Cementless Hip Replacement Surgery Henderson NV
Las Vegas, NV
Desert Orthopaedic Center
Medical School: Harvard Med Sch, Boston Ma 02115
Graduation Year: 1993
Las Vegas, NV
Bone & Joint Specialists
Orthopedics, Degenerative Spinal Conditions
Cervical, Thoracic, and Lumbar Fusion
Cervical, Thoracic, and Lumbar Diskectomy
Cervical, Thoracic, and Lumbar Decompression
Total Disk Replacement - Cervical & Lumbar
Endoscopic Spinal Fusion
Medicare Accepted: Yes
Workmens Comp Accepted: Yes
Accepts Uninsured Patients: Yes
Emergency Care: Yes
Primary Hospital: Valley Medical Center
Residency Training: Stanford University Hosptial & Clinics
Medical School: University Of Arizona College of Medicine, 1997
Member Organizations: North American Spine Society
American Academy of Orthopaedic Surgeons
American Medical Association
State Medical Society
State Orthopaedic Society
Awards: American Board of Orthopaedic Surgeons - Board Certified
Languages Spoken: English,Spanish,Chinese
Medical School: Univ Of Nv Sch Of Med, Reno Nv 89557
Graduation Year: 1983
Special Gel Speeds Up Recovery in Cementless Hip Replacements
There's one good way to find out if something new is working. Try it on a group of people and compare it to a second group who didn't get the same thing. That's what senior orthopedic surgeon W. Thomas, MD from Rome, Italy did. He used a special osteoconductive gel over the surface of cementless hip replacement implants in 60 patients and compared results with 60 patients who got the same implant without the gel.
Osteoinductive means fosters bone growth. And that's exactly what this gel does -- it contains proteins that act as growth factors to stimulate bone growth. This new gel is made up of bone chips, platelet-rich plasma (the growth factors), and bone marrow. Bone marrow contains stem cells that can form into any other cell, including new blood and bone cells needed to form new bone tissue.
Cementless implants are press-fitted into the bone. They are held in place by the porous (roughened) surface of the implant next to the bone. During the natural process of healing, the inflammatory process brings new blood cells to the surgical site and the stem cells form new bone cells to fill in and around the implant. Growth factors speed up the whole process.
With the osteoinductive gel, the hope is that the process will not only be faster, but also provide joint stability sooner. That could mean patients can get back to full function as soon as possible with fewer complications. And since the gel is made up of the patient's own body parts, it's safe from rejection or transfer of diseases from someone else. At this point, you may be wondering how do they harvest the patient's cells?
When the old, arthritic hip joint is taken out, the bone marrow from inside the upper shaft of the femur is collected. The top of the femur and the hip socket (also removed in preparation for the new implant) are ground up and used as bone stock. The bone is rich in bone cells that promote bone growth. The bone stock also contains morphogenic protein, another type of growth factor. Once the gel is all mixed up, it is smeared all over the implant socket and stem before inserting these into the patient's hip.
After surgery, everyone was treated the same. They all started muscle strengthening exercises right away and were up standing within 24 hours and walking within 48 hours. Crutches were used to assist the patient in the first few weeks to month. Patients were allowed to go from two crutches to using only one crutch at the end of the first four weeks. A single crutch was used for another couple weeks up to a month (depending on the patient's progress).
The results were very good. Although the operation took longer for patients receiving the gel, there was less blood loss and faster recovery by all measures. There were no major complications reported. Outcomes were measured and compared using special X-rays called dual energy x-ray absorptiometry (DEXA) to view the healing bone. You may have heard of DEXA scans used to measure bone dens...