Trials / Completed

CompletedNCT03848702

Nonoperative Treatment of Dorsally Dislocated Distal Radius Fractures in Adults With an Individualized 3D Printed Brace.

Nonoperative Treatment of Dorsally Dislocated Distal Radius Fractures in Adults With an Individualized 3D Printed Brace; a Tolerability Study in Healthy Volunteers and Patients (DRFB)

Summary

Study design: Two consecutive prospective case series. Study population: Part 1 will enroll 10 healthy volunteers (50 years or older). Part 2 will enroll 10 elderly patients (50 years or older) with a dorsally displaced distal radius fracture (AO type 23-A-C) that is acceptably reduced. In both parts, participants should have no restrictions in activities of daily living pre-fracture and no evident anatomical difference between both wrists. Intervention: Part 1: Participants will wear the brace continuously for one week. Part 2: Participants will wear the brace as treatment of the fracture for five weeks (instead of a plaster cast). Main study parameters/endpoints: In parts 1 and 2, the primary outcome measure will be a Visual Analog Scale (VAS) score for wearing comfort. Secondary outcome measures are the occurrence of fracture redislocation (part 2 only), pain (VAS), inconvenience during NL61002.078.17 / DRFB-Tolerability Distal Radius Fracture Brace Tolerability Version number: 1.1, d.d. April 24, 2017 8 of 34 activities of daily living (Katz Index), and adverse reactions like pain, skin pressure, skin irritation/redness, sensibility issues, or device-related problems.

Detailed description

Rationale: Each year, approximately 34,500 adults in The Netherlands sustain a fracture of the distal radius (wrist fracture). Incidence peaks in the elderly. The currently preferred treatment is closed reduction and nonoperative treatment by immobilization in a plaster cast for 4-6 weeks. Surgery is only performed if closed reduction fails or redislocation occurs. Plaster immobilization is inconvenient and interferes with daily activities. More importantly, standard nonoperative treatment often fails; in 40-60% of the fractures, redislocation requires surgery. Surgical treatment is about 9 times more expensive than nonoperative treatment and not without risks. This project aims to develop an innovative nonoperative treatment option. The central idea is to produce a 3D-printed brace for the fractured wrist using a mirrored CT-scan of the contralateral, unfractured wrist as a model. This innovative approach has the advantage that it does not depend on surgery and provides a better and potentially more durable positioning than the currently applied plaster cast. We expect that redislocation will occur less frequently, so surgery may be avoided. In contrast to a traditional plaster cast, the newly developed brace is water resistant/repellant, lighter, and enables movement of the hand. It enables daily activities and improves independency in the elderly with a wrist fracture. The treatment has been successfully evaluated in an ex vivo model. The clinical implementation will follow a step-wise approach. Objective: Part 1 aims to determine the tolerability of the 3D-printed brace when worn by healthy volunteers (50 years of order), performing their normal daily activities. In part 2, the objective is to determine tolerability of the 3D-printed brace in patients (50 years or older) with an extra-articular distal radius fracture with dorsal displacement, performing their normal daily activities.

Conditions

• Dorsal Displacement

Interventions

Timeline

Start date

2017-07-01

Primary completion

2018-06-01

Completion

2018-07-01

First posted

2019-02-21

Last updated

2019-02-22

Locations

1 site across 1 country: Netherlands

Source: ClinicalTrials.gov record NCT03848702. Inclusion in this directory is not an endorsement.