Ceremed's Ostene Stops Bone Bleeding Without Added Risk of Surgical Infection, New Study Finds
LOS ANGELES, February 5, 2008 /PRNewswire/ -- New polymer material designed to stop bone bleeding in surgery reduces the risk of surgical infection, according to a new animal study to be published in the February 2008 issue of Clinical Orthopaedics and Related Research (CORR). The study has implications for lowering the risk of hospital-acquired infections, including MRSA.
Researchers from the Medical University of South Carolina at Charleston and Keck School of Medicine at the University of Southern California in Los Angeles compared newly available polymer, Ostene(R), with bone wax, traditionally used to stop bone bleeding in surgically cut bone surfaces. The scientists looked at the two materials' effect on bone infection in the presence of Staphylococcus Aureus, similar to the organism that is responsible for MRSA. The results showed that, when exposed to bacteria, the bones treated with Ostene(R) were four times less likely to get infected than the bones treated with bone wax, 100% of which developed infection. The study also showed that the bones treated with Ostene(R) healed normally, while the presence of bone wax inhibited bone growth.
Bone wax, a beeswax-based product, is the least expensive and most commonly used bone hemostasis material despite its well-documented side effects: Numerous studies indicate that bone wax interferes with the body's ability to clear bacteria and increases the risk of hospital-acquired infections; it is also known to inhibit bone growth and bone healing after surgery.
Ostene(R) offers an alternative that does not increase the risk to patient. Its use in place of bone wax may help reduce serious post-operative complications, including sternal wound infection and the separation of the sternum. The material is used in cardiac, orthopedic, oral, and neurosurgery. Other applications under development include the use of Ostene(R) as a safe, soluble delivery vehicle for a variety of therapeutic agents, from antibiotics to bone growth factors. Ostene(R) is authorized for sale both in the U.S. and the European market.
Ostene(R) is a sterile mixture of water-soluble alkylene oxide copolymers developed as an affordable, easy-to-handle synthetic bone hemostasis material that reduces the overall risk of post surgical infections, sternal non-union, poor bone healing and chronic inflammation. Wax-like and malleable during application, the biomaterial dissolves rapidly and is eliminated from the body shortly after surgery. The material's main polymer component inherently reduces bacterial adhesion. Ostene(R) is the only available product designed to stop bone bleeding in surgery that does not interfere with bone healing or add the risk of surgical infections, including MRSA.
The results of the USC/MUSC study suggest that the use of Ostene(R) may have implications for reducing the risk of surgical site infection and for improving post-operative healing and recovery. The benefits of Ostene(R) may be particularly significant in lowering the rates of serious complications following cardiac surgery, especially among a growing high-risk group of diabetic and overweight patients, who currently represent at least 25% of the 640,000 open heart surgery procedures performed each year in the US.
"Ostene(R)'s unique properties are particularly significant now that we are battling the threat of hospital-acquired infections, especially MRSA," Ceremed's president and CEO Tadeusz Wellisz, M.D., commented on the study. "Ceremed is currently developing the next generation of Ostene(R) with antibiotics, specifically designed to prevent hospital-acquired surgical infection."
About The Company:
Ceremed, Inc. is a privately held medical device corporation formed in 2002 by a surgeon and a group of scientists from the University of Southern California. The company has unique expertise and a portfolio of innovative proprietary technology in the field of soluble alkylene oxide copolymers. These polymers have multiple medical applications, including bone hemostasis and a delivery system for a variety of therapeutic agents.
For additional information about the product or the Company, please contact Danielle Nolan at 310-815-2125 or . email@example.com
For copies of the study please go to: http://www.springerlink.com/content/rk727126p2385460/fulltext.pdf Available Topic Expert(s): For information on the listed expert(s), click appropriate link. Tadeusz Wellisz http://profnet.prnewswire.com/Subscriber/ExpertProfile.aspx?ei=72918
CONTACT: Danielle Nolan of Ceremed, Inc., +1-310-815-2125, firstname.lastname@example.org
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Posted: February 2008