Can Cellular Treatments Repair Muscle Tissue?

Can Cellular Treatments Repair Muscle Tissue?

Muscle strain and muscle tears are not limited to sports injuries, they can also occur on the job or at home. One wrong move, a fall, or any injury can lead to significant muscle damage in the back, legs, or arms. 

A strain or pulled muscle occurs when the fibers in the muscles are overstretched.  When those fibers become stretched so thin that they break, it becomes a muscle tear.

Depending on the severity of the injury, it may take anywhere from a few days to several weeks to fully heal from these injuries.  Muscle regeneration usually starts during the first four to five days after injury, peaks at two weeks, and then gradually diminishes three to four weeks after the injury [1].  In severe cases, it may take surgery to repair a muscle tear. 

Can cellular treatments help patients heal more quickly and naturally from these injuries?

How Do Cellular Treatments Promote Healing Muscle Tissue?

Cellular treatments for musculoskeletal injuries operate on the principle that the body has the ability to heal itself.  Regenerative medicine specialists use certain cells in our body that are involved in healing to stimulate the repair of damaged tissues and augment the body’s healing response. 

These innovative cell therapies have been successfully used to treat orthopedic conditions.

  • Platelet Rich Plasma: Platelets in blood release growth factors and proteins that promote tissue repair, while the plasma carries the hormones, electrolytes, and nutrients required to nourish cells during the healing process. Platelet-rich plasma treatments can be customized to create specific formulations for each type of tissue being treated (muscle, tendon, ligament, cartilage).
  • Stem Cell Treatments: Cells derived from the patient’s own bone marrow or adipose (fat) tissue produce molecules that stimulate the production of new blood vessels, awaken other stem cells and encourage newly forming cells to produce collagen and other proteins essential for creating new healthy new tissue. 

The use of cell therapies for muscle injuries have been studied in many clinical trials. There is evidence that it can induce muscle cell proliferation, assist with tissue healing and shorten the time for athletes to return to sports after an injury [2].  Nevertheless, more studies are needed to evaluate the use of PRP for muscle injuries.  There are many exciting new potential therapeutic applications of cellular therapies like stem cell treatments in repairing muscle injuries without the need for surgery [3] [4].  Advances in tissue engineering and biotechnology will pave the way for this to become a reality in the near future.         

Drs. Christopher Rogers and Mary A. Ambach of San Diego Orthobiologics Medical Group are nationally recognized experts in the field of regenerative medicine.  For more than 20 years, they have been helping patients with joint and spine injuries overcome their pain through the latest advances in cell-based treatments.

  

[1] https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4958098/#:~:text=Muscle%20regeneration%20usually%20starts%20during,fibers%20and%20connective%20tissue%20formation.

[2] https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6220013/

[3] https://aabme.asme.org/posts/stem-cells-heal-damaged-muscle-doing-what-surgery-can-t#:~:text=When%20the%20body%20recovers%20from,muscle%20to%20repair%20an%20injury

[4] https://www.nature.com/articles/s41536-020-0094-3

 

 

Exciting New Research on Lipogems Treatment for Achilles Tendon Tears

Exciting New Research on Lipogems Treatment for Achilles Tendon Tears

Chronic degenerative tendon disorders (tendinopathy) occur frequently and are difficult to treat. Tendon injuries are often associated with significant physical dysfunction and disability, due to the limited self-repair capacity and propensity for scar formation. Non-insertional Achilles tendinopathy is a common cause of ankle pain and typically occurs 2 – 6 cm proximal to the tendon insertion on the calcaneus.

Athletes, whether elite or recreational, are the most common group to present with Achilles tendinopathy, but it is also found in people with advanced age, obesity, diabetes or hypertension. Other risk factors for Achilles tendinopathy include previous tendon injury, decreased muscle strength, altered gait kinematics, limited ankle dorsiflexion, training errors, and the use of steroids or fluoroquinolones.

Conservative Treatment for Achilles Tendon Tears

Conservative care of Achilles tendinopathy includes removal of precipitating factors, rest, training routine modifications and the use of orthotics to correct foot or ankle malalignment. Decreased myotendinous flexibility may be treated with stretching. Muscle weakness is treated with progressive eccentric strengthening exercises twice a day for up to 12 weeks using either the Alfredson or Silbernagel protocol. Combining these protocols with low-energy shock-wave therapy (ESWT) may improve outcomes.  With this said, up to 33% of patients will fail conservative care and consider surgical excision of the pathologic tissue with or without tendon transfer augmentation.

Lipogems® for Achilles Tendon Tears

There is a new treatment option out there.  Recent studies have demonstrated that lipoaspirate contains and produces growth-factors, such as platelet-derived growth-factor (PDGF), fibroblast growth-factor (FGF), transforming growth-factor beta (TGF-β), and vascular endothelial growth-factor (VEGF) 1. These growth factors are known to play an important regulatory role in cellular proliferation, cellular migration, matrix synthesis and angiogenesis. The Lipogems® system can produce a non-expanded, rinsed, and microfragmented adipose tissue graft that maintains an intact stromal vascular niche and contains cellular elements with mesenchymal stem cell and pericyte characteristics

Recent Case Study

Dr. Christopher Rogers recently presented a case study at the TOBY conference in Las Vegas.  He and his team were able to successfully treat a 16 year old girl who had developed functionally limiting chronic Achilles tendinopathy and partial tear that were non-responsive to conservative care. She was treated with ultrasound guided lipoaspirate (Lipogems®) and LP-PRP injection combined with a progressive strengthening program. She achieved a resolution of her pain and restoration of physical function at the six month follow-up. Ultrasound and MRI imaging revealed a diffuse fibrillar pattern consistent with regenerated tendon fibers that had replaced the tendinopathic and partially torn tendon regions.

Tendon engineering is an interesting challenge for the orthopedic medicine physician. Lipoaspirate and LP-PRP have the potential to stimulate tenocyte proliferation, matrix synthesis and angiogenesis which can lead to regeneration of a degenerated Achilles tendon. Future clinical trials using lipoaspirate for the treatment of chronic Achilles tendinopathy and partial tears are warranted.

We’re pleased to have been the first medical center in San Diego to offer the revolutionary LIPOGEMS® regenerative medicine therapy. Call us today to schedule an appointment. 760-909-2355

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