Lateral Epicondyle Tendinopathy Toolkit: Section H - Braces, Splints, and Taping

Original Editor - Vidya Acharya for BC Physical Therapy Tendinopathy Task Force:

Dr. Joseph Anthony, Paul Blazey, Dr. Allison Ezzat, Dr. Angela Fearon, Diana Hughes, Carol Kennedy, Dr. Alex Scott, Michael Yates and Alison Hoens

Top Contributors - Vidya Acharya, Kim Jackson, Evan Thomas, Admin, Wanda van Niekerk, Rishika Babburu and

Introduction[edit | edit source]

Various methods have been developed to treat lateral epicondyle tendinopathy that includes brace, splints and taping. It has been found that splinting, bracing, and taping are useful interventions for protecting, stabilising, or immobilising injured or inflamed areas.

Counterforce Brace[edit | edit source]

A counterforce brace is one of the most conventional treatments. The mechanism of action for this brace is the transferring of stress from the wounded tissue to the unaffected tissues around it. A combined cadaveric and clinical study[1] showed a 13-15% force reduction of the Extensor Carpi Radialis Brevis origin with the counterforce brace.

  • They are often used for pain relief.
  • They are thought to diffuse the load through the tendon to less sensitive areas, thereby decreasing the stress on the area of pathology.

Wrist Splint[edit | edit source]

Wrist splints reduces tension and load at the extensor origin, thus promoting tendon repair.

  • Wrist splints are less commonly used in the Lateral Epicondyle Tendinopathy.
  • But they do have some support for temporary pain relief in more acute patients.
  • The goal is to rest the musculotendinous unit originating at the lateral epicondyle.

Diamond Taping Technique[edit | edit source]

Taping provides support and stability for the preventing injury as well as it protects the injured anatomical structure during healing.

  • The goal is to decrease tension at the epicondyle attachment.
  • Diamond Taping Technique [2]consists of four tape strips, repeated twice.
  • The tape is laid in a diamond shape while pulling the soft tissues centrally towards the lateral epicondyle.

Supporting Evidence[edit | edit source]

There is differing evidence to support the use of orthotic devices and taping to treat LET. The evidence is summarised below; for more information, please see Section D - Summary of the Evidence for Physical Therapy Interventions.

Orthotic devices

  • Acute Stage: There is weak evidence that orthotic devices (brace, sleeve or splint) may reduce immediate pain compared to placebo. There is weak evidence that a counterforce brace may reduce pain in the short term (<6 weeks).[3]
  • Chronic Stage: A placebo-controlled RCT showed that addition of a counterforce brace to exercise-based rehabilitation may result in improved pain and function in the short and long terms[4][5]


  • Chronic Stage: Two placebo controlled trials, and two experimental studies have demonstrated efficacy of taping for providing immediate pain relief. Taping has not been consistently shown to benefit strength. Studies have often been conducted alongside an exercise intervention.[6][7][8]

Resources[edit | edit source]

References[edit | edit source]

  1. Meyer NJ, Walter F, Haines B, Orton D, Daley RA. Modeled evidence of force reduction at the extensor carpi radialis brevis origin with the forearm support band. The Journal of hand surgery. 2003 Mar 1;28(2):279-87.
  2. Vicenzino B, Brooksbank J, Minto J, Offord S, Paungmali A. Initial effects of elbow taping on pain-free grip strength and pressure pain threshold. Journal of Orthopaedic & Sports Physical Therapy. Jul 2003; 33(7): 400-7.
  3. Shahabi S, Bagheri Lankarani K, et al. The effects of counterforce brace on pain in subjects with lateral elbow tendinopathy: A systematic review and meta-analysis of randomized controlled trials. Prosthet Orthot Int. 2020 Oct;44(5):341-354
  4. Heales LJ, McClintock SR, Maynard S, et al. Evaluating the immediate effect of forearm and wrist orthoses on pain and function in individuals with lateral elbow tendinopathy: A systematic review. Musculoskelet Sci Pract. 2020 Jun;47:102147
  5. Kroslak M, Pirapakaran K, Murrell GAC. Counterforce bracing of lateral epicondylitis: a prospective, randomized, double-blinded, placebo-controlled clinical trial. J Shoulder Elbow Surg. 2019 Feb;28(2):288- 295
  6. Vicenzino B, Brooksbank J, Minto J, et al. Initial effects of elbow taping on pain-free grip strength and pressure pain threshold. Journal of Orthopaedic & Sports Physical Therapy. Jul 2003; 33(7): 400-7.
  7. Balevi ISY, Karaoglan B, Batur EB, et al. Evaluation of short-term and residual effects of Kinesio taping in chronic lateral epicondylitis: A randomized, double-blinded, controlled trial. J Hand Ther. 2021 Nov 1:S0894-1130(21)00144-7.
  8. Shamsoddini, A., Hollisaz, MT. Effects of Taping on Pain, Grip Strength and Wrist Extension Force in Patients with Tennis Elbow. Trauma monthly 18.2 (2013): 71-4.