Preliminary study of elastic-tension digital neoprene orthoses for proximal interphalangeal joint flexion contracture.

Flexion contracture of the proximal interphalangeal joint (PIPJ) is one of the most frequent complications in finger trauma. Orthoses are the most widely used method to optimize total end-range time (TERT). No previous studies showed that an elastic tension orthosis could be applied for longer than 12 h. We aimed to demonstrate that the elastic-tension digital neoprene orthosis (ETDNO) can achieve higher TERT and therefore better range of motion than other elastic-tension orthoses (ETO) described in the literature. A prospective study of treatment of PIPJ flexion contracture included 10 PIP joints in 8 patients who met the selection criteria. They were instructed to use the ETDNO for around 23 h per day as far as possible, during a period of 3 weeks. Patients reported a mean TERT of 20.6 h a day. PIPJ contracture improved by a mean Torque Range of Motion (TROM) of 23.5° at 500 g and 22.9° at 800 g of passive extension force during the 3-week treatment. Based on the results of this study, the ETDNO appears to offer a highly effective approach for improving PIPJ flexion contracture, increasing range of motion in extension. ETDNO's efficacy probably lies in the significantly improved comfort and low-profile design, enabling excellent compliance and thus optimizing TERT. LEVEL OF EVIDENCE: Level III.

[Tension force in dynamic splints made of neoprene]. / Le collage en tension dans les orthèses dynamiques en matériau néoprène.

Dynamic splints are the most difficult ortheses to make. Unrestricted finger joint mobility is usually prevented by the size of their components. Ortheses made out of neoprene material have the advantage of being pliable and at the same time can be constructed as dynamic splints. Neoprene material elasticity allows conforming it into a tube that can be fitted over a finger, spreading uniform pressure. A traction slip can be cemented to the neoprene finger tube. With neoprene splints, lever arms are more efficient. Their tubular design applies and spreads traction and countertraction forces in all directions. Neoprene material's elasticity contributes in reducing edema formation as well as distributes forces applied to the finger over a large area. The risk of excessive pressure is the only drawback of an elastic tubular design, it may cause pain and tissue ischemia. A meticulous tailoring prevents this potential risk.