Orange, Calif. – December 16, 2013 – Researchers at Children's Hospital of Orange County (CHOC Children's), one of the nation's 50 best children's hospitals, have identified a new technique that will significantly decrease pain for children following high-risk urology surgeries. Findings of the pain management technique were published in the December 2013 online issue of the Journal of Pediatric Urology.
"While pain management is a fundamental part of pediatric surgical recovery and care for pediatric patients, current options involve strong prescription painkillers that can put patients at risk for adverse side effects and possible complications," said study investigator Antoine "Tony" E. Khoury, M.D., chief of pediatric urology at CHOC Children's. "This study demonstrates a major advancement in pain management for pediatric urology patients, significantly reducing postoperative pain and the need for pain medicine."
The research team evaluated continuous infusion of local anesthesia using the ON-Q pain relief system to improve pain control in children undergoing urological procedures. While the ON-Q system is well-established as an effective pain management technique for adults, this is the first study that evaluates its pain management effectiveness in children.
Study results found that the ON-Q pump system decreased the amount of pain experienced by children on the first and second postoperative days, and that it significantly reduced the need for narcotics. During the study, nurses assessed patients' pain using the Visual Analog Scale (VAS) and the Face, Legs, Activity, Cry, Consolability Scale (FLACC), depending on the child's age, for both the test group and a control group, which received standard-of-care pain management.
The pump delivers the anesthetic in an automatic continuous drip, so patients and their caregivers don't have to worry about adjusting the dosage. It is also contained in a pouch, so kids are able to move freely as they recover. Researchers recommend conducting additional clinical studies to further validate this technique as a superior option for postoperative pain management in children undergoing surgery.
In addition to Dr. Khoury, authors for the research study, "Application of continuous incisional infusion of local anesthetic after major pediatric urological surgery," include Guy Hidas, Hak J. Lee, Blake Watts, Maryellen Pribish, Edwin T. Tan, and Zeev N. Kain —all are affiliated with the departments of urology at both CHOC Children's and the University of California, Irvine.
About CHOC Children's
Named one of the best children's hospitals by U.S. News & World Report (2013-2014) and 2013 Leapfrog Top Hospital, CHOC Children's is exclusively committed to the health and well-being of children through clinical expertise, advocacy, outreach and research that brings advanced treatment to pediatric patients. Affiliated with the University of California, Irvine, CHOC's regional healthcare network includes two state-of-the-art hospitals in Orange and Mission Viejo, several primary and specialty care clinics, a pediatric residency program, and four centers of excellence - The CHOC Children's Heart, Neuroscience, Orthopaedic and Hyundai Cancer Institutes.
CHOC earned the Gold Level CAPE Award from the California Council of Excellence, the only children's hospital in California to ever earn this distinction, and was awarded Magnet designation, the highest honor bestowed to hospitals for nursing excellence. Recognized for extraordinary commitment to high-quality critical care standards, CHOC's Pediatric Intensive Care Unit (PICU) is the first in the United States to earn the Pediatric Beacon Award for Critical Care Excellence.
Hidas G., et al., Application of continuous incisional infusion of local anesthetic after major pediatric urological surgery, Journal of Pediatric Urology (2013), http://www.jpurol.com/article/PIIS1477513113000144/abstract#.Uqd1LcyBAWI
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.