J Hand Surg Eur Vol. 2026 Mar 21:17531934261427638. doi: 10.1177/17531934261427638. Online ahead of print.
ABSTRACT
BACKGROUND: The balance of the finger is maintained through a complex interaction of intrinsic and extrinsic mechanisms that coordinate motion, stability and force transmission across the metacarpophalangeal and interphalangeal joints. Although flexor muscle mass exceeds that of the extensors, equilibrium is achieved through precisely calibrated tendon positioning, lever arms and passive restraints. This balance permits efficient motion with minimal energy expenditure and allows rapid transition between power and precision function.Physiological balance:Active balance is generated by coordinated action of extrinsic flexors and extensors with intrinsic modulators, including the interossei and lumbricals, which regulate tendon tension and joint sequencing. Passive stabilizers including the palmar plate, collateral ligaments, sagittal bands, annular pulleys and retinacular ligaments maintain tendon alignment, optimize lever arms and prevent subluxation. Balance modulation is provided by Landsmeer's ligament and Winslow's diamond, and the camshaft and hypomochlion effects further refine interphalangeal coordination and stability. Disruption of any component alters tendon vectors and joint moments, producing predictable deformity patterns including clawing, boutonnière, swan-neck deformity and bowstringing.Restoration of balance:Restoration of balance requires more than structural repair. Successful management depends on correcting bony alignment, restoring joint mobility and reconstructing soft-tissue relationships to re-establish physiological force distribution. Surgical options include tendon transfer, intrinsic release, pulley reconstruction, centralization procedures and nerve reconstruction, dependent on underlying pathology.
CONCLUSION: Finger function depends on finely tuned balance of intrinsics and extrinsics. Understanding the dynamic and passive stabilizing mechanisms is essential for diagnosing imbalance and for planning reconstructive strategies that restore movement.
LEVEL OF EVIDENCE: V. Narrative review.
PMID:41863260 | DOI:10.1177/17531934261427638