Volar Plate vs. Conventus DRS Fixation

Not Applicable

Completed

• Conditions: Fractures, Closed
• Interventions: Device: Volar Plate; Device: Conventus DRS

• Registration Number: NCT02390856
• Lead Sponsor: Hospital for Special Surgery, New York

Brief Summary

Open reduction and internal fixation (ORIF) of unstable distal radius fractures is performed using a variety of fixation techniques. The most common method is fixed angle volar plate application. The investigators plan to compare the outcomes of fixed angle volar plating with a novel FDA approved intramedullary fixation device, Conventus DRS.

Detailed Description

Distal radius fractures are the most common fractures in the upper extremity. While a widely used method of fracture fixation, numerous studies have shown that locked volar plate fixation is associated with soft tissue irritation, flexor and extensor tendon rupture, and screw penetration of the radiocarpal or the distal radioulnar joint (DRUJ). Prominent hardware mandates hardware removal in 5-18% of cases.

Intramedullary fixation has recently received more attention in the literature because of the minimally invasive procedure required for device implantation. Additionally, because intramedullary fixation places the implant within the bone instead of onto it, the lack of implant exposure, as well as decreased soft tissue dissection, carries the potential for decreased inflammation at the surgical site. This prospective randomized case series will evaluate the clinical and functional outcomes of an expandable intramedullary fixation device and compare the complication profile with traditional fixed angle volar locked plating in a single-surgeon case series at a single hospital.

The wide variety of distal radius fractures demand customized treatment, and a number of different surgical treatments methods are available.(1) While percutaneous/external fixation, dorsal plating, fragment specific fixation, and intramedullary rod fixation have been studied, volar locked plate fixation has emerged over the past decade as the most common and versatile method of fracture fixation. Unfortunately, soft tissue and hardware complications continue to plague volar plate fixation, including digital stiffness, loss of forearm rotation, tendinopathy and tendon rupture, nerve injury and compression, hardware irritation, screw prominence, CRPS, and malunion.

Tarallo et al performed a retrospective review of 303 patients who had undergone volar plate fixation and found that implant-related complications had occurred in 5% of the patients (2). Of these, common complications seen were tendon rupture, screw loosening, and penetration into the articular space. While Tarallo et al studied only hardware related complications, other studies have reported complications associated of volar locking plate fixation as high as 22-27% (3,4). The flexor pollicis longus in particular is vulnerable to rupture, as hardware prominence at the watershed line of the distal radius exposes the FPL and other flexor tendons to frictional forces which result in fraying and rupture (5). Prominent pegs or screws dorsally threaten the extensor pollicis longus and neighboring extensor tendons.

Intramedullary fixation has limited data to date, and the current methods are applicable to a relatively narrow subset of radial fracture types. In a case series of three patients, Gunther and Lynch have shown that intramedullary fixation performed with a partially flexible rod that can be locked into rigid position once implanted in the bone resulted in good functional outcomes (6). Patients returned to their daily lives and at one-year post-operatively no adverse effects were reported. A prospective study analyzing the comparative functional outcomes between intramedullary nail versus volar plate fixation similarly found that functional recovery was comparative between the two groups, and that complication rates were slightly lower in the intramedullary fixation cohort (7). The authors of this study however noted the continued potential for screw penetration into the distal radioulnar joint (DRUJ).

The Conventus DRS expandable intramedullary fixation device used in this proposed study is FDA approved. A cadaveric study compared the fixation strength of the Conventus DRS with fixed angle volar plate fixation and demonstrated equivalency between the two for axial compression mean stiffness and dorsal bend mean stiffness (8). The Conventus DRS has been used in Europe where over 250 patients have been treated with the device. A safety and efficacy 'white paper' of the first 60 patients treated for a wide variety of fractures demonstrated excellent improvements in DASH scores with few hardware related events and an overall adverse event profile of 8.3%. (9) There was one re-operation for loss of fixation and four minor cases of neuritis that resolved. The device is FDA-approved in the US, and is being used across the country.

Study Timeline

• Study Start: 2015-02
• Study First Submitted: 2015-02-25
• Study First Submitted QC: 2015-03-17
• Study First Posted: 2015-03-18
• Primary Completion: 2018-12
• Study Completion: 2018-12
• Status Verified: 2019-02
• Last Update Submitted: 2019-02-06
• Last Update Posted: 2019-02-08

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 12

Inclusion Criteria

• Skeletally mature patients (18-80)
• Unstable AO Type A and C1 fractures
• Closed injuries, acute (<14 days), displaced, and unstable

Exclusion Criteria

• Patients under the age of 18 or over the age of 85 (if included in our analysis, these would likely be outliers in our patient population)
• Patients with documented complex regional pain syndrome (CRPS) or history of CRPS
• Patients with suspected or known allergies to titanium or nickel
• Patients who are non-English speakers
• Patients with open wound fractures
• Patients with inflammatory arthritis
• Patients with positive pregnancy test
• Additional musculo-skeletal injuries of the upper extremity would represent exclusion criteria (elbow fractures, scaphoid fractures, and contralateral wrist fracture).
• Previous major wrist injury or surgery (not including Carpal Tunnel, De Quervain's and trigger finger release)
• Patients with previously diagnosed metabolic bone disease, currently being treated.
• Non-English speaking patients (validated, translated questionnaires are not available)
• Patients needing ipsilateral concomitant operations that will have material impact on the study
• Patients with previous wrist fractures, prior wrist injury, stiffness, degenerative joint disease, or pain
• Previous minor surgery - for carpal tunnel, de Quervain's, ganglion, etc. - does not constitute exclusion criteria

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Volar Plate	Volar Plate	Patients in this group will undergo distal radius fracture fixation with a traditional volar plate.
Conventus DRS	Conventus DRS	Patients in this group will undergo distal radius fracture fixation with the Conventus DRS intramedullary fixation device.

Primary Outcome Measures

Name	Time	Method
Change from Baseline in Complications at 2 weeks	2 weeks	Patients will be followed for up to one year after surgery to assess any complications which may develop. Complications will be defined as: * Stiffness (defined as inability to touch fingertips to distal palmar crease, OR 45 degrees or more loss of supination or pronation \[compared to uninjured wrist\], OR BOTH); * Loss of reduction; * Hardware breakage; * Hardware removal; * Return to OR; * Tendinopathy; * Tendon rupture; * Neuropathy; * Superficial infection; * Deep infection; * Wound dehiscence; * Incisional pain; * Chronic Regional Pain Syndrome (CRPS); * None
Change from Baseline in Complications at 6 weeks	6 weeks	Patients will be followed for up to one year after surgery to assess any complications which may develop. Complications will be defined as: * Stiffness (defined as inability to touch fingertips to distal palmar crease, OR 45 degrees or more loss of supination or pronation \[compared to uninjured wrist\], OR BOTH); * Loss of reduction; * Hardware breakage; * Hardware removal; * Return to OR; * Tendinopathy; * Tendon rupture; * Neuropathy; * Superficial infection; * Deep infection; * Wound dehiscence; * Incisional pain; * Chronic Regional Pain Syndrome (CRPS); * None
Change from Baseline in Complications at 3 months	3 months	Patients will be followed for up to one year after surgery to assess any complications which may develop. Complications will be defined as: * Stiffness (defined as inability to touch fingertips to distal palmar crease, OR 45 degrees or more loss of supination or pronation \[compared to uninjured wrist\], OR BOTH); * Loss of reduction; * Hardware breakage; * Hardware removal; * Return to OR; * Tendinopathy; * Tendon rupture; * Neuropathy; * Superficial infection; * Deep infection; * Wound dehiscence; * Incisional pain; * Chronic Regional Pain Syndrome (CRPS); * None
Change from Baseline in Complications at 1 year	1 year	Patients will be followed for up to one year after surgery to assess any complications which may develop. Complications will be defined as: * Stiffness (defined as inability to touch fingertips to distal palmar crease, OR 45 degrees or more loss of supination or pronation \[compared to uninjured wrist\], OR BOTH); * Loss of reduction; * Hardware breakage; * Hardware removal; * Return to OR; * Tendinopathy; * Tendon rupture; * Neuropathy; * Superficial infection; * Deep infection; * Wound dehiscence; * Incisional pain; * Chronic Regional Pain Syndrome (CRPS); * None

Secondary Outcome Measures

Name	Time	Method
Visual Analog Pain (VAS) Score	Up to 1 year	VAS scores (0-10) will be obtained at standard clinical follow-up up to 1 year, after the scale of 0-10 (no pain - worst pain) has been explained
Tourniquet time	Time of Surgery	On one occasion, on the day of surgery, tourniquet time will be recorded in minutes.
Articular Step off	Up to 1 year	Articular step off will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Articular Gap	Up to 1 year	Articular gap will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Volar tilt	Up to 1 year	Volar tilt will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Radial inclination	Up to 1 year	Radial inclination will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Ulnar variance	Up to 1 year	Ulnar variance will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Grip Strength	Up to 1 year	Grip strength will be measured by the PI of the study with a Jamar grip dynamometer at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Return to Work/Activities (quickDASH questionnaire)	Up to 1 year	The QuickDASH is a shortened version of the DASH Outcome Measure. Instead of 30 items, the QuickDASH uses 11 items to measure physical function and symptoms in people with any or multiple musculoskeletal disorders of the upper limb. It will be administered at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Pinch Strength	Up to 1 year	Pinch strength will be measured by the PI with a Pinch Dynamometer at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Intraoperative Complications	Time of Surgery	Intraoperative complications will be assessed on 1 occasion, on the day of surgery. Intraoperative complications are defined as follows: * Loss of reduction; * Conversion to alternate fixation; * Hardware breakage; * Fracture; * Other; * None
Wrist Range of Motion	Up to 1 year	Patients will be followed for up to one year after surgery to assess wrist motion (measurements of flexion, extension, radial deviation, ulnar deviation pronation, and supination)
Patient-Rated Wrist Evaluation (PRWE) questionnaire	Up to 1 year	The PRWE is a 15-item questionnaire designed to measure wrist pain and disability in activities of daily living. It will be administered at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.
Operative time	Time of Surgery	On one occasion, on the day of surgery, operative time will be recorded in minutes.
Coronal Shift	Up to 1 year	Coronal shift will be assessed on x-rays at clinical follow-ups up to 1 year after surgery at 2 weeks, 6 weeks, 3 months, and 1 year postoperatively.

Trial Locations

Locations (1)

Hospital for Special Surgery; 🇺🇸 New York, New York, United States