Endobronchial adrenaline: should it be reconsidered? Dose response and haemodynamic effect in dogs

BACKGROUND: Tracheal drug administration is a route for drug delivery during cardiopulmonary resuscitation when intravenous access is not immediately available. However, tracheal adrenaline (epinephrine) injection has been recently shown to be associated with detrimental decrease in blood pressure. This was attributed to exaggerated early beta2 mediated effects unopposed by alpha-adrenergic vasoconstriction. We hypothesized that endobronchial adrenaline administration is associated with better drug absorption, which may abolish the deleterious drop of blood pressure associated with tracheal drug administration. OBJECTIVE: To determine haemodynamic variables after endobronchial adrenaline administration in a non-arrest canine model. DESIGN: Prospective, randomized, laboratory study. METHODS: Adrenaline (0.02, 0.05, 0.1 mg/kg) diluted with normal saline was injected into the bronchial tree of five anaesthetized dogs. Injection of 10-ml saline served as control. Heart rate, blood pressure and arterial blood gases were monitored for 60 min after drug instillation. The protocol was repeated after 1 week. RESULTS: Adrenaline at a dose of 0.02 mg/kg produced only a minor initial decrease in diastolic (from 90 +/- 5 to 78 +/- 3 mmHg, P=0.05), and mean blood pressure (from 107 +/- 4 to 100 +/- 3 mmHg, P=0.05), in all dogs. This effect lasted less then 30 s following the drug administration. In contrast, higher adrenaline doses (0.05 and 0.1 mg/kg) produced an immediate increase in diastolic (from 90 +/- 5 to 120 +/- 7 mmHg; and from 90 +/- 5 to 170 +/- 6 mmHg, respectively), and mean blood pressure (from 107 +/- 4 to 155 +/- 10 mmHg; and from 107 +/- 4 to 219 +/- 6 mmHg, respectively). All adrenaline doses resulted in an immediate increase in systolic blood pressure and pulse. Endobronchial administration of saline (control) affected none of the haemodynamic variables. CONCLUSIONS: In a non-arrest model, endobronchial adrenaline administration, as opposed to the effect of tracheal adrenaline, produced only a minor decrease in diastolic and mean blood pressure. We suggest that endobronchial adrenaline administration should be investigated further in a CPR low-flow model when maintaining adequate diastolic pressure may be crucial for survival.     

Should vasopressin replace adrenaline for endotracheal drug administration?

OBJECTIVE: Arginine vasopressin was established recently as a drug of choice in the treatment of cardiac arrest and in retractable ventricular fibrillation; however, the hemodynamic effect of vasopressin following endotracheal drug administration has not been fully elucidated. We compared the effects of endotracheally administered vasopressin vs. adrenaline on hemodynamic variables in a canine model, and we investigated whether vasopressin produces the same deleterious immediate blood pressure decrease as did endotracheal adrenaline in the canine model. DESIGN: Prospective controlled study. SETTING: Animal laboratory in Tel-Aviv University, Israel. SUBJECTS: Five adult mongrel dogs weighing 6.5-20 kg. INTERVENTIONS: Dogs were anesthetized; each dog was intubated orally, and both femoral arteries were cannulated for the measurement of arterial pressure and for sampling blood gases. Each dog was studied four times, 1 wk apart, by using the same protocol for injection and anesthesia: endotracheal placebo (10 mL NaCl 0.9%,), endotracheal vasopressin (1 units/kg), endobronchial adrenaline (0.1 mg/kg), and endotracheal adrenaline (0.1 mg/kg). Following placebo, vasopressin, and adrenaline instillation, five forced manual ventilations were delivered with an Ambu bag. Each dog was its own control. MEASUREMENTS AND MAIN RESULTS: Following placebo or drug administration, heart electrocardiography and arterial pressures were continuously monitored with a polygraph recorder for 1 hr. Endotracheal vasopressin produced an immediate increase of diastolic blood pressure (from 83 +/- 10 mm Hg [baseline] to 110 +/- 5 mm Hg at 1 min postinjection). This response lasted >1 hr. In contrast, both endotracheal and endobronchial administration of adrenaline produced an early and significant (p <.05) decrease in diastolic and mean blood pressures. The diastolic blood pressure increase from 85 +/- 10 mm Hg to 110 +/- 10 mm Hg took an ill-afforded 55 secs following endotracheal adrenaline. Diastolic blood pressure was significantly (p <.05) higher following vasopressin compared with adrenaline administration in both routes. CONCLUSIONS: Vasopressin accomplishes its hemodynamic effect, particularly on diastolic blood pressure, more rapidly, vigorously, and protractedly and to a significant degree compared with both endotracheal and endobronchial adrenaline. Evaluation of the effects of endotracheal vasopressin in a closed chest cardiopulmonary resuscitation model is recommended.     

Effects of vasopressin on adrenal gland regional perfusion during experimental cardiopulmonary resuscitation

OBJECTIVE: Despite the important role of the adrenal gland during cardiac arrest, little is known about changes in the adrenal medullary or cortical blood flow in this setting. This study was designed to assess regional adrenal gland perfusion in the medulla and cortex during cardiopulmonary resuscitation (CPR), and after administration of adrenaline (epinephrine) versus vasopressin versus saline placebo. METHODS: After 4 min of untreated ventricular fibrillation, and 3 min of basic life support CPR, 19 animals were randomly assigned to receive either vasopressin (0.4 U/kg; n=7), adrenaline (45 microg/kg; n=6) or saline placebo (n=6), respectively. Haemodynamic variables, adrenal, and renal blood flow were measured after 90 s of CPR, and 90 s and 5 min after drug administration. RESULTS: All values are given as mean+/-S.E.M. Blood flow in the adrenal medulla was significantly higher 90 s after adrenaline when compared with saline placebo in the right adrenal medulla (210+/-14 vs. 102+/-5 ml/min per 100 mg), and in the left adrenal medulla (218+/-14 vs. 96+/-3 ml/min per 100 mg). Blood flow in the adrenal medulla was significantly higher 90 s and 5 min after vasopressin when compared with adrenaline in the right (326+/-22 mg vs. 210+/-14 ml/min per 100 mg, and 297+/-17 vs. 103+/-5 ml/min per 100 mg), and in the left medulla (333+/-25 vs. 218+/-14 ml/min per 100 mg, and 295+/-14 vs. 111+/-7 ml/min per 100 mg). Ninety seconds and five minutes after vasopressin, and 90 s after adrenaline, adrenal cortex blood flow was significantly higher when compared with saline placebo. After 12 min of cardiac arrest, including 8 min of CPR, seven of seven pigs in the vasopressin group, one of six pigs in the adrenaline group, but none of six placebo were successfully defibrillated. CONCLUSION: Both vasopressin and adrenaline produced significantly higher medullary and cortical adrenal gland perfusion during CPR than did a saline placebo; but vasopressin resulted in significantly higher medullary adrenal gland blood flow when compared with adrenaline.     

Muscle afferent and central command contributions to the cardiovascular response to isometric exercise of postural muscle in patients with mild chronic heart failure

The roles of muscle afferent activity and central drive in controlling the compromised cardiovascular system of patients with mild chronic heart failure (CHF) during isometric exercise were examined. Blood pressure and heart rate responses were recorded in eight stable CHF patients (ejection fraction 20-40%; age 62+/-11 years) and in nine healthy age-matched controls during voluntary and electrically evoked isometric plantar flexion and subsequent post-exercise circulatory occlusion (PECO). During voluntary contraction, control subjects had a greater mean increase in systolic blood pressure than patients (42.4+/-19.2 and 23.0+/-10.9 mmHg respectively; P<0.01), but this was not the case during PECO. During electrically evoked contraction, but not during PECO, the CHF group had smaller (P<0.05) mean increases in both systolic and diastolic blood pressure than controls (13.0+/-5.3 compared with 25.4+/-14.0 mmHg and 7.6+/-3.0 compared with 12.9+/-7.2 mmHg respectively). Intra-group comparison between responses to voluntary and electrically evoked contractions revealed greater (P<0.05) mean increases in systolic and diastolic blood pressure during the voluntary contraction in both the patients and the control subjects. These data suggest that muscle afferent drive to the pressor response from the triceps surae is low in this age group, both in control subjects and in CHF patients. Additionally, the patients may have a relatively desensitized muscle mechanoreceptor reflex.     

A new device producing manual sternal compression with thoracic constraint for cardiopulmonary resuscitation

OBJECTIVE: Blood flow during conventional cardiopulmonary resuscitation (CPR) is usually less than adequate to sustain vital organ perfusion. A new chest compression device (LifeBelt) which compresses both the sternum and the lateral thoraces (compression and thoracic constraint) has been developed. The device is light weight, portable, manually powered and mechanically advantaged to minimize user fatigue. The purpose of this study was to evaluate the mechanism of blood flow with the device, determine the optimal compression force and compare the device to standard manual CPR in a swine arrest model. METHODS: Following anesthesia and instrumentation, intravascular contrast injections were performed in four animals and the performance characteristics of the device were evaluated in eight animals. In a comparative outcome study, 42 anesthetized and instrumented swine were randomized to receive LifeBelt or manual CPR. Ventricular fibrillation (VF) was induced electrically and was untreated for 7.5 min. After 7.5 min, countershocks were administered and chest compressions initiated. Pulseless electrical activity (PEA) was observed after one to three shocks in all animals. CPR was continued until restoration of spontaneous circulation (ROSC) or for 10 min after the first shock. If ROSC had not occurred within 5 min of beginning CPR, 0.01 mg/kg of epinephrine (adrenaline) was administered. During CPR, peak systolic aortic pressure (Ao), diastolic coronary perfusion pressure (CPP-diastolic aortic minus diastolic right pressure) and end-tidal CO(2) were measured. RESULTS: Angiographic studies demonstrated cardiac compression as the mechanism of blood flow. Optimal performance, determined by coronary perfusion pressure, was observed at a sternal force of 100-130 lb (45-59 kg). In the comparative trial, significant differences in the measured CPP were observed between LifeBelt and manual CPR both at 1 min (15+/-8 mmHg versus 10+/-6 mmHg, p<0.05) and 5 min (17+/-4 mmHg versus 13+/-7 mmHg, p<0.02) of chest compression. A greater (p<0.05) ETCO(2), a marker of cardiac output and systemic perfusion, was observed with LifeBelt CPR (20+/-7 mmHg) than with manual CPR (15+/-5 mmHg) at 1 min. Peak Ao pressures were not different between methods. With the device, 86% of animals were resuscitated compared to 76% in the manual group. CONCLUSIONS: Blood flow with the LifeBelt device is primarily the result of cardiac compression. At a sternal force of 100-130 lb (45-59 kg), the device produces greater CPP than well-performed manual CPR during resuscitation from prolonged VF.     

Cardiac function during mental stress: cholinergic modulation with pyridostigmine in healthy subjects

Mentally or emotionally stressful situations occur throughout our lives and cause physiological haemodynamic responses. In patients with coronary artery disease, such events can also induce myocardial ischaemia and ventricular arrhythmias, increasing mortality rates. The purpose of the present study was to determine the acute effects of the oral administration of pyridostigmine, a reversible cholinesterase inhibitor and thus an indirect cholinomimetic drug, on echocardiographic variables during mental stress in healthy subjects. A total of 18 healthy young volunteers were subjected to mental stress tests (mental arithmetic and the Stroop colour-word test) 2 h after the oral administration of either placebo or pyridostigmine bromide (45 mg), using a balanced-randomized, double-blind, crossover protocol. During mental stress, heart rate (pyridostigmine, 64+/-1 beats/min; placebo, 70+/-1 beats/min; P =0.0003) and diastolic blood pressure (pyridostigmine, 66+/-2 mmHg; placebo, 79+/-3 mmHg; P =0.01) were lower in the pyridostigmine group, but systolic pressure was not (pyridostigmine, 124+/-3 mmHg; placebo, 123+/-3 mmHg; P =0.40). There were no detectable abnormalities in the left ventricular wall motion score during mental stress, but left ventricular outflow tract mean velocity (pyridostigmine, 0.68+/-0.02 m/s; placebo, 0.64+/-0.02 m/s; P <0.05) and mitral inflow velocity deceleration (placebo, 4.05+/-0.18 m/s(2); pyridostigmine, 4.41+/-0.16 m/s(2); P <0.05) were higher in the pyridostigmine group. In conclusion, cholinergic stimulation with pyridostigmine seems to increase left ventricular diastolic function during mental stress in healthy subjects.     

Vasopressin versus epinephrine during cardiopulmonary resuscitation: a randomized swine outcome study.

In animal models, vasopressin improves short-term outcome after cardiopulmonary resuscitation (CPR) for ventricular fibrillation compared to placebo, and improves myocardial and cerebral hemodynamics during CPR compared to epinephrine. This study was designed to test the hypothesis that vasopressin would improve 24-h neurologically intact survival compared to epinephrine. After a 2-min untreated ventricular fibrillation interval followed by 6 min of simulated bystander CPR, 35 domestic swine (weight, 25+/-1 kg) were randomly provided with a single dose of vasopressin (20 U or approximately 0.8 U kg(-1) intravenously) or with epinephrine (0.02 mg kg(-1) intravenously every 5 min). Ten minutes after initial medication administration (18 min after induction of ventricular fibrillation), standard advanced life support was provided, starting with defibrillation. Animals that were successfully resuscitated received 1 h of intensive care support and were observed for 24 h. Coronary perfusion pressures were higher in the vasopressin group 2 and 4 min after vasopressin administration (28+/-2 versus 18+/-1 mm Hg, P<0.01, and 26+/-3 versus 18+/-2 mm Hg, P<0.05, respectively). The vasopressin group tended to be successfully defibrillated on the first attempt more frequently (8/18 versus 3/17, P = 0.15). Return of spontaneous circulation (ROSC) was attained in 12/18 (67%) vasopressin-treated pigs versus 8/17 (47%) epinephrine-treated pigs, P = 0.24. Twenty-four hour neurologically normal survival occurred in 11/18 (61%) versus 7/17 (41%), respectively, P = 0.24. In conclusion, vasopressin administration during CPR improved coronary perfusion pressure, but did not result in statistically significant outcome improvement.     

Acute administration of a single dose of valsartan improves left ventricular functions: a pilot study to assess the role of tissue velocity echocardiography in patients with systemic arterial hypertension in the TVE-valsartan study I

BACKGROUND: The advent of colour-coded tissue velocity echocardiography (TVE) has now made it possible to quantify left ventricular (LV) functions in patients with systemic arterial hypertension (HTN). Hypothesis In this project, we have studied the cardiac effects of a single dose of orally administered valsartan in patients with known HTN. METHODS: Fifty-five patients with HTN with a mean age of 56 +/- 10 years were given an early morning dose of 80 mg valsartan withholding regular antihypertensive medications on the day of investigation. TVE images, acquired on VIVID systems were digitized for postprocessing of longitudinal and radial peak systolic velocities, strain rate, and systolic and diastolic time intervals before (pre) and 5 h after (post) administration of the drug. RESULTS: Blood pressure (mmHg) pre and post, respectively, were 147 +/- 15 versus 137 +/- 14 systolic and 90 +/- 7 versus 86 +/- 7 diastolic (all P<0.01). LV longitudinal systolic velocities (cm s(-1)) were significantly higher post in LV septum (5.7 +/- 1.1 versus 6.4 +/- 1.6; P<0.001) with similar results obtained in other LV walls. Radial strain rate (1 s(-1)) was significantly higher post compared with pre valsartan (2.1 +/- 0.6 versus 2.3 +/- 0.9; P<0.01). Regional diastolic filling and ejection times (ms) were significantly shorter post (390 +/- 122 versus 370 +/- 120 and 275 +/- 32 versus 163 +/- 36 respectively; all P<0.05). CONCLUSIONS: Within 5 h after oral administration of valsartan, improvement in regional myocardial systolic functions could be registered. Although the changes could well be secondary to afterload reduction, additional effects of the drug, evidenced by improved strain rate that is relatively load-independent, may have contributed in this improvement.     

Simultaneous sterno-thoracic cardiopulmonary resuscitation improves short-term survival rate in canine cardiac arrests

We have reported previously that simultaneous sterno-thoracic cardiopulmonary resuscitation (SST-CPR) using a device that compresses the sternum and constricts the thorax circumferentially during a compression systole that can be achieved using standard cardiopulmonary resuscitation (STD-CPR). This study was designed to assess whether SST-CPR improves the survival rate of dogs with cardiac arrest compared with STD-CPR. Twenty-nine mongrel dogs (19-31 kg) were enrolled in this study. After 4 min of ventricular fibrillation induced by an AC current, animals were randomized to be resuscitated by either STD-CPR (n=15) or SST-CPR (n=14). Defibrillation was attempted 10 min after the induction of cardiac arrest. Standard advanced cardiac life support was started if defibrillation was unsuccessful. Aortic blood pressure, coronary perfusion pressure, and end tidal CO(2) tension were measured during CPR and the post-resuscitation period. Survival was determined 12 h after the induction of cardiac arrest. SST-CPR resulted in a significantly (P<0.001) higher systolic arterial pressure (91+/-47 vs 47+/-24 mmHg), diastolic pressure (43+/-24 vs 17+/-10 mmHg), coronary perfusion pressure (35+/-25 vs 13+/-9 mmHg), and end tidal CO(2) tension (9+/-4 vs 3+/-2 mmHg). Two of 15 animals (13%) resuscitated by STD-CPR and seven of 14 animals (50%) resuscitated by SST-CPR survived for 12 h after cardiac arrest (P<0.05). In conclusion, SST-CPR improves the short-term survival rate in canine cardiac arrest compared with STD-CPR.     

Effects of yohimbine, an α2-adrenoceptor antagonist, on experimental neurogenic orthostatic hypotension

Summary— Yohimbine has been proposed for the treatment of neurogenic orthostatic hypotension; however, no controlled trial has been performed in experimental models of orthostatic hypotension or in patients with autonomic failure. The aim of the present study was to compare the effects of yohimbine (0.05 mg/kg, intravenously [iv]) and placebo (saline) in a new model of neurogenic orthostatic hypotension obtained by sinoaortic denervation (SAD) in chloralose-anaesthetized dogs. Blood pressure, heart rate, noradrenaline plasma levels and systolic blood pressure and heart rate short-term variabilities (calculated on low frequency [40–50 MHz] and high frequency [390–490 MHz] bands) were measured in supine position and after a 10 min 80° head-up tilting. The drugs were administered in a double-blind cross-over randomized fashion. The head-up tilting performed in normal animals increased diastolic blood pressure (+12 ± 4 mmHg), heart rate (+39 ± 12 beats per minute [bpm]), the low frequency band of systolic blood pressure and noradrenaline plasma level, without changing systolic blood pressure or heart rate variability. In SAD dogs, a marked fall in systolic (-80 ± 11 mmHg) and diastolic (-43 ± 4 mmHg) blood pressures was observed within 1 min after placebo, without modification in heart rate, systolic blood pressure and heart rate short-term variabilities and noradrenaline plasma levels. In SAD dogs, yohimbine (0.05 mg/kg, iv) delayed the blood pressure fall elicited by head-up tilting, but failed to modify its magnitude. These results show that, in the model of orthostatic hypotension obtained by SAD, yohimbine, at an α₂-adrenoceptor selective dose (0.05 mg/kg), delays the fall in blood pressure elicited by head-up tilting. The effect of yohimbine can be explained by an increase in sympathetic tone.     

Augmentation of diastolic function with phosphodiesterase inhibition in congestive heart failure

Phosphodiesterase inhibition promotes both cellular uptake and release of calcium, which should thus facilitate both myocardial relaxation and myocardial contraction. To test the hypothesis that phosphodiesterase inhibition augments both diastolic and systolic ventricular function, parameters of left ventricular ejection and filling were measured in patients with dilated cardiomyopathy before and after therapy with the phosphodiesterase inhibitor enoximone. Baseline radionuclide ventriculography was performed in all subjects with derivation of left ventricular ejection fraction and peak diastolic filling rate. These parameters were again assessed after 3 months of therapy with either placebo (six patients) or enoximone (seven patients). Ejection fraction increased significantly (p less than 0.05) in the enoximone group (change from baseline = 11 +/- 14 ejection fraction units) but did not change in the placebo group (0.2 +/- 5 ejection fraction units). Enoximone administration was associated with a significant (p less than 0.05) increase in peak filling rate, from 0.9 +/- 0.5 to 1.4 +/- 0.5 end-diastolic volumes per second, which was noted in the placebo group (1.2 +/- 0.6 to 1.4 +/- 0.9 end-diastolic volumes per second; p = not significant). Thus, in comparison with placebo, exoximone augmented both diastolic and systolic function in dilated cardiomyopathy. This identifies an additional influence of this class of inotropic agent on the function of the intact ventricle that is consistent with previously described cellular mechanisms and that may significantly contribute to a restoration of normal hemodynamic status in dilated cardiomyopathy.     

Effects of vasopressin on left anterior descending coronary artery blood flow during extremely low cardiac output

Because of the possibility of vasopressin-mediated coronary vasospasm, this study was designed to assess effects of vasopressin compared to saline placebo on left anterior descending (LAD) coronary artery blood flow. Twelve anaesthetized domestic swine were prepared for LAD coronary artery blood flow measurement with ultrasonic flow probes, using cardiopulmonary by-pass adjusted to 10% of the prearrest cardiac output. This 10% value approximates that reported for cardiac output during conventional closed-chest CPR. After 4 min of untreated ventricular fibrillation, and 3 min of cardiopulmonary by-pass blood flow, 12 pigs were randomly assigned to receive intravenously, every 5 min, either vasopressin (0.4, 0.4, and 0.8 U/kg; n = 6) or saline placebo (n = 6). The mean +/- S.D. LAD coronary artery blood flow in the vasopressin and placebo pigs was comparable before cardiac arrest, and during cardiopulmonary by-pass low flow; but increased significantly (P < 0.05) 90 s after each of three vasopressin injections compared to placebo (78 +/- 1 versus 42 +/- 2 ml/min; 62 +/- 2 versus 36 +/- 1 ml/min; and 54 +/- 1 versus 27 +/- 1 ml/min), respectively. Coronary vascular resistance decreased significantly (P < 0.05 ) 90 s after each of three vasopressin and placebo injections. In this model, repeated bolus administration of vasopressin, given during simulated extremely low cardiac output improved LAD coronary artery blood flow to prearrest levels without affecting coronary vascular resistance. Conclusions: during extremely low blood flow using cardiopulmonary by-pass, vasopressin improves LAD coronary artery blood flow without affecting coronary vascular resistance.     

Effects of age on body temperature and blood pressure in cold environments

Mean deep body temperature fell by 0.4 +/- 0.1 (SD) degrees C in five sedentary, clothed 63-70 year old men and by 0.1 +/- 0.1 degrees C in four young adults after 2 h exposure in still air at 6 degrees C (P less than 0.001). The mean increase in systolic and diastolic pressure was significantly greater (P less than 0.002) in the older subjects (24 +/- 4 mmHg systolic, 13 +/- 4 mmHg diastolic) than in the young (14 +/- 6 mmHg systolic, 7 +/- 3 mmHg diastolic) after 2 h at 6 degrees C. A small rise in blood pressure occurred in the older men at 12 degrees C, but there was no increase in either group at 15 degrees C. The association of variables is particularly marked between systolic blood pressure and core temperature changes at 6 degrees C. There were no appreciable cold-adaptive changes in blood pressure or thermoregulatory responses after 7-10 days repeated exposure to 6 degrees C for 4 h each day. Blood pressure elevation in the cold was slower but more marked in the older men. These changes in blood pressure may provide a possible basis for delineating low domestic limiting temperature conditions.     

Contribution of vasopressin to the maintenance of blood pressure in deoxycorticosterone-salt induced malignant hypertension in spontaneously hypertensive rats

In the present study, deoxycorticosterone (DOC) and salt was administered to Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR) by using silicone-rubber implants (DOC acetate, 100 mg/kg) and 0.9% NaCl as drinking water. SHR treated with DOC-salt for 4 weeks showed the characteristics of malignant hypertension including marked increases in blood pressure and left ventricular weight with typical histological changes in the kidney. DOC-salt treatment increased plasma vasopressin levels in WKY (from 6.1 +/- 0.5 to 8.9 +/- 0.8 pmol/l) but significantly more in SHR (from 5.0 +/- 0.6 to 15.8 +/- 1.2 pmol/l). Intravenous administration of the specific antagonist to the pressor effect of vasopressin, d(CH2)5Tyr(Me)AVP (10 micrograms/kg), decreased mean arterial pressure of DOC-salt treated WKY and SHR by 6.6 +/- 0.9 mmHg (P less than 0.05) and 9.7 +/- 1.7 mmHg (P less than 0.05) respectively. DOC-water treatment also increased plasma AVP levels in SHR to 10.5 +/- 0.8 pmol/l, but the vasopressin antagonist had little effect on blood pressure in these rats. Plasma levels of vasopressin were significantly correlated with both mean arterial pressure (r = 0.64) and left ventricular weight (r = 0.74). This suggests a close relationship between plasma AVP and severity of hypertension. The results of the present experiment demonstrate that vasopressin is part of the overall pressor mechanism which contributes to the maintenance of blood pressure in DOC-salt induced malignant hypertension in SHR, but the small fall in pressure produced by the AVP antagonists suggests that the contribution is of only minor importance.     

Vasopressin decreases endogenous catecholamine plasma concentrations during cardiopulmonary resuscitation in pigs

OBJECTIVE: The purpose of this study was to evaluate the effect of vasopressin vs. saline placebo on catecholamine plasma concentrations during cardiopulmonary resuscitation (CPR). DESIGN: Prospective, randomized laboratory investigation by using an established porcine CPR model with instrumentation for measurement of hemodynamic variables, vital organ blood flow, and return of spontaneous circulation. SETTING: University hospital laboratory. SUBJECTS: Sixteen domestic pigs. INTERVENTIONS: After 15 mins of untreated cardiac arrest and 3 mins of CPR, 16 pigs were randomized to be treated with either 0.8 U/kg vasopressin (n = 8) or placebo (normal saline; n = 8). Arterial epinephrine and norepinephrine plasma concentrations were sampled at prearrest, after 1.5 mins of chest compressions, and at 1.5 mins and 5 mins after drug administration during CPR. MEASUREMENTS AND MAIN RESULTS: In comparison with placebo pigs at 1.5 and 5 mins after drug administration, animals resuscitated with vasopressin had significantly (p < .01) higher mean +/- SEM left ventricular myocardial (131+/-27 vs. 10+/-1 mL x mins(-1) x 100 g(-1) and 62+/-13 vs. 9+/-2 mL x mins(-1) x 100 g(-1)); total cerebral (90+/-8 vs. 14+/-3 mL x mins(-1) x 100 g(-1) and 51+/-4 vs. 12+/-2 mL x mins(-1) x 100 g(-1)); and adrenal gland perfusion (299+/-36 vs. 38+/-7 mL x mins(-1) x 100 g(-1) and 194+/-23 vs. 29+/-5 mL x mins(-1) x 100 g(-1)). Significantly lower mean +/- SEM epinephrine concentrations in the vasopressin pigs compared with the placebo group were measured 1.5 mins and 5 mins after drug administration, (24167+/-7919 vs. 80223+/-19391 pg/mL [p < .01] and 8346+/-1454 vs. 71345+/-10758 pg/mL [p < .01]). Mean +/- SEM norepinephrine plasma concentrations in the vasopressin animals in comparison with placebo were at 1.5 and 5 mins after drug administration significantly lower (41729+/-13918 vs. 82756+/-9904 pg/mL [p = .01] and 10642+/-3193 vs. 62170+/-8797 pg/mL [p < .01]). CONCLUSIONS: Administration of vasopressin during CPR resulted in significantly superior vital organ blood flow, but significantly decreased endogenous catecholamine plasma concentrations when compared with placebo.     

Effect of insulin therapy on blood pressure in NIDDM patients with secondary failure.

OBJECTIVE--To assess the effect of insulin therapy on blood pressure in NIDDM patients with secondary failure. RESEARCH DESIGN AND METHODS--The influence of insulin treatment on blood pressure was assessed retrospectively in a group of 80 NIDDM patients with secondary failure to diet and maximum doses of oral hypoglycemic agents. Weight, blood glucose, and blood pressure were recorded over a 3-mo period before and after the initiation of insulin therapy. RESULTS--There was a significant rise in systolic (131.8 +/- 1.7 to 148 +/- 1.9 mmHg, P less than 0.05) and diastolic (80.9 +/- 0.9 to 89.2 +/- 1.0 mmHg, P less than 0.02) blood pressures with insulin treatment. Insulin treatment was associated with a significant decrease in blood glucose (18.36 +/- 0.28 to 10.4 +/- 0.34 mM, P less than 0.01) and an increase in weight (72.1 +/- 1.6 to 78 +/- 1.7 kg, P = 0.01). A control group of 80 NIDDM patients matched for age, weight, BMI, and duration of diabetes demonstrated no significant change in blood pressure over a matched period of follow-up. CONCLUSIONS--This study has shown that insulin therapy is associated with significant elevation of both systolic and diastolic blood pressures.     

Hemodynamic and respiratory effects of negative tracheal pressure during CPR in pigs

BACKGROUND: A new device, the intrathoracic pressure regulator (ITPR), was developed to generate continuous negative intrathoracic pressure during cardiopulmonary resuscitation (CPR) and allow for intermittent positive pressure ventilation. Use of the ITPR has been shown to increase vital organ perfusion and short-term survival rates in pigs. The purpose of this study was to investigate the hemodynamic and blood gas effects of more prolonged (15 min) use of the ITPR during CPR in a porcine model of cardiac arrest. METHODS: After 8 min of untreated ventricular fibrillation (VF), 16 female pigs were anaesthetized with propofol, intubated, and randomized prospectively to 15 min of either ITPR-CPR or standard (STD) CPR. Compressions were delivered at a rate of 100/min with a compression to ventilation ratio of 15:2. Ventilations were delivered with a resuscitator bag. Tracheal, aortic, right atrial, intracranial pressures (ICP), common carotid blood flow and respiratory variables were recorded continuously. Arterial and venous blood gases were collected at baseline, and after 5, 10, and 15 min of CPR. Coronary perfusion pressure (CPP) was calculated as diastolic aortic pressure-right atrial pressure. Cerebral perfusion pressure (CerPP) was calculated as mean arterial pressure (MAP)-intracranial pressure. Statistical analysis was performed with unpaired t-test and Friedman's Repeated Measures Analysis. RESULTS: ITPR-CPR when compared to STD-CPR resulted in a significant decrease in mean decompression phase (diastolic) tracheal pressure (-9+/-0.6 mmHg versus -3+/-0.3 mmHg, p<0.001), diastolic right atrial pressure (DRAP) (-0.1+/-0.2 mmHg versus 2.3+/-0.2 mmHg, p<0.001) and intracranial pressure (20.8+/-0.6 mmHg versus 23+/-0.5 mmHg, respectively, p=0.04) and a significant increase in total mean aortic pressure, coronary and cerebral perfusion pressures and end tidal carbon dioxide (ETCO(2)), (p<0.001). Common carotid artery blood flow was increased by an average of 70%, p<0.001. ABGs showed progressive metabolic acidosis in the ITPR-CPR group, but PaCO(2) remained stable at 34 mmHg for 15 min. In the STD-CPR group, pseudorespiratory alkalosis was observed with PaCO(2) values remaining <20 mmHg (p<0.001). PaO(2) was not different between groups. Following 23 min of cardiac arrest (15 min of CPR) ROSC was achieved in 5/8 ITPR-CPR animals versus 2/8 STD-CPR animals p=0.3. CONCLUSION: ITPR-CPR significantly improved hemodynamics, vital organ perfusion pressures and common carotid blood flow compared to STD-CPR in a porcine model of prolonged cardiac arrest and basic life support. The beneficial hemodynamic effects of ITPR-CPR were sustained at least 15 min without any compromise in oxygenation.     

Resuscitation from cardiac arrest with adrenaline/epinephrine or vasopressin: effects on intestinal mucosal tonometer pCO(2) during the postresuscitation period in rats

BACKGROUND: The use of vasopressin instead of adrenaline/epinephrine during resuscitation improves vital organ perfusion, but the effects on mesenteric perfusion following successful resuscitation are not fully evaluated. The present study was designed to compare the effects of vasopressin and adrenaline/epinephrine, given to rats during resuscitation from ventricular fibrillation, on to mesenteric ischaemia, as determined by intestinal mucosal tonometer pCO(2) during the postresuscitation period. METHODS AND RESULTS: Male Sprague-Dawley rats (n=28) were allocated randomly to receive vasopressin (0.8 U/kg) or adrenaline/epinephrine (90 microg/kg) after 5 min of ventricular fibrillation. Precordial chest compression was initiated 4 min after the start of ventricular fibrillation, continued for 4 min, and followed by defibrillation. Seven of 14 (vasopressin) and 12 of 14 (adrenaline/epinephrine) rats were successfully defibrillated (P=0.10, Fisher's exact test) and observed for 60 min. Intestinal mucosal tonometer pCO(2) measurements before cardiac arrest and 15, 30, and 60 min following return of spontaneous circulation were 47+/-3, 73+/-8, 63+/-7, and 56+/-6 mmHg in the vasopressin group and 48+/-5, 78+/-7, 67+/-6, and 62+/-6 mmHg in the adrenaline/epinephrine group (P<0.05 at 60 min between vasopressin and adrenaline/epinephrine). Right atrial hemoglobin oxygen saturations at these time points were 73+/-5, 51+/-12, 58+/-11, and 63+/-5% in the vasopressin group and 76+/-7, 44+/-10, 52+/-10 and 54+/-8% in the adrenaline/epinephrine group (P<0.05 at 60 min between vasopressin and adrenaline/epinephrine). CONCLUSIONS: We conclude that in this rat model the administration of vasopressin instead of adrenaline/epinephrine for CPR tends to be associated with lower resuscitation success, but less mesenteric ischaemia during the postresuscitation period in successfully resuscitated rats.     

Intraosseous vasopressin improves coronary perfusion pressure rapidly during cardiopulmonary resuscitation in pigs.

OBJECTIVE: Intravenous administration of vasopressin during cardiopulmonary resuscitation (CPR) may be more effective than optimal doses of epinephrine. The main purpose of this study was to determine whether intraosseous vasopressin achieves serum drug levels comparable with intravenous doses during CPR and, additionally, to evaluate the effects of intraosseous vasopressin during CPR. DESIGN: Prospective, randomized laboratory investigation using an established porcine model with instrumentation for measurement of hemodynamic variables, blood gases, and return of spontaneous circulation. SETTING: University hospital laboratory. SUBJECTS: Twelve domestic pigs. INTERVENTIONS: After 4 mins of untreated ventricular fibrillation and 3 mins of CPR, 12 pigs were randomized to be treated with intravenous administration of vasopressin (0.8 unit/kg vasopressin; n = 6) or intraosseous vasopressin (0.8 unit/kg vasopressin; n = 6). Defibrillation was performed 5 mins after drug administration to attempt the return of spontaneous circulation. MEASUREMENTS AND MAIN RESULTS: At both 90 secs and 5 mins after drug administration, intravenous and intraosseous administration of vasopressin resulted in comparable mean (+/-SEM) coronary perfusion pressure (43+/-4 vs. 44+/-3 and 30+/-2 vs. 37+/-2 mm Hg, respectively) and vasopressin plasma concentrations (13,706+/-1,857 vs. 16,166+/-3,114 pg/mL and 10,372+/-883 vs. 8246+/-2211 pg/mL, respectively). All animals in both groups were successfully resuscitated; pigs that received intraosseous vasopressin had a significantly higher (p < .05) mean arterial (92+/-6 vs. 129+/-12 mm Hg) and coronary perfusion pressure (84+/-11 vs. 119+/-11 mm Hg) at 5 mins of return of spontaneous circulation. CONCLUSIONS: Intraosseous vasopressin resulted in comparable vasopressin plasma levels, hemodynamic variables, and return of spontaneous circulation rates as did intravenous vasopressin. Intraosseous vasopressin may be an alternative for vasopressor administration during CPR, when intravenous access is delayed or not available.     

Effects of enalapril on the cardiovascular response to treadmill exercise in patients with mild to moderate systemic hypertension

The effects of the angiotensin converting enzyme inhibitor enalapril on exercise-induced changes in blood pressure and heart rate were evaluated in 15 patients in the early stages of systemic hypertension. Multistage treadmill exercise was performed before and after eight weeks of enalapril administration, and the results of the two trials were compared. In patients at rest, enalapril decreased systolic blood pressure from 172 +/- 18 to 147 +/- 14 mmHg and diastolic blood pressure from 99 +/- 9 to 88 +/- 8 mmHg (both P less than 0.001). In patients at peak exercise, enalapril decreased systolic blood pressure from 216 +/- 13 to 195 +/- 18 mmHg and diastolic blood pressure from 106 +/- 12 to 99 +/- 12 mmHg (both P less than 0.001). There was also a significant decrease in blood pressure during the recovery period after treadmill exercise. Enalapril reduced heart rate at peak exercise (P less than 0.05), but not at rest or during recovery. Thus enalapril alleviated the response of blood pressure to exercise in hypertensive patients and may help prevent hypertensive complications during daily activities.