylline was added to the infusion, skeletal muscle vascular resistance increased significantly more than with L-nitro-arginine-methyl ester alone, but there were no further increases in hepatosplanchnic resistance. Renal and adipose vascular resistances increased with L-nitro-arginine-methyl ester infusions, and 8-sulfophenyltheophylline produced no effect.

CONCLUSIONS

During sepsis, nitric oxide caused resting vasodilation independent of adenosine in the renal and adipose vasculature. In the hepatosplanchnic circulation, there is reciprocal adenosine-nitric oxide interaction in maintaining resting regional resistance. Skeletal muscle displayed a dual adenosine-mediated (nitric oxide-independent) and nitric oxide-mediated (adenosine receptors required) interaction to regulate resting resistance during sepsis. These data indicate that in the hepatosplanchnic and skeletal muscle vasculature, all of the resting nitric oxide-mediated vasodilation is secondary to endogenous adenosine action, but in adipose and renal vasculature, resting nitric oxide mediated vasodilation is independent of adenosine. Endogenous adenosine also appears to play a significant role in determining resting skeletal muscle resistance that is independent of nitric oxide synthase during sepsis.

Elevated coronary endothelin-1 but not nitric oxide in diabetics during CABG

BACKGROUND

After coronary artery bypass grafting procedures, a higher incidence of morbidity and mortality has been reported in diabetic patients. We tested whether coronary artery bypass grafting in diabetics affects the endothelin-1 and nitric oxide coronary effluent profile during reperfusion.

METHODS

Twenty-one consecutive patients (9 with type II diabetes mellitus, 12 non-diabetics) underwent coronary artery bypass grafting by one surgeon. The two groups did not differ in preoperative ejection fraction, Parsonnet score, number of vessels bypassed, or cross-clamp time. Each patient was treated in the same intraoperative manner with single atrial, aortic, and antegrade and retrograde cardioplegia (CPL) cannulas. Cold CPL arrest was by antegrade and retrograde infusion of modified Buckberg CPL solution. Warm CPL solution was infused before reperfusion. Coronary sinus blood samples were obtained for estimation of endothelin-1 and nitrite plus nitrate before CPL arrest and at 1 and 15 minutes after each of 2 reperfusion periods.

RESULTS

In diabetics, endothelin-1 was significantly increased at all reperfusion times as compared with non-diabetics. Nitrite plus nitrate levels were significantly higher in patients with diabetes than in those without, but did not change with time in either of the groups.

CONCLUSIONS

Reperfusion after CPL during coronary artery bypass grafting procedure can trigger the release of endothelin-1 in patients with diabetes mellitus. This may favor increased vascular tone or positive inotropic responses after coronary artery bypass grafting and may contribute to significant cardiovascular consequences in diabetic patients.

Cardiopulmonary bypass increases coronary IL-8 in diabetic patients without evidence of reperfusion injury

BACKGROUND

Endothelin-1 (ET-1) has been shown to be a potent agonist for monocyte production of the neutrophil chemotactic cytokine interleukin-8 (IL-8). We have shown that diabetic patients demonstrate elevated coronary ET-1 after coronary artery bypass grafting (CABG). We hypothesized that these same diabetic patients would manifest elevated coronary IL-8 and conjugated diene concentrations (an index of reperfusion injury).

METHODS

Sixteen patients [9 nondiabetics and 7 type II diabetics] underwent nonemergent CABG. The two groups did not differ significantly in preoperative ejection fraction, number of vessels bypassed, or cross-clamp time. Coronary sinus samples were obtained prior to cardioplegic arrest (baseline) and at 1 and 15 min after reperfusion periods A and B (A, reperfusion of native coronaries + LIMA; B, reperfusion of saphenous vein grafts in addition to native coronary system + LIMA). Plasma samples were analyzed for IL-8 (ELISA) and conjugated dienes (spectrophotometry).

RESULTS

Initially after reperfusion, IL-8 in both groups was significantly lower than precardioplegia values. In reperfusion B, only the diabetic group demonstrated a significant increase in IL-8 concentrations at 1 and 15 min compared to nondiabetics. Conjugated diene levels were significantly higher in diabetics at each time point than nondiabetics.

CONCLUSIONS

This study demonstrates an early decrease in IL-8 in both groups, most likely related to depressed production secondary to hypothermia. The subsequent elevation in IL-8 only in the diabetic group was seen without concomitant conjugated diene elevation. While no evidence of reperfusion injury was demonstrated in this time frame, the elevation of IL-8 in diabetics after CABG may contribute to later infiltration and associated oxidative damage.

Sepsis produces depression of testosterone and steroidogenic acute regulatory (StAR) protein

The hypothesis that induction of chronic peritoneal sepsis would produce depression of serum testosterone due to a decrease in Leydig cell steroidogenic acute regulatory (StAR) protein or P450c17 steroidogenic enzyme was tested. Male Sprague-Dawley rats (350-400 g) were randomized to septic and nonseptic groups. Sepsis was induced with a cecal slurry (200 mg/kg in 5 mL of 5% dextrose in water (D5W); intraperitoneal) while nonseptic rats received only sterile D5W. Animals (n = 6, in each group) were killed by CO2 asphyxiation and blood samples were collected by direct cardiac puncture at 24 h after induction of sepsis/sham sepsis. The serum concentration of corticosterone, progesterone, estradiol, and testosterone was determined using radioimmunoassay. Western blot analysis was utilized to quantify Leydig cell StAR protein and P450c17 enzyme. Sepsis produced a significant decrease in the serum concentration of testosterone, a down-regulation of StAR protein, and an increase in serum estradiol 24 h after induction of sepsis (as compared with the nonseptic group). Protein levels of P450c17 in Leydig cells and serum concentrations of progesterone and corticosterone 24 h after induction of sham sepsis or sepsis were not different. It is concluded that the decreases in serum testosterone after 24 h of chronic peritoneal sepsis correlated with reductions in StAR protein.

Adenosine receptor antagonism affects regional resting vascular resistance during rat peritoneal sepsis

BACKGROUND

To identify vascular beds where endogenous adenosine plays a significant role as a mediator of resting perfusion alterations associated with sepsis, we tested the hypothesis that adenosine receptor blockade would cause differential regional increases in vascular resistance during intraperitoneal (ip) sepsis in the rat.

MATERIALS AND METHODS

Rats (250-350 g) were catheterized and randomized to septic or nonseptic groups. Sepsis was induced with an ip injection of cecal slurry (150 mg/kg in D5W; 5 ml/kg), and baseline hemodynamics, cardiac output (CO), and blood flows (microspheres) were measured 24 h later. Animals then received the adenosine receptor antagonist 8-phenyltheophylline (8-PTH; 10 mM, 1.5 ml/kg), its vehicle (1.5 ml/kg), or normal saline (1.5 ml/kg), iv, and measurements were repeated.

RESULTS

Septic animals treated with 8-PTH had a significant increase in skeletal muscle, hepatic portal, and cerebral vascular resistance with concomitant decreases in CO when compared with vehicle at 1 min. No significant resistance changes were observed in the renal, adipose, or coronary vasculatures. Adenosine receptor blockade caused a significant increase in +dP/dt and -dP/dt during sepsis, indicating that the reduced CO was not secondary to myocardial depression.

CONCLUSIONS

These data suggest that adenosine receptor-mediated actions during sepsis affect vascular beds selectively and indicate a significant role for adenosine in resting perfusion redistribution in sepsis.

A differential response of diffuse brain injury on the concentrations of endothelin and nitric oxide in the plasma and brain regions in rats

In the present study, we hypothesized that acute diffuse brain injury (DBI) in rats would produce an increase in endothelin-1 (ET-1), a potent vasoconstrictor, and/or nitric oxide (NO), a potent vasodilator, in plasma and brain areas in rats. DBI was induced in anesthetized male Sprague-Dawley rats (350-400 g) using a 350 g weight dropped from 1 meter height impact through a device designed by Marmarou et al., 1994. Blood plasma and brain tissue (cerebral cortex, diencephalon and brain stem) samples were collected for estimation of ET-1 and NO at zero or 6 h from rats (n = 6) subjected to DBI as well as control rats (n = 6), i.e., not subjected to DBI. In a separate group of animals, cerebral blood flow (CBF) was recorded at 0, 5, 10, 15, 30, 60, 120, 240 and 360 min after induction of DBI or sham-DBI. Acute DBI produced a significant decrease in CBF at 120 min after induction of DBI. Plasma levels of ET-1 was found to be significantly increased (from 0.89 +/- 0.09 to 2.09 +/- 0.29 pg ml-1), at 6 h following DBI. DBI produced a significant decrease in the levels of ET-1 in diencephalon (from 70.97 +/- 9.47 to 57.64 +/- 2.65 pg g-1). In contrast to ET-1, DBI produced a significant increase in the concentrations of NO in the diencephalon, cerebral cortex and brain stem at 6 h post DBI. It appears that DBI-induced increase in the levels of NO in brain regions which might be down regulating the synthesis of ET-1 in diencephalon. It is concluded that ET and NO homeostatic mechanisms may play a role in the regional and vascular responses associated with acute DBI.

Diabetic patients produce an increase in coronary sinus endothelin 1 after coronary artery bypass grafting

Diabetes is associated with altered vascular responses, and diabetic patients demonstrate increased morbidity and mortality after coronary artery bypass grafting (CABG). We tested whether endothelin (ET)-1 levels in this patient population differed from those in nondiabetic subjects after CABG. Of 14 consecutive patients who underwent CABG by the same surgeon, 7 had type 2 diabetes and 7 were nondiabetic. The two groups did not differ significantly in preoperative ejection fraction, number of vessels bypassed, cross-clamp time, or Parsonnet's score. Coronary sinus blood samples were obtained before cardioplegic arrest and then obtained at 1 and 15 min after each of two reperfusion periods: reperfusion A (native coronary perfusion plus the left internal mammary artery), reperfusion B (saphenous vein graft perfusion). ET-1 was significantly increased at all reperfusion time points in diabetic patients compared with nondiabetic patients. In diabetic patients, reperfusion after CABG can trigger the release of ET-1, which may be a contributing factor in the increased cardiac morbidity seen in this patient population.

Effect of NG-nitro-L-arginine methyl ester on testicular blood flow and serum steroid hormones during sepsis

Production of nitric oxide (NO) via NO synthase (NOS) has been implicated in the regulation of steroidogenesis in normal physiology and septic pathophysiology. The hypothesis that blockade of NOS by NG-nitro-L-arginine methyl ester (L-NAME) would affect testicular blood flow and circulating levels of steroid reproductive hormones was tested. Male Sprague-Dawley rats (350-450 g) were randomized to septic and nonseptic groups. Sepsis was induced with an intraperitoneal (i.p.) injection of a cecal slurry (200 mg/kg in 5 mL 5% dextrose in water (D5W)) in rats, while nonseptic rats received only sterile D5W. The rats (n = 6 per group) were catheterized in the jugular vein, left ventricle (via right carotid artery), and tail artery to determine blood flow and systemic hemodynamics and to collect blood at 24 h after induction of sepsis/sham sepsis. After baseline (24 h post-cecal slurry challenge) measurement, L-NAME (.50 mg/ kg x min) was infused through the jugular vein for 10 min, blood flow was determined using a radioactive microsphere technique, and blood samples were collected. The serum concentrations of corticosterone, progesterone, and testosterone were determined using radioimmunoassay. Plasma concentrations of NO byproducts (NOx) were determined using the Greiss reaction. After 24 h, heart rate, testicular blood flow, and NOx levels were significantly increased, whereas the serum concentration of testosterone was significantly decreased in the septic group as compared with the nonseptic group. However, serum concentrations of progesterone and corticosterone at 24 h after induction of sham-sepsis or sepsis were not statistically different. Infusion of L-NAME significantly reduced the testicular blood flow and serum NOx levels in septic rats as compared with their baseline values. The administration of L-NAME significantly increased the concentration of testosterone in nonseptic and septic rats as compared with their respective basal values. However, testosterone levels in septic rats were still significantly lower than in nonseptic rats. The results of this study indicate that the synthesis of NO through NO synthase may play a role in the regulation of testicular blood flow and the serum levels of testosterone, associated with chronic peritoneal sepsis in the rat.

Effect of aminoguanidine on plasma nitric oxide by-products and blood flow during chronic peritoneal sepsis

We hypothesized that plasma nitric oxide (NO), generated via inducible NO synthase (iNOS) or endothelial constitutive NO synthase and measured via its by-products NO2- and NO3- (NO2- + NO3- = NOx) would increase and remain elevated during chronic peritoneal sepsis. We further hypothesized that treatment with aminoguanidine (AG; 50 mg/kg), a selective iNOS inhibitor, would decrease NO production and alter blood flow. Sprague Dawley rats were randomized to septic and nonseptic groups. Septic rats received an intraperitoneal cecal slurry (200 mg of cecal material/5 mL 5% dextrose-H2O/kg); control rats received sterile 5% dextrose-H2O (5 mL/kg) only. Plasma NOx and hemodynamics were measured 0, 4, 12, 24, and 48 h after sepsis or sham induction. We also examined the effect of AG, an iNOS inhibitor, on plasma NOx levels and tissue blood flow at 24 h. Septic rats uniformly displayed signs of sepsis, including lethargy, piloerection, and diarrhea. NOx levels were significantly elevated compared with controls at 4, 12, 24, and 48 h (p < or = .05). Septic rats also demonstrated hypotension (t = 12, 24, and 48 h) and tachycardia (t = 4, 12, 24, and 48 h). The infusion of AG (50 mg/kg intravenously for 30 min) at 24 h significantly decreased plasma NOx in septic animals. Plasma NOx concentrations returned to basal levels by 90 min after infusion of AG. In addition, blood flow studies demonstrated that AG treatment in nonseptic rats resulted in a significant decrease in blood flow to the stomach, skin, and adipose tissue, whereas AG infusion did not significantly alter the regional perfusion profile in septic animals. Furthermore, treatment with AG did not significantly alter mean arterial pressure in either group; however, nonseptic animals exhibited a decrease in stroke volume, and septic animals demonstrated an increase in heart rate. In contrast to the rise and fall of NOx levels in endotoxemia, this study demonstrates that the initial rise is sustained during 48 h of peritoneal sepsis. This sustained increase in NOx levels in this model correlated with the observable signs of systemic infection and may relate to enhanced iNOS activity. AG infusion demonstrated variable effects on regional tissue blood flow profiles in septic and nonseptic animals and attenuated the increase in plasma NOx levels in septic animals, an index of iNOS activity.

Non-specific binding of IgG1 to Heligmosomoides polygyrus: adult worm homogenate superantigen is a target for immunoglobulin-induced inhibition

Previous evidence had indicated that selected antigens contained in H. polygyrus adult worm homogenate (AWH) could bind non-specifically to mouse IgG1. To determine whether H. polygyrus superantigen was one of these binding molecules, an inhibition assay was carried out using monoclonal antibodies (MoAb) to block the in vitro superantigen response. The results indicated that non-specific IgG1 binding could inhibit the cellular response to the superantigen. This assumption was tested using affinity chromatography to extract those antigens which bound non-specifically to mouse IgG1. Both the protein fraction which bound to the column and the unfractionated AWH demonstrated superantigen activity, as described previously. In contrast, the unbound fraction contained no superantigen activity. None of the tested fractions exhibited non-specific mitogen activity. These results indicate that the superantigen produced by H. polygyrus binds to host IgG1 of any specificity and this binding can inhibit further host recognition of this molecule. Additionally, it was demonstrated that an apparently similar superantigen is also contained in L4 homogenate, and is strongly represented in the excretory/secretory (E/S) proteins produced by both adult and L4 parasitic stages. Therefore, it is probable that H. polygyrus superantigen influences the host during both the L4 and adult stages of the life-cycle.

Splanchnic vascular control during sepsis and endotoxemia

Endotoxemia and sepsis often result in circulatory derangements which manifest as perfusion maldistributions. It has been widely accepted that the splanchnic circulation decreases in perfusion during advanced septic or endotoxemic states. Impaired perfusion of splanchnic organs may result not only in organ dysfunction but also exacerbations of polymicrobial bacteremia due to intestinal mucosal leakage. Consequently, evaluation of the splanchnic mechanisms of vasoregulation and how perfusion is maintained is vital to any topic concerning the management of the septic patient.

Evidence that adenosine contributes to maintenance of hepatosplanchnic blood flow during peritoneal sepsis in rats

Sepsis induced derangements in hepatosplanchnic perfusion can contribute to organ damage and death. Adenosine, a common and potent metabolic vasodilator, has not been evaluated as a mechanism for maintenance of blood flow during sepsis. We tested the hypothesis that adenosine receptor blockade would cause a decrease in hepatosplanchnic blood flow during intraperitoneal (i.p.) sepsis in the rat. Rats (250-350 g) were catheterized for hemodynamic and blood flow measurements with tracer microspheres. Sepsis was induced with an i.p. injection of cecal material (150 mg/kg in D5W; 5 mL/kg), and baseline measurements were taken 24 h later. Animals then received either the adenosine receptor antagonist 8-PTH (10 mM, 1.5 mL/kg), its vehicle (1.5 mL/kg) or normal saline (1.5 mL/kg), intravenously, and measurements were repeated 1 and 10 min later. There was a significant increase in hepatosplanchnic portal resistance in septic animals given 8-PTH, with no change in mean arterial blood pressure (MAP) or heart rate. Regionally, there was a significant decrease in gastric, small intestinal, cecal, and pancreatic blood flow when compared with vehicle. Adenosine receptor blockade caused a significant reduction in hepatosplanchnic blood flow during sepsis, suggesting that maintenance of splanchnic blood flow during sepsis involves receptor mediated adenosine actions.

Sepsis alters myocardial and plasma concentrations of endothelin and nitric oxide in rats

Cardiovascular derangements during sepsis may arise from a mismatch between endothelin (ET) and nitric oxide (NO). We hypothesized that progression of chronic peritoneal sepsis would affect cardiac performance and would modulate the concentrations of NO and ET in the heart and plasma. Male Sprague-Dawley rats (340-390 g) were catheterized and made septic with a cecal slurry (200 mg/kg: i.p.). Heart rate, mean arterial pressure, and plasma ET and nitrite/nitrate (NOX) were determined at 0, 4, 8, 12, 24, and 48 h after induction of sepsis. Septic rats were found to have tachycardia at 48 h following induction of sepsis. Mean arterial pressure and pulse pressure were not altered in septic and non-septic rats. In a separate series of experiments, the function of isolated hearts from septic and non-septic rats was assessed at preload pressures of 2, 5, and 10 mmHg. Sepsis produced a significant decrease in rates of pressure development and relaxation (+/-dP/dt) at 24 and 48 h as compared to the hearts of non-septic rats. In septic rats, plasma concentrations of ET were significantly increased at t = 4, 8, 12 h as compared to basal values, and at 12 h as compared to non-septic rats, and returned to basal levels at 24 and 48 h. In contrast, circulating NO levels did not become elevated until t = 8 h and remained elevated throughout the remaining times. In the left ventricle, the concentration of ET was found to be significantly increased both in septic and non-septic rats at 4 and 8 h as compared to t = 0 h. In the left ventricles of non-septic rats, ET levels returned to baseline values at 12 h, while in septic rats, the concentration of ET remained significantly elevated until 12 h. In septic rats, left ventricular NO levels were found to be significantly increased at t = 12 h. It appeared that induction of sepsis contributed to an imbalance in the plasma concentration of ET and NO 12 h after the induction of sepsis. However, a similar imbalance was not observed in the left ventricle. It is concluded from these observations that peritoneal sepsis in a chronic rat model produced a divergence of plasma NO and ET levels. This suggests a homeostatic imbalance between vasoactive mediators, i.e. ET and NO, could contribute to the cardiovascular derangements that occur during sepsis.

Effects of phentolamine or yohimbine on naloxone's actions during endotoxin shock in rats

Endogenous opioids are known to mediate some of the cardiovascular sequelae of sepsis. Inhibition of adrenergic action has been implicated as a physiological path by which endogenous opioids cause deleterious changes in cardiovascular function during endotoxin shock, but where and to what extent this accounts for changes in regional vascular resistance remains unclear. In this study, we addressed this question by examining the role of alpha-adrenergic actions in cardiovascular performance and the regional perfusion changes caused by naloxone during endotoxin shock. Rats had catheters inserted into the tail artery, left cardiac ventricle, and jugular vein. Twenty-four hours later, rats received saline or endotoxin (2 mg/kg) challenge intravenously over 30 min, followed at 40 min by intravenous naloxone (or saline) treatment (4 mg/kg + 2 mg/kg x h) in the presence or absence of phentolamine (100 micrograms/kg + 600 micrograms/kg x h) or yohimbine (40 micrograms/kg + 4 micrograms/kg x h). Radiolabeled microspheres were used to determine cardiac outputs and blood flows at 0, 30, 60, and 120 min after beginning endotoxin infusion. Naloxone attenuated the endotoxin-induced decline in mean arterial pressure (MAP) and cardiac output (CO), but had no effect on increased systemic vascular resistance (SVR). Phentolamine blocked naloxone's ability to increase MAP and CO, but permitted an increase in SVR by naloxone. In the presence of yohimbine, naloxone still increased MAP, but not CO nor SVR. Regional vascular responses varied, with naloxone demonstrating a vasoconstrictive effect despite alpha-adrenergic receptor blockade in some beds, and no effect in others. The response of individual organs in the hepatosplanchnic circulation was heterogenous as well. These data suggest that some effects of endogenous opioids during endotoxin shock are mediated via inhibition of alpha-adrenergic effects, but that some cardiovascular effects of endogenous opioids are independent of adrenergic control during endotoxin shock.

Indomethacin attenuation of radiation-induced hyperthermia does not modify radiation-induced motor hypoactivity

Exposure of rats to 5-10 Gy of ionizing radiation produces hyperthermia and reduces motor activity. Previous studies suggested that radiation-induced hyperthermia results from a relatively direct action on the brain and is mediated by prostaglandins. To test the hypothesis that hypoactivity may be, in part, a thermoregulatory response to this elevation in body temperature, adult male rats were given indomethacin (0.0, 0.5, 1.0, and 3.0 mg/kg, intraperitoneally), a blocker of prostaglandin synthesis, and were either irradiated (LINAC 18.6 MeV (nominal) high-energy electrons, 10 Gy at 10 Gy/min, 2.8 microseconds pulses at 2 Hz) or sham-irradiated. The locomotor activity of all rats was then measured for 30 min in a photocell monitor for distance traveled and number of vertical movements. Rectal temperatures of irradiated rats administered vehicle only were elevated by 0.9 +/- 0.2 degree C at the beginning and the end of the activity session. Although indomethacin, at the two higher doses tested, attenuated the hyperthermia in irradiated rats by 52-75%, it did not attenuate radiation-induced reductions in motor activity. These results indicate that motor hypoactivity after exposure to 10 Gy of high-energy electrons is not due to elevated body temperature or to the increased synthesis of prostaglandins.

Steroid hormone alterations following induction of chronic intraperitoneal sepsis in male rats

The influence of sepsis on male reproductive function in chronic animal models has not been extensively investigated. On the basis of earlier clinical studies, it was hypothesized that chronic intraperitoneal (i.p.) sepsis in rats would modulate the circulating levels of steroid reproductive hormones. Male Sprague-Dawley rats (300-375 g) were randomized to septic and nonseptic groups. Sepsis was induced with cecal slurry (200 mg/kg/5 mL 5% dextrose in water (D5W); i.p.) in septic rats, while nonseptic rats received only sterile D5W. The rats (n = 8-12) were catheterized to measure systemic hemodynamics and to collect blood at 0, 12, 24, and 48 h after induction of sepsis/sham sepsis. A separate group of normal rats was included to serve as an unoperated control group. The plasma concentration of corticosterone, progesterone, and testosterone in serum was determined using radioimmunoassay. The heart rate was significantly increased at t = 12, 24, and 48 h following induction of sepsis. However, septic rats did not display any significant alterations in the mean arterial pressure and pulse pressure. Basal circulating concentrations of serum corticosterone, progesterone, and testosterone were 356 +/- 124 ng/mL, 2.37 +/- 1.03 ng/mL, and 1.88 +/- .29 ng/mL, respectively, in the unoperated rats. At t = 0 h there was a significant increase in the levels of corticosterone in septic rats and in the levels of progesterone in both septic and nonseptic rats. The elevations in the concentrations of corticosterone and progesterone returned to basal values after 24 and 48 h. The septic animals had significantly decreased levels of testosterone at t = 24 and 48 h as compared with basal values and nonseptic groups. Our model of sepsis produced a time-dependent decrease in levels of testosterone, an end product of male steroidogenesis. This, along with unchanged levels of corticosterone and progesterone at 24 and 48 h following sepsis, indicates that separate mechanisms for steroidogenesis regulating synthesis of these steroid hormones (progesterone and testosterone) occur with sepsis. It is concluded that in our chronic septic rat model, induction of i.p. sepsis produced dysfunction in steroidogenesis, which selectively affected the synthesis of testosterone.

The effects of diaspirin cross-linked hemoglobin in sepsis

We tested the hypothesis that diaspirin cross-linked hemoglobin (DCLHb; Baxter Healthcare Corp.) would improve blood pressure, organ perfusion, and mortality during sepsis. Rats were catheterized to assess general hemodynamics (protocol 1) or regional blood flow (protocol 2). Sepsis was induced by intraperitoneal introduction of a cecal slurry (100 mg/kg). In protocol 1, rats received either 100 or 250 mg/kg DCLHb, or albumin at 1, 2, or 4 h after sepsis induction. Hemodynamics were recorded at these times and daily for 72 h. DCLHb increased blood pressure, prevented 72 h leukocytosis, and reduced mortality, but the timing of DCLHb administration was crucial. In protocol 2 only moribund septic animals received 100 mg/kg DCLHb or iso-oncotic albumin i.v. Hemodynamics and regional organ blood flows were measured at baseline, immediately before and after treatment, and at 24 h. DCLHb immediately increased blood pressure with no changes in cardiac output, heart rate, or regional perfusion. DCLHb increased regional perfusion to vital areas at 24 h (compared to albumin group). Distribution of cardiac output in albumin-treated rats was significantly skewed toward skeletal muscle at a time when cardiac output was significantly lower as compared with DCLHb treated animals. In conclusion, DCLHb safely elicited a pressor response, and improved regional perfusion to selected tissues. However, DCLHb benefits were best obtained when given within a specific time frame.

Heterogeneity of reperfusion after reversible regional myocardial ischemia in a canine model

Variability of regional myocardial blood flow (RMBF) during reflow after 20 minutes of left anterior descending (LAD) coronary occlusion was measured by the radioactive microsphere technique in nine open-chest dogs. Preocclusion RMBF in the LAD territory was 0.89 +/- 0.27 ml/min/gm. Twenty minutes of LAD occlusion resulted in uniform and severe ischemia (RMBF < or = 0.25 ml/min/gm). After 1 minute of reperfusion, RMBF in the LAD territory rose to 3.48 +/- 1.88 ml/min/gm, and declined to 1.06 +/- 0.29 ml/min/gm after 20 minutes of reperfusion. RMBF variance increased significantly from 0.046 preocclusion to 0.2857 after 1 minute of reperfusion (p < 0.01) and declining to 0.086 after 20 minutes of reperfusion. By contrast, RMBF variance analysis of myocardial segments from the nonischemic left circumflex territory exhibited no significant change throughout the experiment. In any given dog this heterogeneous reperfusion of previously ischemic tissue resulted in a disorganized topography of blood flow rates. Myocardium with relatively high regional flow was intermingled with islands of tissue with relatively low blood flow. In conclusion, despite a relatively uniform and severe myocardial ischemic insult, the subsequent initial hyperemic response during reperfusion exhibits marked spatial heterogeneity. The juxtaposition of myocardial regions exposed to vastly differing rates of oxygen delivery and washout of toxic metabolites may set the stage for nonuniform recovery of myocardial function.

Regional blood flow redistribution due to acetate

There is little information about the effects of acetate on regional blood flow in unanesthetized animals. Isosmolal sodium acetate or saline was infused at a rate of 250 mumol/kg.min into conscious rats such that, in the acetate group, plasma acetate levels averaged 2.06 +/- 0.23 mM. Sequential injections of tracer-tagged microspheres were used to determine the effect of acetate infusion on cardiac output, total peripheral vascular resistance, and various organ blood flow rates. At this infusion level, acetate had no discernible effect on either central hemodynamics or arterial blood gases. However, there was marked alteration of regional organ perfusion. After 5 min of infusion, acetate (relative to control) increased blood flow markedly to the splanchnic bed (+40 +/- 6.1%), including all individual splanchnic organs except for the stomach. Acetate also increased blood flow to the heart (+33 +/- 5.2%) and kidneys (+29 +/- 5.4%); all P < 0.05. Acetate had no specific effect on total cerebral blood flow or on regional brain circulations. Acetate had no effect on flow to skeletal muscle (-30 +/- 11%; P = not significant) or fat (-5 +/- 6.3%; P = 0.097), although flow to muscle tended to decrease. These data suggest that low plasma levels of acetate, which do not alter total peripheral resistance, cause a marked redistribution of blood flow to the splanchnic organs and to the kidneys. Brain blood flow is unaffected.

Regional changes in blood flow, extracellular potassium and conduction during myocardial ischemia and reperfusion

OBJECTIVES

We postulated that ventricular arrhythmias may arise from the heterogeneous washout of ischemic metabolites. Our objective was to investigate the distribution of extracellular potassium concentration ([K+]o) during myocardial ischemia and reperfusion and to correlate this distribution with regional differences in myocardial blood flow.

BACKGROUND

Our previous study showed that reperfusion after a brief period of ischemia resulted in heterogeneous reflow of the ischemic myocardium.

METHODS

The changes in regional myocardial blood flow, midmyocardial [K+]o and electrogram duration were quantitated in 14 dogs undergoing 20 min of left anterior descending coronary artery occlusion and 1 min of reperfusion. Regional myocardial blood flow was measured by using 15-microns radioactive microspheres in 1- to 1.5-g full thickness myocardial samples. The [K+]o was measured with intramyocardial K(+)-sensitive electrodes.

RESULTS

During coronary occlusion, the ischemic zone exhibited a reduction in regional blood flow to 0.13 +/- 0.06 ml/g per min and increases in [K+]o to 9.3 +/- 2.6 mmol/liter and electrogram duration to 131.8 +/- 38.6% of control. Heterogeneous reduction in regional blood flow at various sites in the ischemic zone had fair correlations with variable increases in [K+]o (r = -0.70) and electrogram duration (r = -0.75). During min 1 of reperfusion, regional blood flow ranged from two to more than seven times baseline, resulting in a disorganized spatial distribution of perfusion with islands of high and low blood flows. Associated with the heterogeneous early reperfusion regional myocardial blood flow, [K+]o and electrogram duration changed at different rates toward normal. Whereas correlation between regional blood flow and [K+]o or standardized electrogram duration was fair during ischemia, this correlation was poor during early reperfusion.

CONCLUSIONS

Spatial heterogeneity in regional myocardial blood flow during myocardial ischemia and early reperfusion is associated with heterogeneity in [K+]o and electrophysiologic characteristics, which in turn may play an important role in the genesis of arrhythmias arising from the ischemic and reperfused myocardium.

Serial injections of MK 801 (Dizocilpine) in neonatal rats reduce behavioral deficits associated with X-ray-induced hippocampal granule cell hypoplasia

MK 801 (NMDA antagonist) has been shown to protect newborns from hypoxia-induced brain damage. Here, we determined if (+)-5-methyl-10,11-dihydroxy-5h-dibenzo (a,d)cyclohepten-5,10-imine (MK 801) could attenuate behavioral deficits associated with early radiation-induced hypoplasia of fascia dentata granule cells. We pretreated neonatal rats (n = 20) with MK 801 (0, 0.1, or 0.2 mg/kg, IP) before each of eight fractionated, head-only doses of X-rays (13 Gy total) administered during the first 16 days postpartum. Other rats (n = 18) received the same drug treatments but were sham irradiated. At age 16 months, water-escape latencies to a submerged platform were measured in a water maze. Irradiated rats with hippocampal damage exhibited impaired learning (longer latencies to find the platform) than did sham-irradiated subjects. Moderate doses of MK 801 (0.1 mg/kg) facilitated the learning of the water maze by irradiated subjects but did not enhance the number of their fascia dentata granule cells. Higher doses (0.2 mg/kg) of MK 801 provided no behavioral benefits. In fact, this dose significantly impaired the learning of the water maze by sham-irradiated rats and potentiated the granule cell hypoplasia observed in irradiated subjects. Thus, early MK 801 treatment produces dose-dependent behavioral protection for rats with radiation-induced hippocampal damage. Future studies may reveal the neurophysiological and neuroanatomic substrates of this behavioral recovery.

Hyperbaric oxygenation decreases blood flows in normal and septic rats

The purpose of the study reported here was to characterize the effects of acute exposure to 100% oxygen at a pressure of 202.6 kPa on hemodynamics and organ blood flow in antibiotic-controlled bacterial sepsis. An abscess containing known numbers and strains of live Escherichia coli and Bacteroides fragilis was established in the peritoneal cavity of rats. Sham-operated rats were used as controls. Cardiac output, fractional blood flow distribution, and blood flow were calculated from data obtained using the radiolabeled microsphere technique. Myocardial and renal blood flows were decreased (20-30%) in both experimental groups during hyperbaric oxygen (HBO) exposure. Renal blood flow remained diminished for at least 20 min after rats were removed from the hyperbaric chamber. Adrenal gland perfusion in abscess-containing rats was reduced both during and after HBO exposure. Skeletal muscle blood flow (quadriceps and gastrocnemius muscles) was reduced by one third in both experimental groups 20 min after acute exposure to HBO. The results of this study indicate that changes in organ perfusion induced by HBO are similar in abscess-containing and normal rats. We conclude that HBO does not alter the regulation of blood flow in antibiotic-controlled sepsis.

Early neural grafts transiently reduce the behavioral effects of radiation-induced fascia dentata granule cell hypoplasia

X-irradiation of the neonatal rat hippocampus produces a selective hypoplasia of fascia dentata granule cells, locomotor hyperactivity, perseverative movements and deficits in passive avoidance. We previously reported that transplantation of fetal hippocampal tissue into the adult (age = 182 +/- 4 days) brain produced a partial recovery of these behavioral deficits. Since graft/host interconnections are more prominent when transplants are conducted soon after radiation-induced hippocampal damage, in this study we transplanted hippocampal or cerebral cortex neurons when host rats were 33 +/- 5 days of age (i.e. only 16 days after radiogenic brain damage). Behavioral evaluations were conducted 80 and 182 days after transplantation or surgical control procedures. In the first test series only, selective components of locomotion (e.g. stereotypy and total distance traveled) and perseverative turning (e.g. mean bout length and turning speed topography) were normalized by the hippocampal grafts. Radiation-induced changes in passive avoidance were less prominent in these studies than in past experiments. Still, transplantation of hippocampal tissue improved performance on this learning task as well. Cerebral cortex grafts did not produce reliable improvements in most behavioral measures. These data suggest that hippocampal grafts placed soon after X-ray induced fascia dentata hypoplasia reduce a broad range of behavioral deficits. However, these benefits are transient and, for the most part, depend on the use of transplant tissues homologous with those damaged.

Alterations in splanchnic blood flow after low and high doses of ethanol

The purpose of this investigation was to determine the effect of various acute doses of ethanol (1.0, 3.0, 4.0 g/kg) on the distribution of cardiac output (%CO) and blood flow to the splanchnic vascular bed in conscious male Wistar rats. Regional blood flow and cardiac output (CO) were measured by the reference microsphere technique. Mean arterial pressure and CO were significantly reduced 60 min after 3.0 g/kg and 4.0 g/kg of ethanol, while no changes occurred over time in total peripheral vascular resistance or heart rate. Acute ethanol administration produced an early non-sustained increase in portal vein blood flow, that was most pronounced after a low dose of ethanol, and was attenuated after the 3.0 g/kg and 4.0 g/kg doses of ethanol. The early increase in portal vein blood flow produced a corresponding increase in total liver blood flow. Additionally, we found increases in hepatic arterial blood flow after the higher doses. The combined increase in portal vein and hepatic arterial supply to the liver may serve to increase oxygen delivery, more than the singular increase in portal vein blood flow. This early increase in total liver blood flow after high doses of ethanol may be important for protecting hepatocyte function in the presence of high blood ethanol levels.