“This novel technique can help young patients to delay, or even possibly avoid altogether, the need for a total hip replacement,” said David L. Helfet, M.D., director of the Orthopedic Trauma Service at Hospital for Special Surgery. Hip replacements typically last 20 to 25 years, so a younger person who undergoes a hip replacement is likely to need multiple hip replacement surgeries/revisions in the span of his or her lifetime. Only one similar case report was found in the literature at the time of preparation of the present manuscript. This case was also a success, and doctors say the studies provide encouragement to clinicians that this type of surgery can be of benefit to other patients with similar injuries.
In certain high-energy accidents such as motor vehicle accidents or when a person falls off a ladder, fractures of the so-called femoral head can occur. The hip consists of a ball and socket joint and a femoral head fracture is an injury to the ball portion of the joint. In high-energy accidents, the femur can be forced to dislocate beyond the socket often causing a femoral head fracture, sometimes with an associated fracture to the hip socket. In the past, femoral head fractures with a bone and cartilage defect were treated primarily with a total hip replacement; which as stated is less than ideal in a young patient who would likely need multiple revision surgeries in their lifetime.
The case reported by researchers at Hospital for Special Surgery involved an injury to an 18-year-old man who was a belted driver involved in a motor vehicle collision, striking a pole. After being admitted and observed at the initial hospital, he was assessed as having a small fracture of the femoral head and was released on crutches. Twenty days following the injury, he presented at Hospital for Special Surgery. Computed tomography (CT) and magnetic resonance imaging (MRI) examinations were performed, which further delineated the large displaced section of the femoral head and a small associated fracture to the periphery of the hip socket (acetabulum).
Surgery was then performed, by orthopedic surgeons Dr. Helfet and Dr. Robert L. Buly, using a new technique that involves surgical dislocation of the femur in order to access and repair the fracture. Because one-third of the femoral head was missing due to the severe damage associated with the injury, doctors chose to transplant a special piece of frozen bone/cartilage. Hospitals, especially those with larger orthopedic surgery departments, have bone bank facilities that store bone and cartilage tissue based on surgical indications. Once thawed, the cartilage and bone were shaped to fit into the defect. The transplant was then anchored into place with two small headless screws.
“This is one of the first such case reports describing this procedure in the orthopaedic literature,” said Dr. Helfet. “The patient has had an early good functional recovery following such a severe injury to his hip joint.”
Post-operatively, the patient was on crutches, only 20 lbs weight bearing for two months, but he was told to avoid rigorous activities requiring further exertion. Subsequently, the patient was allowed to slowly progress to weight bearing as tolerated and work on obtaining full range of motion and strength of the hip. The patient returned for regular follow-up visits and x-rays of the hip revealed that the graft had properly incorporated. At 46 months following surgery, the patient is fully rehabilitated, was able to successfully complete his education, and has been able to return to the active life he enjoyed before the injury. Further studies with long-term results are needed, but the early results are promising.
“The surgery was a success. His is currently working as a mechanic for a country club. He was able to return to complete his education and perform a physically demanding job.” said Dr. Helfet. “The advantage of this surgery is the ability to delay or even avoid altogether a total hip replacement. Even more importantly, the longer a hip replacement can be delayed in a younger patient, the better, because there is less chance of one or multiple subsequent revision surgeries.”
Other authors involved in the case report are Markku T. Nousiainen, M.D,, from Sunnybrook Health Sciences Centre, University of Toronto; Milan K. Sen, M.D., from the University of Texas Medical Center at Houston; and Douglas N. Mintz, M.D., Dean G. Lorich, M.D., Omesh Paul, M.D., and Robert L. Buly, M.D., from Hospital for Special Surgery.
About Hospital for Special Surgery
Founded in 1863, Hospital for Special Surgery (HSS) is a world leader in orthopedics, rheumatology and rehabilitation. HSS is nationally ranked No. 2 in orthopedics, No. 3 in rheumatology and No. 24 in neurology by U.S.News & World Report (2009), and has received Magnet Recognition for Excellence in Nursing Service from the American Nurses Credentialing Center, and has one of the lowest infection rates in the country. In 2008 and 2007, HSS was a recipient of the HealthGrades Joint Replacement Excellence Award. A member of the NewYork-Presbyterian Healthcare System and an affiliate of Weill Cornell Medical College, HSS provides orthopedic and rheumatologic patient care at NewYork-Presbyterian Hospital at New York Weill Cornell Medical Center. All Hospital for Special Surgery medical staff are on the faculty of Weill Cornell Medical College. The hospital’s research division is internationally recognized as a leader in the investigation of musculoskeletal and autoimmune diseases. Hospital for Special Surgery is located in New York City and online at www.hss.edu.