Tenodesis grasp

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Tenodesis grasp and release is an orthopedic observation of a passive hand grasp and release mechanism, affected by wrist extension or flexion, respectively. It is caused by the manner of attachment of the finger tendons to the bones and the passive tension created by two-joint muscles used to produce a functional movement or task (tenodesis).[1] Moving the wrist in extension or flexion will cause the fingers to curl or grip when the wrist is extended, and to straighten or release when the wrist is flexed.[2][3]

  • Wrist extension tenodesis effect
    Wrist extension tenodesis effect
  • Wrist flexion tenodesis effect
    Wrist flexion tenodesis effect

The tenodesis grip and release mechanism is used in occupational therapy,[4] physical therapy[5][6] and rehabilitation of fine motor impairment, typically various levels of spinal paralysis,[7][8] and in kinesiology and sports mechanics that are concerned with efficient grasp and release mechanics. Wrist extension is noted for bat grip in baseball.[9] Wrist extension is also noted in the form of grip used in most schools of Japanese swordsmanship or kenjutsu.

Rehabilitation

Overview

This particular function serves to enhance gripping capabilities for individuals with tetraplegia exhibiting wrist extension against gravity but lacking active finger functionality (C6 Motor Level). The active wrist extension, when initiated, draws the fingers and thumb into a flexed position passively. Acquiring tenodesis function is crucial for enabling task execution, as it allows for the passive holding of objects between the thumb and index finger or within the palm. [10] People with tetraplegia devise adaptive approaches to optimize the utility of their hands. Many individuals create alternative techniques to carry out their daily activities. One such strategy involves leveraging the impact of gravity to enhance grasping capabilities. This adjustment is inherent in the tenodesis grasp, where the hand is often opened through wrist flexion assisted by gravity, reflecting a reliance on this natural force. [11]

Kinematic Characteristics and Muscles Involved

The tenodesis grasp entails extending the wrist (specifically the extensor carpi radialis longus and brevis), leading to two distinct types of grips: a passive whole hand grasp attributed to the shortening of finger flexors and a passive lateral grip resulting from the shortening of the flexor pollicis longus. [12]

Optimizing Tenodesis Grasp

There are a number of ways that a patient in a rehabilitation or healthcare setting can optimize their tenodesis Grasp to boost their independence after a spinal cord injury. A physical therapy or occupational therapy professional may guide the patient in the following ways:

  • Prescribe the use of an orthotic splint to help guide the patient through grasp and release movements. [13]
  • Move the wrist through the entire range of motion [13]
  • Stretching fingers with the wrist flexed [13]
Clinical Relevance

The use of an effective tenodesis grasp after a spinal cord can have a substantial impact on the activities of daily living for a patient after suffering a spinal cord injury. The majority of individuals with tetraplegia opt against undergoing surgical reconstruction for hand function, relying instead on the inherent passive properties of their musculoskeletal system to carry out functional tasks.[11]

  1. ^ Jeff G. Konin, (1999) Slack, Inc., Practical Kinesiology for the Physical Therapist Assistant, p. 19.
  2. ^ Tenodesis Grip Exercises - https://patienteducation.osumc.edu/Documents/TenodesisGripExer.pdf
  3. ^ Susan L. Roberts, Kinesiology: Movement in the Context of Activity, Elsevier Health Sciences, 2005, p. 135.
  4. ^ Pedretti, L., & Zoltan, B. (1990). Occupational Therapy: Practice skills for Physical Dysfunction, 3rd Ed. CV Mosby Company p. 589,590.
  5. ^ Frank, C., Akeson, W.H., Woo, S.L-Y, Arniel, D., & Coutts, R.D.(1984). Physiology and therapeutic value of passive joint motion. Clinical Orthopaedics and Related Research, 185, 113-125.
  6. ^ Pedretti, L., & Zoltan, B. (1990). Occupational Therapy: Practice skills for Physical Dysfunction, 3rd Ed. CV Mosby Company p. 589,590.
  7. ^ Tierney, N. (1982). The development of tenodesis or a 'trick' pincer grip by the C6 quadriplegic. Proceedings of the 8th Conference of the World Federation of Occupational Therapists, Vol.1., Hamburg, WFOT, p351
  8. ^ Harvey, L. (1996). Principles of Conservative Management for a Non-orthotic Tenodesis Grip in Tetraplegics. Journal of Hand Therapy, 9, 238-242.
  9. ^ Tusakguchi, 2011: A Hitting Odyssey, Ch. 6 Batting Stance, -- http://rhm001.blogspot.com/2011/12/chapter6-batting-stance_1300.html. "[A] cocking grip leads flexion of fingers because tendon of palm side is stretched by wrist-dorsiflexion. fingers are flexed by tension of tendon. And this phenomenon is called as a tenodesis-action in anatomical terms. By means of the tenodesis-action, we can hold our bat without gripping strongly by muscle contraction. As a result, our grip get the softness and stability at the same time. In this case, our palm is flexed along the lines of palm. It is the proper manner of finger flexion and baseball grip."
  10. ^ "Tenodesis Function in Spinal Cord Injury". Physiopedia. Retrieved 2023-12-03.
  11. ^ a b Johanson, M. Elise; Murray, Wendy M (2002-08-01). "The unoperated hand: the role of passive forces in hand function after tetraplegia". Hand Clinics. 18 (3): 391–398. doi:10.1016/S0749-0712(02)00035-5. ISSN 0749-0712.
  12. ^ Mateo, S.; Revol, P.; Fourtassi, M.; Rossetti, Y.; Collet, C.; Rode, G. "Kinematic characteristics of tenodesis grasp in C6 quadriplegia". Spinal Cord. 51 (2): 144–149. doi:10.1038/sc.2012.101. ISSN 1476-5624.
  13. ^ a b c "Tenodesis and Spinal Cord Injury: How to Boost Independence". Flint Rehab. 2020-09-30. Retrieved 2023-12-03.


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