Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03476486 |
| Other study ID # |
Pro00060817 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
Phase 2
|
| First received |
|
| Last updated |
|
| Start date |
May 20, 2016 |
| Est. completion date |
January 20, 2018 |
Study information
| Verified date |
March 2018 |
| Source |
University of Alberta |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Carpal tunnel syndrome occurs when a nerve gets pinched as it passes through a confined
tunnel within the wrist and hand. It is the most commonly pinched nerve and often results in
disabling hand numbness, tingling, pain and weakness. For moderate and severe cases, an
operation is often performed that cuts the ligament that presses on the nerve. This surgery
is generally very successful but involves a 2-5 cm long incision at the base of the palm.
Recovery from the surgery usually takes 3-8 weeks. Ultrasound provides a clear noninvasive
way of looking at the contents of the carpal tunnel. A technique has been developed whereby a
wire thread is looped around the ligament using a needle guided by ultrasound. The ligament
is cut by the wire below the surface of the skin. This technique results in 2 needle puncture
holes instead of the open incision of the traditional surgery. The investigators have
completed research on this technique in cadavers. It was confirmed that complete or almost
complete cutting of the ligament can be safely and predictably accomplished. This research
will look at the effectiveness of this looped thread technique of carpal tunnel release on
patients who have carpal tunnel syndrome. Specifically, participants will be required to: 1.
rate the severity of their carpal tunnel syndrome symptoms and disability using a standard
questionnaire, 2. measure hand sensation, 3. measure pinch and grip strength tests of their
hands, 4. undergo ultrasound measurements of the size of the pinched nerve at the carpal
tunnel, and 5. undergo electrical tests to measure the nerves ability to conduct impulses
across the carpal tunnel. These will be measured before the looped wire procedure and at 3
and 6 months following the procedure. Recovery time will also be measured.
Description:
Objectives: to evaluate the effectiveness and safety of a minimally invasive
ultrasound-guided looped thread technique of carpal tunnel release
Background: Carpal tunnel syndrome (CTS) is the most common peripheral entrapment neuropathy,
having a prevalence of 3.7%. CTS is the 2nd leading worktime loss condition. Open surgical
decompression of the carpal tunnel is an evidence-based and commonly performed treatment for
moderate to severe cases, predictably providing long-term symptom relief. This surgical
technique involves placing a 2-5 cm long longitudinal incision at the palm, incising the
skin, subcutaneous tissue, palmar fascia, palmaris longus tendon (if present) and transverse
carpal ligament under direct visualization. After 3-8 weeks of recovery, most patients
experience excellent relief of symptoms and improvement in hand function. On occasion, the
procedure is complicated by nerve damage, scar or pillar pain. A variety of strategies have
been devised to minimize the invasive nature of carpal tunnel release in hopes to reduce post
procedure pain, weakness and recovery time. In the late 1980s, an endoscopic release
technique was devised. A recent meta-analysis of existing randomized control trials comparing
open to endoscopic release found endoscopic release to provide better early recovery of grip
and pinch strength, less scar tenderness and earlier returned to work (~9 days). There was a
similar risk of pillar pain and reoperation, and a higher risk of nerve injury (mostly
transient neurapraxia). The development of high-resolution ultrasound scanning allows
detailed visualization of the carpal tunnel and its contents. Hydrodissection, the injection
of fluid during ultrasound visualization, adds to image clarity of both the contents of the
carpal tunnel as well as the location of operative instruments. A few minimally invasive
ultrasound-guided percutaneous carpal tunnel release techniques have been described. The
cutting instruments have included needle tip, knife, saws blades, and thread. Initial results
of these techniques suggest that they are feasible, safe, effective and are associated with
short recovery times. The most recently described minimally invasive technique involves
percutaneously looping a cutting thread around the transverse carpal ligament using a needle
under ultrasound guidance. By reciprocally sliding the 2 ends of the thread back and forth
like a Gigli saw, the transverse carpal ligament is transected. Only 2 needle puncture site
are required. The looped thread carpal tunnel release (TCTR) procedure was initially
performed on a single cadaveric hand and dissection demonstrated complete transection of the
transverse carpal ligament and no injury to other structures. The authors then performed the
same procedure on 34 hands of 20 patients. The primary outcome measure was the Levine-Katz
questionnaire completed 3 months postprocedure. The questionnaire scores were compared to
those reported in the literature for open and endoscopic release techniques and were found to
be similar. No post TCTR complications were reported. Our research group has recently
completed a cadaveric evaluation of this technique and found that ultrasound accurately
defines the critical boundries and contents of the carpal tunnel in all cases, complete or
near-complete transection of the transverse carpal ligament was achieved and no trauma was
sustained by any structure within the carpal tunnel other than the transverse carpal
ligament.
Procedure/Methods: subjects with clinical and electrophysiologically confirmed CTS from the
practice of the principal investigator will be invited to participate. The 1st phase of this
study will involve TCTR of 5 carpal tunnels. Within a month prior to and at 3 and 6 months
post procedure the following outcome measures will be collected: subjective measure of
symptom and functional limitation severity (Boston Carpal Tunnel Questionnaire); monofilament
hand sensibility testing, grip and pinch strength; median nerve cross-sectional area
measurement at the carpal tunnel inlet using ultrasound; and electrophysiologic function of
the median nerve across the carpal tunnel (motor and sensory conduction velocities and
amplitudes). At weekly intervals for the 1st month, each subject will also be contacted to
report on their recovery (return to everyday activities including work) and any adverse
effects/complications. The Boston Carpal Tunnel Questionnaire will also be completed at 1
month post TCTR. Assuming no serious complications are encountered from the initial 5
procedures, and upon approval from the supervising Data and Safety Monitoring Board, 15
additional carpal tunnels will undergo TCTR and the same outcome measures will be recorded.
The outcome data will be analyzed using a repeated measures Analysis of Variance (Boston
Carpal Tunnel Questionnaire; monofilament hand sensibility;grip and pinch strength; median
nerve cross-sectional area; median nerve motor and sensory conduction velocities and
amplitudes) and descriptive statistics (recovery duration and adverse effects/complications).
