Shockwave Therapy: The Therapeutic Effects

Posted by Enovis ANZ on 27th Sep 2023

Shockwave therapy - a term that continues to be used to encompass both focused shock wave and radial pressure wave therapies – can be used to stimulate the body’s natural healing process, with positive effects demonstrated on bone and tendon repair and tissue regeneration (1). But how does this work?


Both focused shockwaves and radial pressure waves influence cellular activity by mechanotransduction, where the mechanical energy of an

acoustic wave is converted into biochemical energy in the cell and extracellular matrix (1).

With focused shockwave (F-SW) therapy, this is primarily achieved through the effects of cavitation, whereas radial pressure wave (RPW) therapy uses pressure waves to cause cellular change.

What is Cavitation?

Cavitation occurs during the tensile phase of a shockwave. The negative pressure created by the wave generates gas-filled bubbles in water at room temperature, which are normally only seen in boiling water. When these bubbles are concentrated in a small area, such as in F-SW therapy, they generate secondary pressure waves in a process known as “stable cavitation.” When the bubbles burst, they release energy at the focal point of the application. This “microtrauma” stimulates the body’s self-healing ability and leads to tissue regeneration (2,3).

If the bubbles are encouraged to expand, they will continue to store energy until they become so large that they implode, releasing a large amount of energy in a microjet. This is known as “unstable cavitation,” and can be used to break down kidney stones (4,5). While some cavitation also occurs during RPW therapy, the level is only superficial, and not thought to be significant.


How does Shockwave Help the Body Heal? 

F-SW and RPW therapies are pro-inflammatory modalities which can be used to “reboot” the healing process in stalled, chronic conditions (1).

The normal healing process of the body occurs in four stages. First the body responds to injury by bleeding, which is then followed by inflammation. Within a few hours to days, the third stage begins, known as proliferation, where new tissue is created to rebuild the wound. Finally, after a few weeks, the remodeling stage starts, during which the wound fully closes.

Of all these stages of the healing cascade, the most important is inflammation. Without it, proliferation and remodeling will not take place. In chronic conditions, something has gone wrong during the later proliferation and remodeling stages of the normal healing process, preventing it from progressing. Like a computer with a serious error, this process needs to be rebooted for progress to be made by using the pro-inflammatory action of F-SW or RPW therapy.


Other Physiological Effects of Shockwave Therapy

New blood vessel formation

Due to microtraumas caused by shockwave therapy, there is a significant increase in the expression of growth factors such as eNOS, VEGF, PCNS and BMP. These growth factors are involved in the process of neovascularization, where arterioles are stimulated to form and grow, which has a positive effect on improved blood supply, bone and tendon repair, and tissue regeneration (6).

Collagen production

Shockwave therapy stimulates procollagen synthesis, necessary for the repair of damaged musculoskeletal and ligament structures. It forces the newly created collagen fibers into a longitudinal structure, making the newly formed tendon fibers denser and stiffer, with a firmer structure (7).

Tenocyte proliferation

Shockwave therapy leads to an increase in transforming growth factor beta 1 (TGF-β 1), which is known to regulate tendon repair (8).

Fibrotic tissue and scar remodeling

Shockwave therapy alters the expression of fibrosis-related molecules in fibroblasts, which affects scar remodeling and resorption (1).

Osteoblast and osteoclast activity

Alongside TGF-β 1, fibroblast growth factor 2 (FGF2) is also increased by shockwave therapy, and together they are influential in bone healing (1,9).

Analgesia

RPW therapy has a confirmed effect in improving the symptoms of pain (10).

Reducing hypertonia in spastic muscles

Both F-SW and RPW have been proven effective here (11), with RPW particularly effective in aiding increased range of movement (12).

References

1. d'Agostino MC, Craig K, Tibalt E, Respizzi S. Shock wave as biological therapeutic tool: From mechanical stimulation to recovery and healing, through mechanotransduction. Int J Surg. 2015 Dec;24(Pt B):147-53.

2. Ogden JA, Tóth-Kischkat A, Schultheiss R. Principles of shock wave therapy. Clin Orthop Relat Res. 2001 Jun;(387):8-17.

3. Császár NB, Angstman NB, Milz S, Sprecher CM, Kobel P, Farhat M, Furia JP, Schmitz C. Radial Shock Wave Devices Generate Cavitation. PLoS One. 2015 Oct 28;10(10):e0140541.

4. Chaussy C, Brendel W, Schmidt E. Extracorporeally induced destruction of kidney stones by shock waves. Lancet 2:1265–1268, 1980.

5. Streem SB. Contemporary clinical practice of shock wave lithotripsy: a reevaluation of contraindications. J Urol. 1997 Apr;157(4):1197-203.

6. Wang CJ, Wang FS, Yang KD. Biological mechanism of musculoskeletal shockwaves. ISMST Newsletter 2006, 1 (I), 5-11.

7. Vetrano M, d'Alessandro F, Torrisi MR, Ferretti A, Vulpiani MC, Visco V. Extracorporeal shock wave therapy promotes cell proliferation and collagen synthesis of primary cultured human tenocytes. Knee Surg Sports Traumatol Arthrosc. 2011 Dec;19(12):2159-68.

8. Berta L, Fazzari A, Ficco AM, Enrica PM, Catalano MG, Frairia R. Extracorporeal shock waves enhance normal fibroblast proliferation in vitro and activate mRNA expression for TGF-beta1 and for collagen types I and III. Acta Orthop. 2009 Oct;80(5):612-7.

9. Frairia R, Berta L. Biological effects of extracorporeal shock waves on fibroblasts. A review. Muscles Ligaments Tendons J. 2012 Apr 1;1(4):138-47.

10. Rompe JD, Hope C, Küllmer K, Heine J, Bürger R. Analgesic effect of extracorporeal shock-wave therapy on chronic tennis elbow. J Bone Joint Surg Br. 1996 Mar;78(2):233-7.

11. Dymarek R, Ptaszkowski K, Ptaszkowska L, Kowal M, Sopel M, Taradaj J, Rosińczuk J. Shock Waves as a Treatment Modality for Spasticity Reduction and Recovery Improvement in Post-Stroke Adults - Current Evidence and Qualitative Systematic Review. Clin Interv Aging. 2020 Jan 6;15:9-28.

12. Marinelli L, Mori L, Solaro C, Uccelli A, Pelosin E, Currà A, Molfetta L, Abbruzzese G, Trompetto C. Effect of radial shock wave therapy on pain and muscle hypertonia: a double-blind study in patients with multiple sclerosis. Mult Scler. 2015 Apr;21(5):622-9.