Hip Injuries and Arthritis

Advanced stem cell therapy and blood platelet treatments for common degenerative hip conditions and injuries

The human body is made of billions of specialized cells that form specific organs like the brain, skin, muscles, tendons, ligaments, joints, and bone. Each day these cells go through a degenerative and regenerative process. As older cells die, new cells are born from stem cells with the unique capability of being able to create multiple types of other cells. However, when tissues are injured, the degenerative process exceeds this regenerative process, resulting in structures that become weaker, painful and less functional. While there are several types of stem cells, those that are best at promoting musculoskeletal healing (tendon, ligament, cartilage and bone) are found in bone marrow. These mesenchymal stem cells, or MSCs, are essential to successful patient outcomes and Dr. Musman we utilize the patented Regenexx® Stem Cell Protocol, which is capable of yielding much higher concentrations of these important cells.

+ Hip Injury and Conditions

  • Osteonecrosis
  • Bursitis
  • Arthritis
  • Tendinopathy
  • Labral / labrum tear

+ Regenexx Hip Patient Outcome Data

Hip Patient Outcome Data

Stem Cell Procedure Safety

+ Regenexx Difference

Regenexx Difference

Patient Benefits of Stem Cell Therapy for Hip Conditions

These non-surgical stem cell injection procedures happen within a single day and may offer a viable alternative for those who are facing surgery or hip replacement. Our patients quickly return to normal activity following their procedure and are able to avoid the painful and lengthy rehabilitation periods that are required following hip surgery to help restore strength, mobility and range-of-motion. Our patients are far less vulnerable to the serious risks associated with traumatic hip surgeries, such as infection and blood clots.

Stem Cell injection procedure utilizes stem cells from your own body’s reserves to help heal the injured area

Fluoroscopy allows doctors to precisely place the stem cells into injured areas

Modern techniques in today’s medicine allows us to withdraw stem cells from bone marrow, concentrate them through a lab process and then re-inject them precisely into the injured tissues in other areas of the body using advanced imaging guidance. Through Fluoroscopy and MSK Ultrasound, we’re able to ensure the cells are being introduced into the exact area of need. When the stem cells are re-injected, they enhance the natural repair process of degenerated and injured tendons, ligaments, and arthritic joints – Turning the tables on the natural breakdown process that occurs from aging, overuse and injury.

How Are The Stem Cells Obtained?

The human body keeps a supply of stem cells available to help repair injured and degenerated tissues at all times, making it fairly simple to retrieve them for therapeutic purposes.

As stem cells remain in reserve, in the marrow cavity of your bones, we have found the easiest place to harvest these stem cells is from the back of the hip area (iliac bone).

Procedure is done in the office, under ultrasound or x-ray precision and guidance.


Patients lay face down as the doctor thoroughly cleans the area before numbing the skin and bone.

A special needle is inserted into the bone to withdraw marrow blood, which contains the stem cells.

NOTE: This procedure is not like a bone marrow biopsy nor is it at painful as one. This harvesting procedure is well tolerated by patients and not considered difficult as many patients claim it is not painful.

After bone marrow blood is drawn, it is taken to our onsite Regenexx laboratory and centrifuged to concentrate and purify the stem cells while other cells that are not needed are removed, leaving a concentrated sample of stem cells used to help heal your injury.

The entire process is done by hand to enable customized designing of the stem cell specimen for your particular injury.

A preparation of your concentrated platelets are also gathered at this time for injection into the injury site to release growth factors that “turn on” the stem cells that will later be injected.

These platelets are injected again 3-5 days later to keep the stem cells activated and promote additional healing.