UCSD Employs InnerCool Technique to Save Cardiac Arrest Patients
April 10, 2007 — University of California San Diego Medical Center cardiology and neurology specialists are using a novel method to save the lives of patients in cardiac arrest.
Using an innovative technology that rapidly cools the blood, the body temperature of the cardiac arrest patient is lowered, protecting the brain from damage that can result immediately after a heart attack.
Adopted at UCSD Medical Center in October 2006, the technique has been used to save multiple lives and is being implemented at hospitals worldwide.
Alabama resident Lee Murray, a 51-year-old father of two, is one of the first patients at UCSD Medical Center to benefit from the cooling method. On a visit to San Diego in March 2007, he competed in a 5K run then collapsed into a state of unconsciousness. Nearby personnel at the San Diego Convention Center performed CPR before Murray was transported via ambulance to UCSD's emergency room in Hillcrest.
"I am extremely lucky. As an avid runner, weight trainer and tennis player, I had no idea I had a time bomb in my chest," said Murray, Director of Lawson Systems, Applications and Support, at University of Alabama Health Services Foundation. "I believe my treatment occurred at the only time and place that I could have had a positive outcome. CPR and UCSD's medical teams saved my life."
The 24 hours following cardiac arrest represent a vulnerable period in which the body releases damaging enzymes. By cooling the body, the risk of brain damage is reduced. In February 2002, The New England Journal of Medicine reported that therapeutic mild hypothermia increased the rate of a favorable neurological outcome and reduced mortality in patients who have been successfully resuscitated after cardiac arrest caused by ventricular fibrillation.
On the day of Murray's cardiac arrest, following guidelines issued by the American Heart Association, UCSD Medical Center's cardiac team reduced his body temperature using a special catheter equipped with a temperature control element on its tip. The catheter is inserted into a large vein in the leg, and up to the inferior vena cava, the major vein carrying blood back to the heart. Once inside the body, the blood was cooled as it flowed by the element. This type of cooling therapy provides a safe and rapid way to lower the patient's body temperature without removing blood or infusing liquids.
During Murray's hospitalization, two stents were inserted into his heart to restore the normal flow of blood and oxygen, a common procedure for heart attack patients.
UCSD Medical Center was the first hospital in San Diego to offer this technology, which basically changes blood temperature by circulating either cold or warm saline solution through the catheter. The cooling technology was developed by John Dobak, M.D., a graduate of the UCSD School of Medicine, and founder of InnerCool Therapies, now a subsidiary of Cardium Therapeutics.