ORIGINAL CONTRIBUTION cardiopulmonary resuscitation; ventricular fibrillation

Bystander CPR in Prehospital Coarse Ventricular Fibrillation

Prehospital bystander cardiopulmonary resuscitation (CPR) was studied to determine if it affected the outcome of defibrillation. Four hundred twenty- one consecutive witnessed cardiopulmonary arrests presenting with the ini- tial rhythm of coarse ventricular fibrillation treated by the Milwaukee County Paramedic System from January 1980 to June 1982 were analyzed. Pediatric, trauma, and poisoning patients and those receiving intravenous or endotracheal medications before defibrillation (58) were excluded. Immedi- ate professional bystander CPR (physician, nurs e, EMT) and citizen by- stander CPR were compared to a control group receiving no bystander CPR until arrival of EMS personnel. A successful defibrillation occurred if de- fibrillation prior to administration of medication produced an effective car- diac rhythm with pulses. Eighty-eight of the 363 remaining patients (24%) converted with initial defibrillations. While the group receiving professional bystander CPR had a higher successful defibrillation rate than did the no- CPR group (35% vs 22%, P < .04), citizen bystander CPR and no-CPR groups had similar successful defibrillation rates (24% vs 22%, no signifi- cant difference). One hundred eighty-six of the 363 patients (51%) were transported to a hospital with a rhythm and a pulse (a successful resuscita- tion). Ninety-seven of the 363 patients (27%) were discharged alive from the hospital (a save). Patients who were converted successfully using initial "quick-look" defibrillations were far more likely to be successfully resusci- tated (79/88 [90%] vs 107/275 [39%], P > .0001) and to be ddischarged alive from the hospital (54/88 [61%] vs 43/275 [16%], P > .0001) than were those who required further advanced cardiac life support techniques. The overall bystander CPR group had the identical successful resuscitation rate (51%) and a similar save rate (26% vs 27%) as the no bystander CPR group. A patient is far more likely to have a successful resuscitation and be dis- charged alive from a hospital if he has a rhythm and a pulse after the initial defibrillations than when converted after further ACLS techniques. Al- though professional CPR was associated with a significantly improved suc- cessful defibrillation rate, there was no significant difference in successful defibrillation, resuscitation, or save rates when comparing citizen bystander CPR to no bystander CPR. Previously reported CPR save rates may be sys- tem-specific and more dependent on time of defibrillation response than previously reported. [Kowalski R, Thompson BM, Horwitz L, Stueven H, Ap- rahamian C, Darin JC: Bystander CPR in prehospital coarse ventricular fibrillation. Ann Emerg Med November 1984;13:1016-1020.]

Robert Kowalski, MD Bruce M Thompson, MD Louis Horwitz, MD Harlan Stueven, MD Charles Aprahamian, MD Joseph C Darin, MD Milwaukee, Wisconsin

From the Section of Trauma and Emergency Medicine, Medical College of Wisconsin, The Milwaukee County Medical Complex, Milwaukee, Wisconsin.

Received for publication June 13, 1983. Revision received January 23, 1984. Accepted for 15ublication May 8, 1984.

Presented at the University Association for Emergency Medicine Annual Meeting in Boston, June 1983.

Address for reprints: Joseph C Darin, MD, Section of Trauma and Emergency Medicine, Medical College of Wisconsin, 8700 West Wisconsin Avenue, Milwaukee, Wisconsin 53226.

INTRODUCTION External cardiopulmonary resuscitation (CPR) has long been advocated as

the means to keep the heart in the state from which it can be resuscitated.l,2 Recent laboratory studies suggest limitations to its effectiveness. 8-s The tra- ditional measure of effective CPR, "good pulses with CPR," has largely been replaced by physiologic measurements of cerebral and coronary blood flow. Ditchey et al 3 showed that external CPR on dogs produced only 1% of nor- real coronary artery blood flow. MacKenzie et al 6 suggest that external CPR may be less effective in supplying blood to the heart than any other organ. 4 Rudikoff et alS have shown no significant arteriovenous pressure gradient in the chest during CPR, thus questioning the forward movement of blood flow.

13:11 November 1984 Annals of Emergency Medicine 1016/47

BYSTANDER CPR Kowalski et al

Although laboratory evidence has been equivocal, early clinical studies examining CPR i n Seattle and other paramedic systems have shown the ef- fectiveness of CPR. z-ll These studies have looked at overall survival and have been widely interpreted to show that bystander CPR is the most signif- icant factor in patient survival. Most of the studies, however, include such other variables as speed of advanced cardiac life support (ACLS) response, ACLS techniques and use of coronary care units which may influence the results.

We have found no large series that evaluates external CPR alone in a clinical setting wi thout other vari- ables. We attempted to isolate the per- formance of CPR from other variables by evaluating outcome standards o n those pa t i en t s r e s u s c i t a t e d f r o m coarse ventricular fibrillation (VF) by CPR and countershock alone.

METHODS The Milwaukee County Paramedic

System is a multi-tiered advanced life support system based on the Seattle model. Basic emergency medical tech- nicians (EMTs) on fire rescue squads and fire engine companies respond pri- marily (first responders), followed by ACLS paramedic teams trained in rhythm recognition, pharmacology, in- tubation, intravenous and intracardiac techniques, and defibrillation. On-line medical control is performed by a sin- gle base station provided with a two- way voice radio and continuous ECG te lemetry . The pa ramedic base is staffed by a small group of ACLS-cer- tiffed physicians on the faculty of the Medical College of Wisconsin. The base phys ic ians fol low Amer i can Hear t Assoc i a t i on gu ide l ines for ACLS. Paramedics, however, may ad- minister up to four countershocks for VF prior to base physician contact or adminis t ra t ion of medicat ions. All paramedic run data are entered on standard forms and placed in a com- puter for future retrieval and analysis. In addition, all original records and rhythm strips are kept on file for ver- ification of data.

All patients with witnessed arrest presenting with an initial rhythm of coarse VF were retrieved by a comput- er printout and analyzed for the fol- lowing data: age, sex, cardiac h i s to~ cardiac drugs, antiarthythmic medica- tions, paramedic response time, cit- izen bystander CPR, professional by- stander CPR, rhythm and pulse after

TABLE 1. Successful prehospital defibrillation

Yes No

No. Patients 88 275

Age (y) 65 65

Response time (min) 6.0 6.0

Sex (M:F) 72:16 (4:1) 210:65 (3:1)

Cardiac history 48 (55%) 155 (56%)

Cardiac medications history 40 (45%) 112 (41%)

Antiarrhythmics history 13 (15%) 31 (11%)

Professional CPR 20 (23%)* 38 (14%)*

Citizen CPR 21 (24%) 65 (24%)

Bystander CPR (pro and citizen) 41 (47%) 103 (38%)

Successful resuscitations 79 (90%)t 107 (39%)l-

Saves 54 (61%)1- 43 (16%)1- *P < .05. tp < .0001. *P < .0001.

initial defibrillations, successful resus- citation, and save. Average response t ime for first responders and para- medics also was collected. Patients were defined as having no CPR if no bystander CPR was done prior to ar- rival of the first responding fire depart- ment unit. Patients were defined as professional CPR if their arrests were witnessed by, and CPR was initiated by, a physician, nurse or basic EMT. These professionals were at the scene at the t ime of arrest. Arrests wit- nessed by the paramedics were not in- cluded. None of these arrests occurred in hospital settings. Patients were de- fined as citizen CPR if their arrests were witnessed by, and CPR was initi- ated by, the nonprofessional public.

"Successful defibrillation" is defined as "a rhythm with a pulse" after one to four "quick-look" defibrillations given prior to medica t ions . "Suc- cessful resuscitation" is defined as the successful transportation of a patient to an emergency deportment with a rhythm and a pulse. A "save" is de- fined as discharge of the patient alive from the hospital. "Response time" is defined as the difference between the t ime of the telephone call following arrest to the arrival of the paramedic unit. Data were statistically analyzed by chi square or Student t test, as ap- plicable.

RESULTS From January 1980 to June 1982 the

Milwaukee County Paramedic System attempted resuscitations on 421 pa- tients in witnessed arrests with the initial rhy thm of coarse ventricular fibrillation. Fifty-eight patients were excluded because of trauma, pediatric age, or administration of intravenous or endotracheal medications prior to initial successful defibrillations. The study group totaled 363 patients, of whom 88 patients had a rhythm and a pulse after initial defibrillations. Two hundred seventy-five were not suc- cessfully defibrillated initially (Table 1). The groups were statistically sim- ilar in all parameters except presence of professional CPR, rate of successful resuscitations, and saves. Average re- sponse t ime for first responders was 2.1 minutes, and for paramedics it was six minutes.

Patients who were successfully con- verted using initial "quick-look" de- fibrillations were far more likely to be successfully resuscitated (79/88 [90%] vs 107/275 [39%], P > .0001) and to be discharged alive f rom the hospi ta l (54/88 [61%1 vs 43/275 [16%], P > .0001) than were those who required further ACLS techniques. The inci- dence of citizen bystander CPR for both groups was identical (24%).

Patients who received bystander (professional and citizen) CPR were compared separately to patients not receiving bystander CPR (Table 2). No statistically significant population dif- ferences were found between these

48/1017 Annals of Emergency Medicine 13:11 November 1984

TABLE 2. CPR groups

No. Patients Age (y)

Sex (M:F)

Response time (min)

Cardiac history

Cardiac medications history

Antiarrhythmics history

Successful defibrillations

Successful resuscitations

Saves *P < .04.

Bystander Professional Citizen (Pro and Citizen

58 86 144

65 65 65

44:14 (3:1) 65:21 (3:1) 109:35 (3:1)

5.2 5.9 5.6

30 (52%) 44 (51%) 74 (51%)

22 (38%) 33 (38%) 55 (38%)

5 (9%) 13 (15%) 18 (13%)

20 (35%)* 21 (24%) 41 (29%)

30 (52%) 44 (51°/0) 74 (51%) 18 (31%) 20 (23%) 38 (26%)

None

219

66 173:46 (4:1)

6.3 129 (59%)

97 (44%)

26 (12%)

47 (22%)*

112 (51%)

59 (27%)

TABLE 3. Paramedic response times (min)

~<4 > 4 ~<5 > 5 ~<6 > 6

No. patients 148 215 199

Age (y) 66 65 66

Sex (M:F) 117:31 (4:1) 165:50 (3:1) 160:39 (4:1)

Cardiac history 89 (60%) 114 (53%) 117 (59%)

Cardiac medications history 61 (41%) 91 (42%) 84 (42%)

Antiarrhythmics history 20 (14%) 24 (11%) 26 (13%)

Professional CPR 31 (21%)* 27 (13%)* 40 (20%)l-

Citizen CPR 30 (20%) 56 (25%) 48 (24%)

Bystander CPR (pro and citizen) 61 (41%) 83 (38%) 88 (44%)

Successful defibrillations 33 (22%) 55 (26%) 46 (23%)

Successful resuscitations 75 (51%) 111 (51%) 104 (52%)

Saves 42 (28%) 55 (26%) 57 (29%) *P < .04. l-p < .03.

164 232 131

65 65 65 122:42 (3:1) 183:49 (4:1) 99:32 (3:1)

86 (52%) 135 (58%) 68 (52%)

68 (42%) 99 (43%) 53 (41%)

18 (11%) 28 (12%) 16 (12%)

18 (11%)1- 44 (19%) 14 (11%)

38 (23%) 56 (24%) 30 (23%)

56 (34%) 100 (43%) 44 (34%)

42 (26%) 56 (24%) 32 (24%)

82 (50%) 118 (51%) 68 (52%)

40 (24%) 66 (28%) 31 (24%)

groups. Patients who were successful- ly defibrillated were statistically more likely to have received immediate pro- fessional CPR (23% vs 14%, P < .05). Of importance is the finding that suc- cessful resuscitation and ultimate dis- charge rates are similar for those pa- tients receiving immediate bystander CPR and those not receiving any by- stander CPR. When separated f rom the overall bystander group, patients receiving professional CPR had a s t a -

tistically significant improvement in rate of successful defibrillation when compared to the no bystander CPR group (35% vs 22%, P < .04).

While there was a trend in the suc- cessful resusci ta t ion and save rate, this difference was not s tat is t ical ly s igni f icant . Because of no t ed dif- ferences, the s tudy group was ana- lyzed by response times. The results show, as expected, that s tat is t ical ly more people received profess ional

CPR in the "less than or equal to four- minu te" and "less than or equal to five-minute" groups (Table 3).

DISCUSSION Several s t ud i e s of va r ious pre-

hospital systems with both single and two- t ie red responsesl~, t3 have sug- gested that, for patients in coarse ven- tricular fibrillation, the more rapidly the patient can be defibrillated, the greater the chance of conversion to a

13:11 November 1984 Annals of Emergency Medicine 1018/49

BYSTANDER CPR Kowalski et al

perfusing cardiac rhy thm. Recent American Heart Association guide- lines for A C L S recommend initial "quick-look" defibrillations with oxy- genation and basic life support tech- niques prior to use of other ACLS drug protocols.14

The more rapidly normal perfusion to the brain can be established, the better the neurologic outcome and ul- timate survival. In our study, of those patients who were successfully de- fibrillated with initial defibrillations, 90% were successfully resuscitated and admitted to a hospital. Two-thirds of the patients (61%) were discharged from the hospital. On the other hand those patients requiring further CPR and further ACLS techniques had sig- nificantly inferior outcomes. With the addition of potent cardiac drugs used in the advanced cardiac life support protocol, it may be unreasonable and simplistic to assume outcome related to a single variable, such as CPR. Other variables, especially "time to early defibrillation," should be ana- lyzed when comparing prehospital systems. The role of CPR as a compo- nent of prehospital systems may be exaggerated.

We did find a statistically signifi- cant difference in successful defibril- lations between patients receiving professiona ! bystander CPR when compared to patients who received no bystander CPR; however, patients re- ceiving professional bystander CPR also had shorter paramedic response times than did those patients receiv- ing no bystander CPR. This variable of time could account for the difference in defibrillation rate. Another variable that has been reported is may provide evidence that professional medical personnel may "do better CPR" than does the lay public. Other studies16,17 have shown that professionals may demonstrate less decrease in CPR skill levels over time. One could infer that experienced EMTs might remain more calm in an emergency and would be more able to provide a more uniform and structured approach to CPR performance than can a lay by- stander. We also believe that the short- ened response time found in the pro- fessional CPR group is directly related to knowledge of system access, which may have allowed shorter paramedic responses.

There were, however, no statis- tically significant differences between the professional bystander CPR and no bystander CPR groups in relation

50/1019

to rate of successful resuscitation or hospital discharge. We can demonstate no difference between the overall by- stander CPR group and the no by- stander CPR group. The two groups had an identical successful resuscita- tion rate (51%), and a similar save rate (26% vs 27%).

The predominant factor in the ulti- mate successful resuscitation and save rates .in any system may be the total amount of time from arrest to estab- l i shment of an effective rhythm. ACLS, and specifically early defibrilla- tion, may be much more important in a prehospital EMS system than pre- viously recognized. Basic cardiac life support is fraught with many prob- lems: an erratic airway, deteriorating acid-base status, and no chance of de- fibrillation or use of cardiac drugs. With ACLS there exists, in addition to the ability to defibrillate coarse ven- tricular fibrillation, the ability to con- trol the airway, augment oxygenation, and normalize acid-base status. Stud- ies is in which portable defibrillators were made more available to small communities indicate that rapid de- fibrillation improves patient outcome. Even in a rapid response paramedic system such as ours, the most signifi- cant factor relating to successful re- suscitation and hospital discharge is conversion response to initial de- fibrillations. While continued use of the ACLS protocol for coarse VF is beneficial, the overwhelming majority of successes occur with patients who are easily converted by initial de- fibrillation.

We think that study data comparing prehospital systems should be much more specific in relation to time of paramedic response, time of defibrilla- tion, and length of resuscitation in order to evaluate equitably the effec- tiveness of various resuscitation mo- dalities, including CPR.

CONCLUSIONS A patient is far more likely to have

a successful resuscitation and to be discharged alive from the hospital if he has a rhythm and a pulse after ini- tial defibrillations than when convert- ed after further ACLS techniques. Al- though professional CPR was associ- ated wi th s igni f icant ly improved successful defibrillation, resuscitation or save rates when comparing citizen bystander CPR to no bystander CPR were similar. Previously reported CPR save rates may be system-specific and not applicable to all EMS systems.

Annals of Emergency Medicine

Successful resuscitation and ultimate discharge outcome may be more de- pendent on time of defibrillation re- sponse than previously reported.

The authors thank Lauryl Pukansky and her staff for chart retrieval; Jerry Ander- son, PhD (Division of Biostatisties and Clinical Epidemiology, Medical College of Wisconsin) for his assistance in statistical analysis; and Debra Vitek for her tireless preparation of this manuscript.

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