Helicopter transport of patients to tertiary care centers after cardiac arrest.

Air transport is commonly used to transfer survivors of cardiac arrest from rural hospitals to large tertiary-care centers, presumably to improve outcome. To examine this issue, a retrospective review of patients stabilized after a cardiac arrest was conducted; 157 transports were reviewed. The mean age of patients was 37.9 +/- 27.8 yrs, with a male to female ratio of 2.2:1. Survivors were significantly older than nonsurvivors. Thirty-one of 69 patients (45%) with primary cardiac disease were discharged alive from the hospital, 75% without neurological sequelae. Only a minority of patients with noncardiac medical illness (7%), electrical injury (33%), suffocation (15%), near-drowning (15%), and inhalation (0%) were discharged alive from the hospital. Outcomes for cardiac arrest in adult patients older than 65 years (32.3% survival) were similar to those for adult patients younger than 65 years (36.2% survival) (P = .887). These results show that survivors of a primary cardiac event have a favorable outcome when transferred by air to tertiary centers when compared with historical controls that were transported by ground. On the other hand, cardiac arrests from noncardiac medical illness, suffocation, near-drowning, and inhalation have a grim prognosis. Prospective studies should clarify the role of air transport in these patients.

Glottic positioning of the endotracheal tube tip: a diagnostic dilemma.

Distal placement of the endotracheal tube tip in the glottic opening is rarely discussed in most emergency medicine, surgery, and prehospital medicine texts. We report three cases of glottic intubation recognized after the patients were thought to have been successfully intubated. Glottic positioning of the endotracheal tube tip went unrecognized initially because of the absence of air heard over the epigastrium, the presence of bilateral breath sounds, and acceptable readings by both pulse oximetry and capnography. Recognition of this complication is aided by the use of radiographic findings, inappropriate endotracheal tube depth, and the presence of inadequate ventilatory volumes. Potential complications of glottic intubation include dislodgement of the endotracheal tube, kinking of the tube, and inadequate protection of the airway.

Seroprevalence of hepatitis B and hepatitis C among rural emergency medical care personnel.

To identify the prevalence of serologic markers of hepatitis B and hepatitis C among rural prehospital providers, a prospective descriptive study was conducted of a rural county emergency medical services (EMS) system. Participants included 107 prehospital care providers: 102 EMT-Bs, 1 paramedic, and 4 law enforcement first responders. Blood samples taken from prehospital care providers were tested for hepatitis B surface antigen (HBsAg), antibody to HBsAg (HBsAb), antibody to hepatitis B core antigen (HBcAb), and antibody to hepatitis C (anti-HC). The 107 providers had a total of 635 years of EMS experience (5.93 years per subject). Three providers (3%) had received previous blood transfusions, 7 (7%) had worked in a metropolitan area, and 6 (6%) had multiple sexual partners prior to the study. No provider reported intravenous drug use or known homosexual or bisexual contact. Only one sample tested positive for hepatitis C antibody (anti-HC) and hepatitis surface antibody (HBsAb). Rural prehospital care personnel have a low prevalence (0.9%) of exposure to hepatitis B and hepatitis C. Despite this fact, continued vigilance should be maintained in preventing transmission of bloodborne illnesses.

One-way neonatal transports: a new approach to increase effective utilization of air medical resources.

INTRODUCTION: High-risk neonates often require significant stabilization and preparation time for transport. The purpose of this study was to determine whether the institution of a formal neonatal transport policy would increase the effective utilization of air medical resources and to determine whether such a policy would be useful to other air medical transport programs. METHODS: A descriptive review of flight data from time periods before and after the institution of the policy, combined with a telephone survey of 20 other rotor-wing transport programs. RESULTS: After implementation of the policy, the total number of neonatal transports decreased (85 in 13 months vs 60 in 17 months) as did the number of two-way transports per month (4.6 vs 1.3). In addition, average mission time for all neonatal transports decreased. Fifteen of 20 transport programs in this Association of Air Medical Resources region perform neonatal transports. Only one of the 15 has a formal policy to determine the use of one-way versus two-way neonatal transports. CONCLUSION: The neonatal team transport policy has increased the effective utilization of air medical resources in this program. This policy could have wider application for other programs as well.

The effectiveness of bystander CPR in an animal model.

Several clinical studies have yielded conflicting results in examining the effectiveness of bystander CPR (BCPR). The purpose of this pilot study was to determine the effectiveness of BCPR in an animal model of cardiac arrest and resuscitation. Ten swine were instrumented for hemodynamic and regional blood flow measurements with tracer microspheres. After two minutes of ventricular fibrillation (VF), the animals received eight minutes of either BCPR (five) or no-bystander CPR (NBCPR; five). Defibrillation was then attempted in both groups. If unsuccessful, CPR was begun and epinephrine 0.02 mg/kg was administered. Defibrillation was attempted again three and one-half minutes after epinephrine administration. Regional myocardial and cerebral blood flows were measured 30 seconds and five and one-half minutes after initiation of BCPR and one minute after epinephrine administration. In the BCPR group, myocardial blood flow was initially 29.0 +/- 33.2 and decreased to 15.0 +/- 21.5 mL/min/100 g during the last two and one-half minutes of BCPR. Cortical cerebral blood flow was initially 2.0 +/- 2.8 and fell to 0.6 +/- 0.8 mL/min/100 g during the last two and one-half minutes of BCPR. There were no statistical differences in myocardial blood flow and cerebral blood flow between the initial or late stages of BCPR (P greater than .14). There were no statistical differences in myocardial blood flow and cerebral blood flow between BCPR and NBCPR groups after epinephrine administration (P greater than .09).(ABSTRACT TRUNCATED AT 250 WORDS)

The median frequency of the ECG during ventricular fibrillation: its use in an algorithm for estimating the duration of cardiac arrest.

Recent studies have suggested that the initial therapeutic intervention for ventricular fibrillation (VF) may depend on downtime (DT), i.e., the time duration of VF. We characterized the dynamics of the frequency distribution in the power spectrum of the ECG recorded from eleven swine during VF to determine if enough information existed in this domain to estimate DT. We used the median frequency (FM) of the power spectrum to track the frequency distribution. The FM followed a dynamic repeatable course during the first 10 min of VF. Intersubject variability was small. We modeled the FM data of the eleven subjects with a set of first-order polynomial equations and tested the algorithm with data from an additional ten subjects. The algorithm predicted VF duration with an average error of -0.86 min; 71.5% of the predictions fell within the 95% confidence limits of the model. This paper has identified a signal processing tool which may be useful in the prehospital treatment of VF.

Effect of high dose norepinephrine versus epinephrine on cerebral and myocardial blood flow during CPR.

Several animal studies have demonstrated an improvement in cerebral blood flow (CBF) and myocardial blood flow (MBF) after the administration of epinephrine (E) 0.20 mg/kg during closed chest CPR. The administration of norepinephrine (NE) in doses of 0.12 and 0.16 mg/kg demonstrated a trend toward improved CBF and MBF during CPR over that seen with E 0.20 mg/kg in the same animal model. The purpose of this study was to compare the effects of a higher dose of NE 0.20 mg/kg to E 0.20 mg/kg to determine if increasing doses of NE would demonstrate further improvement in CBF and MBF during CPR. Fourteen immature swine were anesthetized and instrumented for regional blood flow and hemodynamic measurements. After 10 min of ventricular fibrillation (VF), CPR was begun using a mechanical thumper. After 3 min of CPR, the animals received either E 0.20 mg/kg (n = 7) or NE 0.20 mg/kg (n = 7) through a right atrial catheter. CPR was continued for an additional 3.5 min and defibrillation was then attempted. CBF (ml/min/100 g), MBF (ml/min/100 g), myocardial oxygen delivery (MDo2; ml O2/min/100 g), myocardial oxygen consumption (MVo2; ml O2/min/100 g), and myocardial oxygen extraction ratios (ER, MVo2/MDo2) were measured during normal sinus rhythm (NSR), during CPR, and during CPR following drug administration. Following drug administration, CBF, MBF, MDo2 and MVo2 rose while ER fell in both E and NE groups. There were no significant differences between groups in CBF, ER, or intravascular pressures following drug administration (P greater than or equal to 0.07). The NE group demonstrated significantly higher MBF (118.9 +/- 73.1 vs. 62.2 +/- 45.3, P = 0.04), MVo2 (14.2 +/- 7.7 vs. 7.0 +/- 3.8, P = 0.05), and MDo2 (19.9 +/- 13.4 versus 9.4 +/- 6.3, P = 0.05) compared to the E group following drug administration While NE improved MBF and MDo2 over E during CPR, there was a trend toward lower resuscitation rates with NE (57.1% vs. 85.7% P = 0.56). Any benefit of higher MBF and MDo2 with NE 0.20 mg/kg appears to be offset by proportionately high MVo2 and a trend toward lower resuscitation rates in the NE 0.20 mg/kg animals.

Four case studies: high-dose epinephrine in cardiac arrest.

Animal and human studies have suggested that higher doses of epinephrine than currently recommended may improve resuscitation rates after prolonged cardiac arrest. Because of our failure to resuscitate four patients with the standard American Heart Association protocol for cardiac arrest, we used a larger dose of epinephrine in an attempt to enhance resuscitative efforts. All patients required CPR and had nonperfusing rhythms for at least 20 minutes. The four patients received from 0.12 to 0.22 mg/kg epinephrine. Within five minutes of high-dose epinephrine, all four patients developed perfusing rhythms with maximum systolic blood pressures ranging from 134 to 220 mm Hg. Cardiac dysrhythmias did not occur after these doses of epinephrine. Only one of four patients had ECG evidence of an acute myocardial infarction. In this patient, the history suggested that the myocardial infarction was a primary event, not the consequence of epinephrine. All four patients sustained severe brain injury leading to their demise. This injury was probably due to prolonged cardiopulmonary arrest and global brain ischemia. Pharmacologic and potential pathophysiologic mechanisms of high-dose epinephrine are reviewed.

Adrenergic agonists during cardiopulmonary resuscitation.

A number of studies have suggested that following a prolonged cardiopulmonary arrest, large doses of alpha-adrenergic agonists that possess post-synaptic alpha-2 agonist properties, i.e. epinephrine and norepinephrine, may be required to enhance myocardial and cerebral hemodynamics. While initial human studies using large doses of epinephrine have shown improved hemodynamics over standard therapy, hospital discharge rates and neurological outcome have been discouraging. This probably reflects the fact that the administration of epinephrine was employed late in the resuscitation effort. Future studies using larger doses of epinephrine as the initial pharmacologic intervention during cardiopulmonary resuscitation (CPR) will help to determine whether there is any therapeutic benefit. In addition, a number of questions still remain unanswered in delineating the specific alpha and beta adrenergic agonist components which will maximally enhance hemodynamics and resuscitation rates during CPR. This will help determine whether norepinephrine or a yet unsynthesized adrenergic agonist may be more beneficial for use during cardiac arrest.

The porphyrias.

The importance of recognizing these rare metabolic disorders in the Emergency Department patient is discussed. The pathophysiologic mechanisms behind the neurologic and cutaneous manifestations of these disorders is reviewed; presentation and management of the acute hepatic porphyrias are described; and features of the erythropoietic porphyrias and porphyria cutanea tarda are presented.

Effect of direct mechanical ventricular assistance on myocardial hemodynamics during ventricular fibrillation.

Direct mechanical ventricular assistance (DMVA) is a method of biventricular circulatory support that employs a pneumatic device to apply both systolic and diastolic forces directly to the ventricular myocardium. This study investigated the effects of DMVA on myocardial hemodynamics when applied after a prolonged cardiopulmonary arrest. Seven swine weighting 28.3 +/- 2.5 kg were instrumented for regional myocardial blood flow (MBF) measurements using tracer microspheres. Ventricular fibrillation was then induced. After 10 min of ventricular fibrillation, CPR was initiated for 3 min. DMVA was then applied through median sternotomy. Defibrillation was attempted after 3.5 min of DMVA. If unsuccessful, DMVA was instituted for another 17.5 min and a subsequent defibrillation attempt was made. Arterial oxygen content (CaO2), coronary sinus oxygen content (CcSO2), myocardial oxygen delivery/consumption (mDO2/mVO2), extraction ratio (ER), and endocardial/epicardial blood flow ratio (EN/EP) were determined during CPR, during the initial application of DMVA (DMVA1), and after the subsequent 17.5 min of DMVA in those animals not initially defibrillated (DMVA2). Three of the seven animals were successfully defibrillated during DMVA1. After the additional 17.5 min of DMVA, only one other animal was defibrillated. There was a significant improvement in CaO2, CcSO2, MBF, mDO2, mVO2, ER, and EN/EP after DMVA1 compared to CPR. Only mVO2 and ER improved significantly after DMVA2. These findings support the concept that physical diastolic augmentation may improve myocardial hemodynamics when DMVA is applied during cardiac arrest.

Estimating the duration of ventricular fibrillation.

As the duration of time between the onset of ventricular fibrillation and the application of defibrillation (downtime) increases, the rate of successful resuscitation decreases. Results of recent animal studies suggest that the rate of successful resuscitation may be increased after a prolonged cardiorespiratory arrest when pharmacologic therapy is instituted before defibrillation. An accurate estimation of downtime could be critical in selecting the most appropriate therapeutic intervention. The purpose of our study was to determine whether changes in the frequency or amplitude of the ventricular fibrillation ECG signal during cardiac arrest could be used to estimate downtime. We characterized the dynamics of both total power and frequency distribution of the power in the ECG during ventricular fibrillation in 11 swine to determine whether enough information existed in either parameter to estimate downtime. The median frequency of the power spectrum was used to track power distribution. Both parameters followed a dynamic, repeatable pattern. However, median frequency showed less intersubject variability than did total power. A mathematical model of median frequency was developed and used with data obtained from ten additional swine to estimate downtime. The model estimated downtime to within 1.3 minutes of actual downtime between one and ten minutes of ventricular fibrillation. Our study has identified a new, potentially useful parameter for studying various management strategies in ventricular fibrillation as a function of downtime.

The effect of UK14,304-18 (an alpha-2 adrenergic agonist) on myocardial blood flow during cardiopulmonary resuscitation.

Several recent studies have suggested that adrenergic drugs with peripheral postsynaptic alpha-2 agonist properties increase aortic diastolic pressure (ADP), and thus in the setting of CPR, may improve myocardial blood flow (MBF). This preliminary study investigated the effect of UK14,304-18, a postsynaptic alpha-2 adrenergic agonist on ADP, MBF, myocardial oxygen delivery/utilization (MDO2/MVO2), endocardial/epicardial blood flow ratio (EN/EP), coronary sinus oxygen content (CcsO2) and extraction ratio (ER) during CPR. Five swine were instrumented for MBF measurements using tracer microspheres. Catheters were also placed to measure arterial oxygen content (CaO2) and CcsO2. ADP, MBF, MDO2/MVO2, EN/EP, ER, CaO2 and CcsO2 were measured during normal sinus rhythm (NSR), and during CPR following a 10-min cardiorespiratory arrest. Following this, each animal received 2.0 mg/kg of UK14,304-18 through a right atrial line. ADP, MBF, MDO2/MVO2, EN/EP, ER, CaO2 and CcsO2 were again determined. Defibrillation was then attempted. To determine whether UK14,304-18 improved ADP, MBF and MDO2 over MVO2, compared to CPR alone, results were compared using a paired Student t-test. Statistical significance was considered at the P less than or equal to 0.05 level. No significant improvement in ADP, MBF, MDO2 or ER was noted following the administration of UK14,304-18. The lack of improvement in ADP and MBF may be secondary to a centrally acting postsynaptic alpha-2 agonist effect because of disruption of the blood brain barrier following a prolonged cardiac arrest or because of pharmacologically or structurally distinct populations of peripheral postsynaptic alpha-2 adrenoreceptors that develop in this setting.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of standard doses of epinephrine on myocardial oxygen delivery and utilization during cardiopulmonary resuscitation.

This preliminary study was conducted to evaluate the effects of 0.02 mg/kg of epinephrine (E) on myocardial blood flow (MBF), myocardial oxygen consumption (MVO2), and delivery (MDO2) when administered during CPR after 10-min cardiopulmonary arrest. Five miniature swine were instrumented for MBF measurements using tracer microspheres. Ventricular fibrillation was induced. After 10 min, CPR was begun with a pneumatic compressor. Measurements of MBF, arterial, and coronary sinus blood gases were made. After 3 min of CPR, each animal received 0.02 mg/kg of E. The measurements were repeated and defibrillation was attempted. During CPR, MDO2 and MVO2 were 0.2 +/- 0.3 and 0.2 +/- 0.3 ml/min/100 g tissue, respectively. The myocardial oxygen extraction ratio (ER) was 94.2 +/- 3.0%. After 0.02 mg/kg of E, MDO2 was 1.1 +/- 1.4, MVO2 was 1.0 +/- 1.3, and ER was 93.9 +/- 0.7% (p greater than .05). There were no successful defibrillations. These data indicate that MDO2 improves slightly during CPR after 0.02 mg/kg of E, but it does not meet the oxygen demands of the fibrillating heart.

A model for regional blood flow measurements during cardiopulmonary resuscitation in a swine model.

Recent reports examining regional blood flow during cardiopulmonary resuscitation (CPR) have been criticized for several reasons: (1) cardiac arrest times of 5 min or less are not reflective of the prehospital setting, (2) anesthetic agents may significantly influence autonomic control of regional blood flow, (3) canine cardiac anatomy and coronary blood supply are not reflective of humans and (4) precise validation data for blood flow measurements have not been reported. This study presents a methodology and model for measuring regional blood flow during CPR after a prolonged cardiac arrest. Fifteen swine weighing 15-25.4 kg were instrumented for regional blood flow measurements using tracer microspheres. Regional cerebral and myocardial blood flow were measured during normal sinus rhythm (NSR) and during CPR following a 10-min cardiopulmonary arrest. Regional blood flow (ml/min/100 g) to the cerebral cortices averaged less than 3% of baseline flow (NSR: right cortex = 41.2 +/- 13.8; left cortex = 41.2 +/- 12.2; CPR: right cortex = 1.3 +/- 1.2; left cortex = 1.3 +/- 1.3). Total myocardial blood flow averaged less than 5% of baseline flow (NSR = 211.5 +/- 104.9; CPR = 9.5 +/- 14.9). The flow data demonstrates minimal cardiac and cerebral perfusion with standard CPR following a 10-min arrest. The variability in the pilot data may be used in determining sample sizes for future studies.

Myocardial oxygen delivery/consumption during cardiopulmonary resuscitation: a comparison of epinephrine and phenylephrine.

Our study compared the effect of high-dose epinephrine with the pure alpha-agonist phenylephrine on regional myocardial blood flow (MBF), myocardial oxygen delivery (MDO2), myocardial oxygen consumption (MVO2), and defibrillation rates during CPR. Fifteen swine weighing more than 15 kg were instrumented for measurement of regional MBF using radiolabeled tracer microspheres. Measurements of regional MBF, MDO2, and MVO2 were made during normal sinus rhythm. Ventricular fibrillation was induced and persisted for ten minutes. CPR was begun using a pneumatic compression device. Regional MBF, MDO2, and MVO2 were measured during CPR. Following three minutes of CPR, animals (N = 15) were allocated to one of three groups (n = 5): Group 1, epinephrine 0.2 mg/kg; Group 2, phenylephrine 0.1 mg/kg; or Group 3, phenylephrine 1.0 mg/kg. Measurements of regional MBF, MDO2, and MVO2 were repeated after drug administration. Extraction ratios, defined as MVO2/MDO2, were calculated during normal sinus rhythm, CPR, and after drug administration. Defibrillation was attempted 3 1/2 minutes after drug administration. There was no significant difference in MBF, MDO2, MVO2, and extraction ratio during normal sinus rhythm and CPR for any of the groups. Total MBF following drug administration was 67.2 +/- 49.4 mL/min/100 g for the group receiving epinephrine 0.2 mg/kg; 7.0 +/- 7.1 mL/min/100 g for the group receiving phenylephrine 0.1 mg/kg; and 36.7 +/- 21.1 mL/min/100 g for the group receiving phenylephrine 1.0 mg/kg.(ABSTRACT TRUNCATED AT 250 WORDS)

Basic trauma life support.

The impact of traumatic injuries on modern society in terms of morbidity, mortality, and economic cost is enormous. Studies have shown that both advanced life support skills and rapid stabilization and transport of the trauma victim have a beneficial effect on the patient's ultimate outcome. The Basic Trauma Life Support (BTLS) course was designed to provide pre-hospital care providers with the skills necessary to provide a thorough assessment, initial resuscitation, and rapid transportation of the trauma victim. Early studies suggest that the material is easily learned by prehospital care providers and that the on-scene time for trauma cases is reduced following training in BTLS. More widespread training in BTLS may have a significant effect on the mortality and morbidity associated with traumatic injuries.

The effect of epinephrine versus methoxamine on regional myocardial blood flow and defibrillation rates following a prolonged cardiorespiratory arrest in a swine model.

Recent studies in swine have shown that larger doses of epinephrine than those currently employed for cardiopulmonary resuscitation (CPR) significantly improve regional myocardial blood flow following prolonged cardiac arrest. The dose-response effect of a pure alpha-adrenergic agonist, methoxamine, on regional myocardial blood flow has not been investigated in this setting. This study compared the effect of high-dose epinephrine with graded doses of methoxamine on regional myocardial blood flow, oxygen delivery/utilization, and defibrillation rates during CPR. Twenty swine were instrumented for regional myocardial blood flow measurements using radiolabeled tracer microspheres. Measurements of regional myocardial blood flow, oxygen delivery, and oxygen consumption were made during normal sinus rhythm. Ventricular fibrillation was then induced. Following 10 minutes of ventricular fibrillation, CPR was initiated with a pneumatic compressor. Regional myocardial blood flow, oxygen delivery, and oxygen consumption were then measured during CPR. Following 3 minutes of CPR, the swine were allocated to one of four treatment groups (five per group): group I, epinephrine 0.2 mg/kg; group II, methoxamine 0.1 mg/kg; group III, methoxamine 1.0 mg/kg; and group IV, methoxamine 10.0 mg/kg. One minute after drug administration, regional myocardial blood flow, oxygen delivery, and oxygen consumption measurements again were made. Three and one half minutes after drug administration, defibrillation was attempted. Regional myocardial blood flow following drug administration was compared using an analysis of covariance. Epinephrine (0.2 mg/kg) significantly improved myocardial blood flow (P less than .002) for all tissues examined compared with all doses of methoxamine.(ABSTRACT TRUNCATED AT 250 WORDS)