James T. Niemann

Predictive indices of successful cardiac resuscitation after prolonged arrest and experimental cardiopulmonary resuscitation

To determine if clinically accessible hemodynamic and blood gas measurements are of value in predicting outcome of countershock after prolonged ventricular fibrillation (VF) and artificial cardiopulmonary support, 14 dogs were studied during 30 minutes of VF using two randomly assigned closed-chest techniques. Seven dogs underwent conventional CPR; the other seven were supported with a pneumatic thoracic vest and abdominal binder, which were inflated synchronously with the airway. Ascending aortic (Ao), right atrial (RA), and instantaneous coronary perfusion pressures (Ao - RA) were measured at five-minute intervals. Ao and RA blood samples were analyzed at 10, 20, 25 and 30 minutes for PO2, PCO2, and pH. After 25 minutes, 1 mg epinephrine was given intravenously, and five minutes later defibrillation was attempted. If unsuccessful, repeated countershocks, conventional pharmacologic therapy, and artificial support were continued. If a perfusing spontaneous cardiac rhythm did not result within an additional 30 minutes, the experiment was terminated. Six animals developed a perfusing cardiac rhythm after one or more countershocks (Group 1); eight failed to develop a perfusing rhythm after repeated countershocks and an additional 30 minutes of resuscitative effort (Group 2). Five Group 1 dogs received vest/binder artificial support. When measured values were averaged over the study period, Group 1 was found to have a significantly greater Ao end-diastolic pressure (AoEDP) and peak diastolic coronary perfusion pressure (CPP) when compared to Group 2 (23 +/- 6 vs 14 +/- 8 mm Hg, P less than .05; and 22 +/- 6 vs 5 +/- 10 mm Hg, P less than .01, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)

Treatment of prolonged ventricular fibrillation. Immediate countershock versus high-dose epinephrine and CPR preceding countershock.

BackgroundEarly countershock of ventricular fibrillation has been shown to improve immediate and long-term outcome of cardiac arrest. However, a number of investigations in the laboratory and in the clinical population indicate that immediate countershock of prolonged ventricular fibrillation most commonly is followed by asystole or a nonperfusing spontaneous cardiac rhythm, neither of which rarely respond to current therapy. The use of epinephrine in doses greater than those currently recommended has recently been shown to improve both cerebral and myocardial perfusion during cardiopulmonary resuscitation (CPR). The purpose of this study was to compare cardiac resuscitation outcome between immediate countershock of prolonged ventricular fibrillation with high-dose epinephrine therapy and conventional CPR before countershock of prolonged ventricular fibrillation in a canine model. Methods and ResultsAfter sedation, intubation, induction of anesthesia, and instrumentation, ventricular fibrillation was electrically induced in 28 dogs. After 7.5 minutes of ventricular fibrillation, animals were randomly allocated to two treatment groups: group 1, immediate countershock followed by recommended advanced cardiac life support (ACLS) interventions, or group 2, 0.08 mg/kg epinephrine and manual closed-chest CPR before countershock and ACLS. In both groups, ACLS was continued until a spontaneous perfusing rhythm was restored or for 20 minutes (total arrest time, 27.5 minutes). A spontaneous perfusing rhythm was restored in three of 14 group 1 animals and in nine of 14 group 2 animals (p = 0.014 by sequential analysis method of Whitehead). Coronary perfusion pressure (aortic minus right atrial pressure during CPR diastole) before countershock was significantly greater in group 2 (21±7 mm Hg) when compared with mean circulatory pressure in group 1 (9±8, p < 0.01) ConclusionsThe findings of this study suggest that a brief period of myocardial perfusion before countershock improves cardiac resuscitation outcome from prolonged ventricular fibrillation.

Pressure-synchronized cineangiography during experimental cardiopulmonary resuscitation.

Cardiopulmonary resuscitation (CPR) has been thought to produce blood flow by compression of the heart between the sternum and spine, termed “external cardiac massage,” but there has been-no direct experimental documentation of this proposed mechanism.Micromanometric pressure recordings were synchronized with cineangiograms during mechanical CPR in 17 dogs with induced ventricular fibrillation. Chest compression produced equivalent pressure increases in the aorta (Ao) and right atrium (RA) (Ao 32 + 14 mm Hg, RA 30 ± 14 mm Hg; NS), a linear relationship between aortic and intrapleural pressures (r = 0.87, p < 0.001) over a wide range of induced pressures, cineangiographic blood flow through both left-heart chambers, and a pressure gradient (21 ± 14 mm Hg) between all intrathoracic cardiovascular compartments and the jugular veins that resulted from closure of venous valves at the thoracic inlets. Simultaneous chest compression and lung inflation significantly increased all intrathoracic vascular pressures, the aortojugular venous gradient (42 ± 13 mm Hg, p < 0.05 vs chest compression alone), electromagnetically determined carotid arterial blood flow (1.75 ± 0.81 ml/min/kg vs 0.51 ± 0.27 mI/min/kg during chest compression alone, p < 0.005), and angiographic left-heart flow.We conclude that blood flow during CPR results principally from an increased intrathoracic pressure and that there is selective flow to the brachiocephalic vascular bed because of the arteriovepous gradient produced by venous valves at the thoracic inlets. Greater intrathoracic pressure resulting from simultaneous inflation and compression improves left-heart flow. The left heart is therefore a conduit, not a pump, during CPR.

Electrocardiographic criteria for tricyclic antidepressant cardiotoxicity

To determine if electrocardiographic findings characterize tricyclic antidepressant (TCA) overdose and cardiotoxicity, 25 patients suspected of taking an overdose of TCA were studied. Toxicologic assays for a TCA were positive in 11 patients (+TCA, n = 11). Toxicologic study results for a TCA were negative in 14 patients (-TCA, control subjects). Patients with positive TCA results (+TCA) had a significantly greater heart rate (117 +/- 23 vs 100 +/- 22 beats/min, p less than 0.05), QRS duration (103 +/- 15 vs 87 +/- 10 ms, p less than 0.005) and corrected QT interval (449 +/- 38 vs 418 +/- 36 ms, p less than 0.05) than control patients (-TCA) on admission. Patients with positive TCA results also had a more rightward terminal 40-ms frontal plane QRS vector (195 +/- 51 degrees vs 54 +/- 64 degrees, p less than 0.001) than control patients. This observation has not been previously reported. A terminal QRS vector of 130 degrees to 270 degrees accurately discriminated between -TCA and +TCA patients (positive and negative predictive value = 1.00). Counterclockwise rotation (normalization) of the terminal frontal plane QRS vector was noted in +TCA patients during hospitalization. All +TCA patients had a sinus tachycardia, a corrected QT interval 418 ms or longer, and a terminal QRS vector between 130 degrees and 270 degrees. Using these values as selection criteria, a computer-aided search of 15,064 electrocardiograms (ECGs) recorded in our emergency department was performed. The likelihood of encountering such an electrocardiographic pattern in this population was 1.0%.(ABSTRACT TRUNCATED AT 250 WORDS)

Coronary Perfusion Pressure During Experimental Cardiopulmonary Resuscitation

Systemic blood flow during cardiopulmonary resuscitation may result from alterations in intrapleural pressure (IPP), with the heart serving only as a passive conduit. Chest compression with simultaneous lung inflation (C + SI) or with abdominal binding may also increase vascular pressures and cerebral flow. Our study was done to evaluate the effects of C + SI with and without abdominal binding on coronary perfusion pressure (CPP) during CPR. Micromanometric pressures were recorded in 7 dogs during ventricular fibrillation (VF) and CPR to evaluate CPP (aortic minus right atrial pressure). During chest compression alone, aortic (AoP) and right atrial (RAP) pressures did not differ significantly. During relaxation, AoP (15 +/- 4 mm Hg) was greater than RAP (3 +/- 2 mm Hg; P less than 0.001) and diastolic CPP averaged 12 +/- 4 mm Hg. C + SI significantly increased AoP, RAP, and IPP, but did not improve systolic or diastolic CPP. Tight abdominal binding during chest compression alone or during C + SI also increased AoP and RAP and caused a slight but insignificant decrease in diastolic CPP. Extravascular resistance to coronary flow during VP has been shown to average 28 mm Hg in the in vitro heart. Our study indicates that CPPs calculated during CPR do not reach sufficient values to overcome the resistance offered by the fibrillating myocardium. Interventions which increase IPP, intravascular pressures, and carotid flow do not improve CPP or, by inference, coronary flow.

Colchicine overdose: Report of two cases and review of the literature

Colchicine overdose is an uncommon but serious problem that may be missed or ignored unless the physician is aware of the significant potential for, and the various stages of, toxicity. We report two fatal cases in which the potential for lethal complications was not initially realized. Both patients developed multiple organ damage characteristic of severe colchicine toxicity. Awareness and appropriate initial therapy are important if death is to be prevented in colchicine overdose.

Postcountershock pulseless rhythms: Response to CPR, artificial cardiac pacing, and adrenergic agonists

Clinically, countershock of ventricular fibrillation (VF) may result in asystole or a pulseless rhythm in more than 50% of attempts. We conducted a study to assess the effects of immediate artificial pacing, CPR, and adrenergic drug therapy in the management of postcountershock pulseless rhythms. Thirty-four episodes of VF followed by countershock were studied in eight anesthetized dogs. Transducer-tipped catheters were positioned in the ascending aorta (Ao) and right atrium (RA). A bipolar pacing catheter was advanced to the apex of the right ventricle and a catheter for measurement of coronary sinus blood flow (CSQ) (continuous thermodilution technique) was positioned in the coronary sinus. VF was induced electrically and a countershock at 400 J was given two minutes later; CPR was not performed during VF episodes. Countershock was followed by asystole or a pulseless rhythm in all animals. Immediate endocardial pacing (0.1 to 5 mA) of bradyarrhythmias produced electrical capture but did not result in arterial pressure pulses in any animal. After pacing, CPR was performed for two minutes or until restoration of spontaneous circulation (ROSC). During CPR, the diastolic coronary perfusion gradient (Ao-RA) was 20 +/- 7 mm Hg (mean +/- SD) and CSQ was 14 +/- 7 mL/min/100 g (53% +/- 43% of control). ROSC followed CPR of less than two minutes duration in 24% of VF study episodes. If ROSC did not follow two minutes of CPR, 1 mg epinephrine, or 50 micrograms or 100 micrograms isoproterenol was given IV.(ABSTRACT TRUNCATED AT 250 WORDS)

Advanced airway management does not improve outcome of out-of-hospital cardiac arrest.

BACKGROUND The goal of out-of-hospital endotracheal intubation (ETI) is to reduce mortality and morbidity for patients with airway and ventilatory compromise. Yet several studies, mostly involving trauma patients, have demonstrated similar or worse neurologic outcomes and survival-to-hospital discharge rates after out-of-hospital ETI. To date, there is no study comparing out-of-hospital ETI to bag-valve-mask (BVM) ventilation for the outcome of survival to hospital discharge among nontraumatic adult out-of-hospital cardiac arrest (OOHCA) patients. OBJECTIVES The objective was to compare survival to hospital discharge among adult OOHCA patients receiving ETI to those managed with BVM. METHODS In this retrospective cohort study, the records of all OOHCA patients presenting to a municipal teaching hospital from November 1, 1994, through June 30, 2008, were reviewed. The type of field airway provided, age, sex, race, rhythm on paramedic arrival, presence of bystander cardiopulmonary resuscitation (CPR), whether the arrest was witnessed, site of arrest, return of spontaneous circulation (ROSC), survival to hospital admission, comorbid illnesses, and survival to hospital discharge were noted. A univariate odds ratio (OR) was first computed to describe the association between the type of airway and survival to hospital discharge. A multivariable logistic regression analysis was performed, adjusting for rhythm, bystander CPR, and whether the arrest was witnessed. RESULTS A cohort of 1,294 arrests was evaluated. A total of 1,027 (79.4%) received ETI, while 131 (10.1%) had BVM, 131 (10.1%) had either a Combitube or an esophageal obturator airway, and five (0.4%) had incomplete prehospital records. Fifty-five of 1,294 (4.3%) survived to hospital discharge; there were no survivors in the Combitube/esophageal obturator airway cohort. Even after multivariable adjustment for age, sex, site of arrest, bystander CPR, witnessed arrest, and rhythm on paramedic arrival, the OR for survival to hospital discharge for BVM versus ETI was 4.5 (95% confidence interval [CI] = 2.3-8.9; p<0.0001). CONCLUSIONS In this cohort, when compared to BVM ventilation, advanced airway methods were associated with decreased survival to hospital discharge among adult nontraumatic OOHCA patients.

Cough-CPR: documentation of systemic perfusion in man and in an experimental model: a "window" to the mechanism of blood flow in external CPR.

Maintenance of arterial pressure and consciousness by vigorous coughing during ventricular fibrillation has been previously documented. Observations in 4 additional patients with unstable rhythms and in fibrillating dogs confirm that coughing: (1) produces an arterial pulse; (2) produces opening of the aortic valve; (3) generates forward blood flow; and (4) can maintain consciousness during circulatory arrest. The authors speculate that cough-induced systemic perfusion results from compression of the pulmonary vascular beds by a rise in intrathoracic pressure, the left heart acting only as a one-way conduit to the lower pressure extrathoracic vascular outlets. Receht data suggest that conventional CPR likewise produces blood flow by compression of the pulmonary vascular blood pool, and not by cardiac compression as previously thought.

Mechanical “cough” cardiopulmonary resuscitation during cardiac arrest in dogs

Hemodynamic findings during ventricular fibrillation (VF) and closed-chest cardiopulmonary resuscitation (CPR) are similar to those described during VF and vigorous coughing. Interventions during CPR that mimic the physiologic events of coughing (high intrathoracic pressure and high intraabdominal pressure) improve perfusion during VF and CPR. An external circulatory assist apparatus was devised to emulate cough physiology, i.e., simultaneous pulsatile increases in intrathoracic pressure (pneumatic vest), intraabdominal pressure (abdominal binder) and airway pressure (high-pressure airway inflation). In this study, vest/binder CPR was compared with conventional CPR during 30 minutes of VF and artificial support in 18 randomized dogs. Defibrillation and long-term (more than 24 hours) survival were chosen as end points. During VF and artificial support, aortic and right atrial (RA) pressures, the instantaneous aortic-RA pressure difference (coronary perfusion pressure) and blood gas levels were measured. After 30 minutes of VF and administration of 1 mg of epinephrine, countershock was attempted. Systolic aortic and RA pressures, mean aortic-RA pressure difference and blood gas levels were not significantly different between dogs that were successfully resuscitated and those that were not. However, peak diastolic coronary perfusion pressure (peak diastolic aortic-RA pressure) for survivors averaged 23 +/- 6 mm Hg, but only 6 +/- 10 mm Hg for nonsurvivors (p less than 0.001). A peak diastolic coronary perfusion pressure 16 mm Hg or greater had a positive and negative predictive value for a successful outcome of 1.00. Only 1 of 9 conventional CPR dogs survived 24 hours; 7 of 9 dogs supported with the vest/binder device were alive and neurologically normal at 24 hours (p = 0.007).(ABSTRACT TRUNCATED AT 250 WORDS)