Comparison of neuromuscular effects, efficacy and safety of rocuronium and atracurium in ambulatory anaesthesia.

PURPOSE: To compare the neuromuscular effects, efficacy, and safety of equi-effective doses of rocuronium and atracurium in ambulatory female patients undergoing surgery. METHODS: Forty-one patients undergoing laparoscopic gynaecological surgery were randomized to receive 2 X ED90 rocuronium (0.6 mg.kg-1; n = 20) or atracurium (0.5 mg.kg-1; n = 21) during intravenous propofol/alfentanil anaesthesia with N2O/O2 ventilation. Neuromuscular block was measured with a mechanomyogram eliciting a train-of-four (TOF) response at the wrist. Intubation conditions 60 sec after administration of muscle relaxant and immediate cardiovascular disturbances or adverse events during the hospital stay were noted by blinded observers. RESULTS: Compared with atracurium, rocuronium was associated with a shorter onset time (59.0 +/- 22.2 vs 98.6 +/- 41.4 sec; P < 0.001) and clinical duration of action (33.3 +/- 7.1 vs 44.7 +/- 7.2 min; P < 0.001), but longer spontaneous recovery index (9.6 +/- 2.41 vs 6.9 +/- 1.89 min; P = 0.023) and a similar time to spontaneous recovery to TOF 70%; 53 +/- 6.31 vs 59.2 +/- 7.59 min; P = 0.139). Tracheal intubation was accomplished in < 90 sec in all patients receiving rocuronium but in only 14 of 21 patients receiving atracurium. The incidence of adverse events and the cardiovascular profiles for the two drugs were similar, although one patient receiving atracurium experienced transient flushing of the head and neck. CONCLUSION: Rocuronium has minimal side effects, provides conditions more suitable for rapid tracheal intubation, and is associated with a shorter clinical duration than atracurium. Once begun, the spontaneous recovery profile of rocuronium is slightly slower than that of atracurium.

Entropy measures of heart rate variation in conscious dogs.

Our goal was to determine the contributions of sympathetic and parasympathetic activity to entropy measures of heart rate variability (HRV). We compared our results with two commonly used methods to analyze HRV: standard deviation (SDNN) and power spectral analysis (HF norm). Beat-by-beat analysis of R-R intervals was performed in conscious dogs. The R-R intervals were analyzed with approximate entropy (ApEn) and entropy of symbolic dynamics (SymDyn) to assess the effects of reducing system complexity. This was achieved by pharmacologically inhibiting sympathetic, parasympathetic, and total autonomic nervous system regulation of heart rate. Three conditions were examined: rest, standing, and systemic hypotension. At rest or standing, sympathetic inhibition (propranolol) had no effect on ApEn or SymDyn, whereas parasympathetic (atropine) and combined (propranolol + atropine) inhibition reduced both entropy measures to near zero. Systemic hypotension reduced both entropy measures in intact dogs. When hypotension was induced after sympathetic inhibition, ApEn was increased compared with hypotension alone, whereas parasympathetic inhibition with hypotension resulted in near-zero ApEn. Changes in the entropy measures of HRV were directionally similar to changes in SDNN and HF norm. These results indicate that the entropy of R-R intervals reflects parasympathetic modulation of heart rate.

Increased risk and decreased morbidity of coronary artery bypass grafting between 1986 and 1994.

BACKGROUND: The collective impact of advances in medical, surgical, and anesthetic care on the characteristics and outcomes of patients who undergo coronary artery bypass grafting was assessed. METHODS: We compared the demographic and clinical characteristics, preoperative risk factors, morbidity, and mortality of two groups of patients who underwent coronary artery bypass grafting in isolation or in combination with other procedures between July 1, 1986, and June 30,1988 (group 1, n = 5,051), and between January 1, 1993, and March 31, 1994 (group 2, n = 2,793). The patients were stratified according to their preoperative risk level. Outcome measures consisted of changes in preoperative risk categories; hospital mortality rates; overall and risk-adjusted major cardiac, neurologic, pulmonary, renal, and septic morbidity rates; and intensive care unit length of stay. RESULTS: Changes in the distribution of risk categories, from a median of 2 to 4 on a 9-point scale (p < 0.001), indicated that patients in group 2 were at significantly higher risk than those in group 1. The risk-adjusted mortality rate did not change (2.8% to 2.9%; p = 0.15), but the risk-adjusted morbidity rate decreased significantly (14.5% to 8.8%; p < 0.001). CONCLUSIONS: At our institution, patients who undergo coronary artery bypass grafting are now at greater preoperative risk at the time of hospital admission. However, their morbidity rate is significantly lower and their mortality rate is unchanged, results that we attribute to the collective impact of changes in our medical and surgical procedures.

The economic and clinical efficiency of point-of-care testing for critically ill patients: a decision-analysis model.

Our study objective was to assess economic and clinical outcomes of use of a point-of-care (POC) blood analysis device for postoperative coronary artery bypass graft (CABG) patients. A decision analytic model was developed for patients with high expected use of blood analysis, high potential benefit from rapid turn around time of results, a large annual volume of patients, and substantial expense associated with surgery. Published literature and clinical experts provided incidence, outcome, and cost estimates associated with four clinical scenarios potentially influenced by POC testing (ventricular arrhythmias, cardiac arrest, severe postoperative bleeding, and iatrogenic anemia). We found that changes in clinical outcomes were predominantly dependent on comparative turn around time or CABG patient volume. The positive clinical impact of using POC testing was consistently associated with a positive economic impact. POC blood gas analysis may be associated with decreased incidence of adverse clinical events or earlier detection of such events, resulting in significant cost savings. This study also supports previous findings that the costs of STAT blood analysis are more personnel-related than equipment-related.

ICU admission score for predicting morbidity and mortality risk after coronary artery bypass grafting.

BACKGROUND: This study was performed to develop an intensive care unit (ICU) admission risk score based on preoperative condition and intraoperative events. This score provides a tool with which to judge the effects of ICU quality of care on outcome. METHODS: Data were collected prospectively on 4,918 patients (study group n = 2,793 and a validation data set n = 2,125) undergoing coronary artery bypass grafting alone or combined with a valve or carotid procedure between January 1, 1993, and March 31, 1995. Data were analyzed by univariate and multiple logistic regression with the end points of hospital mortality and serious ICU morbidity (stroke, low cardiac output, myocardial infarction, prolonged ventilation, serious infection, renal failure, or death). RESULTS: Eight risk factors predicted hospital mortality at ICU admission, and these factors and five others predicted morbidity. A clinical score, weighted equally for morbidity and mortality, was developed. All models fit according to the Hosmer-Lemeshow goodness-of-fit test. This score applies equally well to patients undergoing isolated coronary artery bypass grafting. CONCLUSIONS: This model is complementary to our previously reported preoperative model, allowing the process of ICU care to be measured independent of the operative care. Sequential scoring also allows updated prognoses at different points in the continuum of care.

Sigma receptor activation does not mediate fentanyl-induced attenuation of muscarinic coronary contraction.

Our overall goal was to investigate the mechanism by which fentanyl attenuates acetylcholine-induced contraction in porcine coronary artery. We tested the hypothesis that fentanyl attenuates muscarinic coronary contraction via sigma receptor activation. Left coronary artery vascular rings were isolated from porcine hearts and were suspended in organ chambers for isometric tension recording. In untreated coronary vascular rings, acetylcholine administration resulted in dose-dependent contraction. Fentanyl attenuated acetylcholine-induced contraction. The sigma ligands--(+)-pentazocine, (+)-cyclazocine, haloperidol, and 1,3-di-o-tolylguanidine--also inhibited acetylcholine-induced contraction. In contrast, the selective sigma ligand, (+)-3-(3-hydroxyphenyl)-N-(1-propyl) piperidine failed to have an inhibitory effect on acetylcholine-induced contraction. Moreover, metaphit (1-[1(3-isothiocyanatophenyl)cyclohexyl]piperidine), which causes irreversible acylation of sigma receptors, only inhibited acetylcholine-induced contraction when it was present in the organ chamber. We also assessed the effects of inhibiting various points in the signal transduction pathway distal to naloxone-sensitive opioid receptor activation on acetylcholine-induced contraction. Selective (glybenclamide) and nonselective (tetraethylammonium) K(+)-channel inhibition, guanosine triphosphate-binding protein inactivation (pertussis toxin), and Type 1 and Type 2 dopamine receptor inhibition all failed to alter the attenuating effect of fentanyl on acetylcholine-induced contraction. Thus, neither sigma or opioid receptor activation is a prerequisite for fentanyl-induced inhibition of muscarinic coronary contraction.

Role of nitric oxide in systemic hemodynamic responses to dobutamine, epinephrine, and amrinone.

OBJECTIVE: This study was designed to investigate the extent to which the systemic vasodilator effects of dobutamine, epinephrine, and amrinone are modulated by the endothelium-derived relaxing factor, nitric oxide (NO). DESIGN: This was a prospective study of low and high doses of the agonists before and after inhibition of NO synthesis. SETTING: Experiments were performed in the basic research laboratories of the Center for Anesthesiology Research. PARTICIPANTS: Pentobarbital-anesthetized, intact Sprague-Dawley rats were studied in seven separate groups of eight rats each. INTERVENTIONS: The systemic vasodilator responses to the agonists were assessed before and after the administration of the NO synthase inhibitor, NG-nitro-L-arginine methyl ester. MEASUREMENTS AND MAIN RESULTS: Decreases in systemic vascular resistance in response to dobutamine and epinephrine were not observed after inhibition of NO synthesis, whereas the decrease in systemic vascular resistance in response to amrinone was still apparent. CONCLUSIONS: The results suggest that dobutamine and epinephrine produce systemic vasodilation through the release of NO, whereas amrinone produces vasodilation independent of NO release.

Mechanism of systemic vasodilation during normovolemic hemodilution.

In the nonfailing heart, normovolemic hemodilution increases cardiac output and decreases total peripheral resistance (TPR). Putative mechanisms mediating the decrease in TPR include reflex vasodilation and changes in the local regulation of blood flow. Our objectives were to determine whether ablation of reflex neural mechanisms or the inhibition of nitric oxide (NO) synthase, the enzyme responsible for the synthesis of the endothelium-derived relaxing factor (EDRF-NO), modulates the systemic vasodilator response to normovolemic hemodilution. Three groups of male Sprague-Dawley rats were subjected to acute normovolemic hemodilution, which was achieved by exchanging a volume of blood equivalent to 3.8% of body weight with hydroxyethyl starch. Hemodilution increased cardiac output and decreased TPR. Subsequent administration of the NO synthase inhibitor, L-nitroarginine (LNA), returned both cardiac output and TPR to control values. Pretreatment with LNA prior to hemodilution increased TPR, an effect that was partially reversed by the NO donor, sodium nitroprusside. In this setting, hemodilution failed to decrease TPR. After spinal cord destruction by "pithing," hemodilution decreased TPR to the same extent as that observed in intact rats. This hemodilution-induced decrease in TPR was abolished by the subsequent administration of LNA. These results indicate that neural reflexes do not modulate the systemic vascular response to hemodilution. Moreover, the systemic vasodilator response to hemodilution is abolished after inhibition of endogenous NO synthesis.

The use of APACHE III to evaluate ICU length of stay, resource use, and mortality after coronary artery by-pass surgery.

OBJECTIVE: To identify patient characteristics that are associated with increased ICU length of stay, resource use, and hospital mortality after coronary artery bypass surgery. DESIGN: Prospective, multicenter study. SETTING: Six tertiary care hospitals. PARTICIPANTS: A consecutive sample of 2,435 unselected ICU admissions following coronary artery by-pass surgery. MATERIALS AND METHODS: Demographic, operative characteristics and APACHE III score were collected during the first postoperative day; and APACHE III scores and therapeutic interventions during the first three postoperative days. Hospital survival and ICU length of stay were also recorded. Multivariate equations were derived and cross-validated to predict hospital mortality, ICU length of stay, and ICU resource use. RESULTS: Unadjusted hospital mortality rate was 3.9% (range 1.0% to 6.0%), mean ICU length of stay was 3.7 days (range 3.2 to 4.7 days), and first 3-day ICU resource use (TISS points) was 99 (range 68 to 116). The range of actual to predicted ICU length of stay varied from 0.86 to 1.26; and resource use from 0.71 to 1.16. CONCLUSIONS: A limited number of operative characteristics, the post-operative acute physiology score (APS) of APACHE III and patient demographic data can predict hospital death rate, ICU length of stay, and resource use immediately following coronary by-pass surgery. These estimates may compliment assessments based on pre-operative risk factors in order to more precisely evaluate and improve the efficacy and efficiency of cardiovascular surgery.

Hemodynamic responses to dobutamine during acute normovolemic hemodilution.

The effects of dobutamine (DOB) on myocardial performance, systemic hemodynamics, and oxygen delivery during acute normovolemic hemodilution in anesthetized rats were studied. Forty-two Sprague Dawley rats (body weight 375 to 425 g) were divided into six equal groups. Hemodynamic and cardiac indices were measured or calculated at baseline, 30 minutes after the initiation of hemodilution (HD), and 15 minutes after DOB or saline infusion. Myocardial performance in response to acute pressure or volume loads was studied in all groups of animals. HD to a hematocrit (Hct) value of 20% resulted in no change in heart rate (HR), increased CI, SVI, and LV dP/dt, and decreased MAP, SVRI, and oxygen delivery index (O2DI). HD increased peak SV and CI after preload stress while the left ventricular developed pressure (LVDP) was unchanged. Infusion of DOB as 7.5 or 15 micrograms/kg/min increased HR, CI, and LV dP/dt as well as LVDP. At the same time, DOB decreased MAP and SVR, whereas the SVI remained unchanged. In non-HD animals both doses of DOB increased LVDP, but only the larger dose increased CI, whereas peak SV decreased with the smaller dose. Arterial carbon dioxide tension (PaCO2) increased, whereas pH and arterial oxygen tension (PaO2) decreased; however, O2DI remained unchanged. Concomitant hemodilution and DOB infusion resulted in attenuation of HR response to DOB, exaggerated the drop in MAP and SVR, and increased LV dP/dt. Only the larger dose of DOB increased the CI, whereas neither dose could alter the SVI in HD animals.(ABSTRACT TRUNCATED AT 250 WORDS)

Propofol versus midazolam for intensive care unit sedation after coronary artery bypass grafting.

OBJECTIVE: To compare the safety and effectiveness of propofol (2,6-diisopropylphenol) to midazolam for sedation of mechanically ventilated patients after coronary artery bypass grafting. DESIGN: Open, randomized, prospective trial. SETTING: Cardiothoracic intensive care unit (ICU), Cleveland Clinic Foundation. PATIENTS: Eighty-four patients with normal or moderately impaired left ventricular function who underwent elective coronary artery bypass graft surgery under high-dose opioid anesthesia. INTERVENTIONS: Patients were randomly selected to receive either propofol (mean loading dose 0.24 mg/kg; mean maintenance dose 0.76 mg/kg/hr) or midazolam (mean loading dose 0.012 mg/kg; mean maintenance dose 0.018 mg/kg/hr). Infusion rates were titrated to keep patients comfortable, drowsy, and responsive to verbal stimulation. Study duration, 8 to 12 hrs; infusions were started in the ICU when patients were awake and hemodynamically stable. MEASUREMENTS AND MAIN RESULTS: During therapy, both groups had lower mean arterial pressures and heart rates compared with baseline measurements; however, the propofol group had significantly lower heart rates than the midazolam group during the first 2 hrs of infusion. The propofol group also had significantly lower blood pressure measurements 5 and 10 mins after the initial dose, although there was no difference during infusion. Baseline cardiac output was measured before starting the infusion, and measurements were repeated during continuous infusion at 4, 8, and 12 hrs. Cardiac output values were similar. Propofol maintenance infusions ranged from 3 to 30 micrograms/kg/min and midazolam infusions ranged from 0.1 to 0.7 micrograms/kg/min. At these infusion rates. both groups had adequate sedation, based on nurse and patient evaluations; however, the propofol group used significantly lower total doses of sodium nitroprusside and supplemental opioids. CONCLUSIONS: Both propofol and midazolam provided safe and effective sedation of coronary artery bypass graft patients recovering from high-dose opioid anesthesia. The reduced need for both antihypertensive medication and opioids seen in the propofol group may be advantageous. However, the hypotension seen after the initial bolus dose of propofol may be a concern. No difference between the two drugs could be demonstrated in time to extubation or ICU discharge, although it is probable that time to extubation was governed more by residual operative opioids than the study agents.

Low factor XIIIA levels are associated with increased blood loss after coronary artery bypass grafting.

Current hematologic approaches to minimize postoperative bleeding have focused principally on antifibrinolytic agents. To explore whether a need might exist to promote clot stabilization independent of steps that might be taken to prevent lysis, we followed levels of the functional A-chain of factor XIII (fibrin stabilizing factor) immunologically in 19 patients undergoing coronary artery bypass grafting. The levels of factor XIIIA together with alterations in fibrinogen were followed at five stages of operation: (1) initial catheter placement (control), (2) heparinization, (3) initiation of cardiopulmonary bypass, (4) discontinuation of cardiopulmonary bypass, and (5) heparin neutralization with protamine sulfate. Significant (p < 0.05) inverse correlations were observed between postoperative chest-tube drainage volumes and levels of XIIIA at stages 1 through 3, and borderline associations (p < 0.1) were observed for stages 4 and 5. Pronounced losses of factor XIIIA accompanied initiation of cardiopulmonary bypass, when levels fell to 43% +/- 12% (standard deviation) of the control value, significantly below the 59% +/- 9% of the control value expected from hemodilution. By comparison, fibrinogen concentrations fell only to the extent attributable to hemodilution, unaccompanied by substantial degradation as indicated by electrophoretic, functional, and immunologic assays. There was a reversible heparin-induced precipitation of fibrin complexes and fibrinogen dimers from the blood on initiation of hypothermia, but these components returned to the circulation on restoration of normothermia. This precipitation was unrelated to losses of factor XIIIA. The findings warrant inference that XIIIA supplementation in deficient states should be considered as an adjunct to other therapies for postoperative bleeding.

Vasodilation and mechanism of action of propofol in porcine coronary artery.

BACKGROUND: A decrease in myocardial perfusion pressure may reduce myocardial blood flow. However, it may not significantly affect myocardial perfusion when in presence of a concurrent coronary artery vasodilation. However, the effects of propofol in coronary arteries are not well determined. In this study, the effects of propofol on porcine coronary artery responses to vasoactive agents that operate through voltage- and receptor-mediated calcium mechanisms were investigated. METHODS: Hearts of adult pigs (n = 103) were obtained from a slaughter house, and the left anterior descending coronary arteries were dissected. The arteries were cut into vessel rings and prepared with and without the endothelium organ chambers filled with buffered salt solution. The effect of propofol (10(-7), 10(-6), 10(-5), and 10(-4) M) on vascular smooth muscle contraction caused by intracellular Ca(2+)-influx through voltage- and receptor-mediated mechanism also was studied at a cellular level. RESULTS: Propofol relaxed coronary rings that were contracted by KCl, norepinephrine (NE), serotonin (5-HT), or carbachol (CCh). The minimal concentrations of propofol that produced significant vasorelaxation ranged from 3.16 x 10(-7) M to 3.16 x 10(-6) M. Vasodilation was more pronounced in rings contracted by NE, 5-HT, and CCh than by KCl. Propofol (10(-5) M) attenuated coronary vasoconstriction in response to cumulative concentrations of KCl, NE, 5-HT, and acetylcholine. Maximal contractions produced by NE and 5-HT were inhibited to a greater degree than contractions produced by KCl. Propofol at concentrations of 10(-5) M and higher attenuated a contraction in response to CaCl2 in vascular rings depolarized by KCl, but concentrations of 10-M did not attenuate contractions. Vasoconstriction in response to calcium entry in the presence of NE (and nifedipine 10(-6) M) was attenuated by propofol at concentrations of 10(-6) M and higher. Caffeine-induced contraction, caused by intracellular calcium release, was attenuated only at 10(-4) M of propofol. CONCLUSIONS: Propofol possesses vasodilator effect and attenuates the effects of vasoconstrictor agents in porcine coronary artery. Further, an antagonism of calcium channels may be responsible for these effects of propofol.

Fentanyl stimulates atrial natriuretic peptide secretion.

The effects of fentanyl on ultrastructure, protein biosynthesis, and atrial natriuretic peptide (ANP) secretion were studied in neonatal rat cardiomyocytes (CM). Ventricles from 2-day-old American Wistar rats were digested with 1% collagenase in perfusion buffer. Eight hundred thousand to 1.0 million cells/ml were incubated in tissue culture media, to which fentanyl citrate (Sublimaze) was added in a dose of 10-50 ng/ml. Fentanyl increased the spontaneous CM beating rate, which became rather fibrillary in nature. Protein biosynthesis also increased in a time-related manner. Simultaneous incubation with naloxone (10(-6) M) did not alter the beating rate or protein synthesis. Ultrastructurally, several criteria of myocyte growth were observed: an increase in myofilaments and the appearance of newly formed organized sarcomeres, which were preceded by an increase in the ribosomes and cisternae of rough endoplasmic reticulum, and the appearance of large, adult-type mitochondria with increased matrix granules and long parallel cristae. The latter replaced the elongated thin fetal mitochondria. This was associated with a network of developing sarcoplasmic reticulum and T-tubular system as well as the formation of intercalated discs between the CM. Furthermore, exposure to fentanyl increased ANP immunoreactivity in the culture media while simultaneous incubation with naloxone blocked the effect of fentanyl on ANP secretion. On the other hand, naloxone alone did not alter ANP secretion. Therefore, it could be concluded that fentanyl stimulated protein biosynthesis and ANP secretion as evidenced both biochemically and ultrastructurally. Although the molecular mechanism of ANP secretion by fentanyl is still unclear, yet an opioid receptor mediation could be possible as ANP secretion was blocked by an opioid receptor antagonist (naloxone).

Anesthesia for coronary artery surgery.

Anesthesia for coronary artery bypass graft surgery continues to evolve in concert with changing epidemiology, advances in technology and pharmacology, and refinement in technique. The profile of the cardiac surgical patient is increasingly characterized by factors such as advanced age, reoperation, combination procedures, complications of acute intervention, and more complex disease. Preoperative risk factor assessment offers a means of strategic planning and intervention. Choice of anesthetic agents, muscle relaxants, and anti-ischemic medications affects both perioperative management and long-term outcome. Transesophageal echocardiography and ST segment monitoring are being applied more broadly. Advances have been made in managing postoperative blood loss. As in other areas of medicine, economic issues have become important considerations in anesthesia for the cardiac surgical patient.

Fentanyl attenuates porcine coronary arterial contraction through M3-muscarinic antagonism.

The "antimuscarinic effect" of fentanyl and its dependence on subtypes of receptors were characterized in isolated porcine coronary arteries. Left anterior descending coronary arteries were dissected from the hearts of 60 adult pigs obtained at a slaughterhouse and prepared for isometric tension studies. The effects of fentanyl on the cumulative concentration-response curve for acetylcholine were obtained in the presence and absence of muscarinic blockade by atropine. Fentanyl shifted the concentration-response curve to the right in a concentration-dependent fashion. Atropine shifted the concentration-response curve to the right, and no further shift was caused by fentanyl. To investigate the dependence on muscarinic receptor subtypes, the effect of fentanyl on acetylcholine-induced contraction was examined in the presence of specific M1-, M2-, and M3-muscarinic antagonists. The pA2 values for fentanyl decreased significantly in the presence of atropine (a nonspecific antagonist) and also in the presence of p-F-HHSiD (an M3-antagonist). In contrast, no significant change of pA2 value for fentanyl was observed in the presence of both pirenzepine (an M1-antagonist) and methoctramine (an M2-antagonist). We conclude that fentanyl has an antimuscarinic effect, and that this antagonism occurs in a competitive manner. Furthermore, the significant decrease of the pA2 value for fentanyl in the presence of M3-, but not in the presence of M1 + M2-antagonists, suggests that the attenuation of cholinergic contraction of porcine coronary arteries by fentanyl is mediated through the M3-muscarinic receptor subtype.

Acute morphological effects of cocaine on rat cardiomyocytes.

The cardiovascular actions of cocaine in vivo are varied and often antagonistic. Cocaine produces excitatory sympathomimetic effects by interfering with re-uptake of norepinephrine at adrenergic nerve terminals. However, the local anaesthetic properties of cocaine exert depressant effects on the myocardium. In an attempt to differentiate the direct effects of cocaine from the indirect sympathomimetic effects on the myocardium, primary cultures of neonatal rat cardiomyocytes were established under serum-free conditions and exposed to cocaine and/or norepinephrine. After 36-48 h in culture, spontaneously contracting cells were treated with cocaine (10-1,000 micrograms/ml) and contractile rate (beats/min) quantitated, after which the cells were processed for ultrastructural examination. The contractile rate was reduced at all dosages with nearly 80% reduction at the highest concentration studied. Recovery of beating rate was observed 24 h after removal of cocaine. Pronounced cytoplasmic vacuolation of the cells occurred at concentrations > or = 100 micrograms/ml. Ultrastructural examination revealed extensive myofibrillar disruption, membrane damage, and a near complete loss of organized sarcomeres. Nuclear morphology remained unaffected. Within 24 h after removal of cocaine from the medium, myocytes recovered their characteristic cytoplasmic architecture, indicative of sarcomere reassembly. The results observed in response to cocaine were distinctly different from the response to norepinephrine. In these myocytes, the contractile rate was enhanced twofold and morphological damage was not observed. These findings suggest that cocaine can directly alter myocardial morphology independent of its sympathomimetic effects.

Analysis of heart rate variability to assess hemodynamic alterations following induction of anesthesia.

Extensive changes in hemodynamics and cardiac rhythm during induction of anesthesia may be mediated by altered responses of the autonomic nervous system to anesthetic agents. Analysis of the power spectrum of the heart rate (PSHR) variability can supply information about the autonomic nervous system, and may be used in order to assess this phenomenon. In this study, 78 patients undergoing coronary artery bypass graft surgery were evaluated. Anesthesia was induced with sufentanil, and neuromuscular blockade with vecuronium, a combination that may cause a decrease in heart rate. Before and after induction of anesthesia, the heart rate (HR), blood pressure (BP), cardiac output (CO), cardiac index (CI), and PSHR components were recorded. PSHR was obtained by using a special algorithm and data acquisition system for real-time spectral analysis. A low-frequency component (LFa, mainly sympathetic) was analyzed from a band of 0.04 Hz to 0.1 Hz. A high-frequency component (RFa, parasympathetic) was identified by the respiratory frequency spectrum. Alterations of the heart rate after induction of anesthesia were defined in order to separate the patient population into two groups: slow heart rate (slow-HR) and stable heart rate (stable-HR). Slow heart rate was defined as a decrease in HR of more than 20% of the baseline value. The variables were analyzed and compared between the slow-HR (n = 25) and stable-HR (n = 53) groups in order to verify the possibility of identifying patients prone to hemodynamic changes after anesthesia induction. There were no differences in preoperative HR, BP, CO, or CI between groups before anesthesia induction.(ABSTRACT TRUNCATED AT 250 WORDS)