The retinacular ligaments of the digital extensor expansion revisited: An anatomical and biomechanical study

Author:

Borgström Tomas1ORCID,Dahlin Lars B.12,Tranum‐Jensen Jørgen3

Affiliation:

1. Department of Hand Surgery Skåne University Hospital Malmö Sweden

2. Department of Translational Medicine – Hand Surgery Lund University Malmö Sweden

3. Department of Cellular and Molecular Medicine, Panuminstituttet University of Copenhagen Copenhagen Denmark

Abstract

AbstractOur aim was to clarify the anatomy and function of the retinacular ligaments. Forty‐eight fingers were dissected and the thickness of the oblique retinacular ligament (ORL) was graded. In four fingers, the motion in the proximal interphalangeal (PIP) and distal interphalangeal (DIP) joints was subjected to an in‐depth analysis before and after sectioning of either the lateral bands (LB) or the ORLs. The function of the ORLs in restricting flexion of the DIP joint with full extension of the PIP joint was measured in 10 fingers. An ORL could be identified on both sides in all 48 fingers. The distribution of the insertion on the proximal phalanx was 7/96 (7%) in the distal third, 70/96 (73%) in the middle third and 19/96 (20%) in the proximal third. Among the specimens, 29% were graded as having a strong bundle of fibers, 51% as having well‐defined and regular fibers and 20% as having thin and sparse fibers. With the PIP joint extended, there was a statistically significant increase in flexion of the DIP joint after the ORL was cut. After the LB was sectioned, the ORL was able to extend the DIP joint with an extension lag of 10–22°. Cutting the ORL did not affect the ability to extend that joint. We conclude that the retinacular ligaments are consistent. Their major role is not connected with finger movement, but to provide stabilizing links between the PIP and DIP joints. They are active in not only specific, uncommon finger positions but also in ordinary use of the fingers.

Publisher

Wiley

Subject

General Medicine,Histology,Anatomy

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