Vigorous CPR Is Best for Cardiac Arrest
Study Shows Survival Rates Rise When More Chest Compressions Are Done
Sept. 16, 2009 -- Vigorous cardiopulmonary resuscitation (CPR) with more
chest compressions on people with sudden cardiac arrest can improve the
survival rate, a new study shows.
"Chest compressions move blood with oxygen to the heart and the brain to
save the brain and prepare the heart to start up its own rhythm when a shock is
delivered with a defibrillator," says study researcher Jim Christenson, MD, of
the University of British Columbia. "We found that even short pauses in chest
compressions were quite detrimental."
Sudden cardiac arrest kills about 325,000 Americans a year, or 800 per day,
and can occur without warning, as in the case of NBC newsman Tim Russert, who
died in June 2008.
In sudden cardiac arrest, the heart suddenly stops pumping blood effectively
to the brain and body, causing a person to collapse. The most common reason for
sudden cardiac arrest is a very chaotic heart rhythm (ventricular
fibrillation), which occurs as a result of a heart attack.
Rarely, ventricular fibrillation can occur without a heart attack but in the
presence of an underlying structural heart abnormality -- as is occasionally
the case when a young athlete collapses and dies out of the blue. When sudden
cardiac arrest occurs, death comes within a few minutes unless the victims'
heart muscles are successfully jolted back into a normal rhythm with an
CPR traditionally involves providing chest compressions to help circulate
blood around the body and breathing support, such as mouth-to-mouth
ventilation. Interruptions to chest compressions are common during CPR, with
rescuers typically spending only 50% of their time giving chest
CPR Survival Rates
In the new study, published in Circulation: Journal of the American Heart
Association, researchers analyzed data from 78 emergency medical services
agencies to determine the effect of chest compressions on patient outcome. They
specifically looked at something called the "chest compression fraction" (CCF),
which refers to the percentage of time spent performing chest compressions
relative to the entire time that CPR is performed.
In the 506 cases studied, a "return to spontaneous circulation" was achieved
58% of the time when the CCF was 0% to 20%, but rose to 79% when CCF was 81% to
100%. Return to spontaneous circulation means that the heart began to beat
effectively again on its own.
Survival to hospital discharge occurred in 12% of patients with a CCF
between 0% and 20%. Survival more than doubled to 29% when CCF
increased to 61% to 81%, the researchers say. Survival rates fell
slightly to 25% with CCF ratios greater than 81%.
"There was roughly a 10% increase in the chance of survival for every 10%
increase in the chest compression fraction,'' Christenson says.
According to the researchers, the slight drop in survival in people with the
highest CCFs was likely due to the small sample size of the study. However, the
possibility of a plateau effect in CCF exists.