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Carpal tunnel surgery

January 01, 1970

Carpal tunnel surgery, also called carpal tunnel release (CTR) and carpal tunnel decompression surgery, is a nerve decompression in which the transverse carpal ligament is divided. It is a surgical treatment for carpal tunnel syndrome (CTS) and recommended when there is constant (not just intermittent) numbness, muscle weakness, or atrophy, and when night-splinting no longer controls intermittent symptoms of pain in the carpal tunnel.[1] In general, milder cases can be controlled for months to years, but severe cases are unrelenting symptomatically and are likely to result in surgical treatment.[2][3] Approximately 500,000 surgical procedures are performed each year, and the economic impact of this condition is estimated to exceed $2 billion annually.[4]

Carpal tunnel surgery
Indication of the site of the problem in carpal tunnel syndrome.
Specialtyorthopedic surgeon
[edit on Wikidata]

Indications edit

The procedure is used as a treatment for carpal tunnel syndrome and according to the American Academy of Orthopaedic Surgeons (AAOS) treatment guidelines, early surgery is an option when there is clinical evidence of median nerve denervation or the patient elects to proceed directly to surgical treatment.[5] Management decisions rely on several factors, including the etiology and chronicity of CTS, symptom severity, and individual patient choices. Nonsurgical treatment measures are appropriate in the initial management of most idiopathic cases of CTS. Splinting and corticosteroid injections may be prescribed, and they have proven benefits. Steroid injections can provide relief if symptoms are of short duration. If no improvement is seen following steroid injection, carpal tunnel release may not be as effective.[6] Surgical treatment is indicated in acute cases of CTS from trauma or infection, in chronic cases with denervation of the abductor pollicis brevis muscle or a pronounced sensory loss, and in cases unresponsive to conservative management.[7]

Before pursuing CTR, confirmation of the diagnosis of carpal tunnel syndrome is recommended, given that the symptoms of median nerve entrapment can overlap with other disorders including: cervical radiculopathy, thoracic outlet syndrome, and pronator syndrome.[8] Beyond physical exam testing, confirmatory electrodiagnostic studies are recommended for all patients being considered for surgery.[9] Nerve conduction studies are reported to be 90% sensitive and 60% specific for the diagnosis of carpal tunnel syndrome.[10] These studies provide the surgeon with a patient baseline and can rule out other syndromes that present similarly. Specifically, a distal motor latency of more than 4.5 ms and a sensory latency of more than 3.5 ms are considered abnormal.[10] Of note, these electrodiagnostic studies can yield normal results despite symptomatic median nerve compression. In this scenario, CTR should be considered only if physical signs of median nerve dysfunction are present in addition to classical symptoms of CTS.[8]

Surgical techniques edit

 
Scars from carpal tunnel release surgery. Two different techniques were used. The left scar is 6 weeks old, the right scar is 2 weeks old. Also note the muscular atrophy of the thenar eminence in the left hand, a common sign of advanced CTS.

The goal of any carpal tunnel release surgery is to divide the transverse carpal ligament and the distal aspect of the volar ante brachial fascia, thereby decompressing the median nerve and providing relief.[8] The transverse carpal ligament is a wide ligament that runs across the hand, from the scaphoid bone to the hamate bone and pisiform. It forms the roof of the carpal tunnel, and when the surgeon cuts across it (i.e., in a line with the ring finger) it no longer presses down on the nerve inside, relieving the pressure.[11][unreliable medical source?]

The two major types of surgery are open carpal tunnel release and endoscopic carpal tunnel release. Open carpal tunnel release can be performed through a standard incision or a limited incision. Endoscopic carpal tunnel release, which can be performed through a single or double portal. Most surgeons historically have performed the open procedure, widely considered to be the gold standard.[citation needed] However, since the 1990s, a growing number of surgeons now offer endoscopic carpal tunnel release.[12] Existing research does not show significant differences in outcomes of one kind of surgery versus the other, so patients can choose a surgeon they like and the surgeon also will practice the technique they like.[13]

Historically, carpal tunnel release was performed under general anesthesia with a tourniquet, however the worldwide trend is now for 'wide awake hand surgery': with no tourniquet, no general or regional anesthesia and no sedation; which also enables carpal tunnel release to be performed under local anesthesia as a one stop procedure.[14]

After carpal tunnel surgery, the long term use of a splint on the wrist should not be used for relief.[15] Splints do not improve grip strength, lateral pinch strength, or bowstringing.[15] While splints may protect people working with their hands, using a splint does not change complication rates or patient satisfaction.[15] Using splints can cause problems including adhesion and lack of flexibility.[15]

Carpal tunnel surgery is usually performed by a hand surgeon, orthopaedic surgeon, or plastic surgeon.[citation needed]

Open surgery edit

 
The traditional open carpal tunnel surgery

Open carpal tunnel release (OCTR) has long been considered the gold-standard surgical treatment for CTS. This approach allows for direct visualization of the anatomy and possible anatomical variants, which minimizes the risk of damaging critical structures. It also provides the surgeon with the option of probing the carpal canal for other structures that may be contributing to the compression of the median nerve, include ganglions and tumors. The technique involves placement of a longitudinal incision at the base of the hand. There are a few ways to determine where the incision can be placed. One of the ways is to make an incision over the carpal tunnel where it lines up with the 3rd web space of the hand. The other way is to bring the ring finger down and where that lays is where the incision can be made.[16] The length of the skin incision varies but typically is <4 cm. The subcutaneous tissue, the superficial palmar fascia, and the muscle of the palmaris brevis (if present) are also incised in line with the incision, thereby exposing the TCL.[17] With the incision of the transverse carpal ligament[18][19] longitudinally, the median nerve is exposed. The release is extended to the superficial palmar arterial arch distally and for a limited distance proximally beneath the wrist flexion creases.[7] For optimal outcomes, the TCL must be completely released while avoiding damage to the vital structures. The flexor tendons can be retracted to inspect the floor of the canal for lesions. Scar tenderness, pillar pain, weakness, and delays in return to work can occasionally be seen following an OCTR.[citation needed]

The open release technique has been compared to other treatments.[20]

Postoperative care edit

A light compression dressing and a volar splint may be applied. The hand is actively used as soon as possible after surgery, but the dependent position is avoided. Usually the dressing can be removed by the patient at home 2 or 3 days after the surgery, and then gentle washing and showering of the hand is permitted. Gradual resumption of normal hand use is encouraged. If non-absornable sutures are used, they are removed after 10 to 14 days. A splint may be continued for comfort as needed for 14 to 21 days.

Limited open carpal tunnel release edit

Limited-incision carpal tunnel release techniques similar to endoscopic surgery were developed to decrease palmar discomfort and hasten the return to activities. It allows for adequate exposure to avoid complications and keeps the incision out of the painful portion of the palm. The surgical approach involves a small skin incision in the palm followed by release of the distal end of the TCL under direct visualization.[7] Patients experience reduced post-operative pain as this techniques leaves the palmar fascia intact over the proximal TCL.[8]

Carpal tunnel release through mini-transverse approach (CTRMTA) edit

Sayed Issa's approach[21] is a carpal tunnel release through a small approach on the distal wrist crease; it is about 1.5 cm; the benefits of this technique are less surgical traumatic and more tender, it takes less time for rehabilitation, so the patient can work next day of operation, and it has very cosmetic and gentle scar in results and outcome.[22] A skin incision is made and the surgeon will dissect through fat and the superficial palmar fascia. Once the superficial palmar fascia has been released the transverse carpal ligament will be exposed. The transverse carpal ligament will be cut longitudinally to release it.[16]

Endoscopic carpal tunnel release edit

Main article: Endoscopic carpal tunnel release

Endoscopic techniques for carpal tunnel release involve one or two smaller incisions (less than half inch each) through which instrumentation is introduced including a synovial elevator, probes, knives, and an endoscope used to visualize the underside of the transverse carpal ligament.[23][unreliable medical source?] The endoscopic methods do not divide the subcutaneous tissues or the palmar fascia to the same degree as does the open method.[24] Advocates of endoscopic carpal tunnel release cite less palmar scarring and ulnar “pillar” pain, rapid and complete return of strength, and return to work and activities at least 2 weeks sooner than for open release. Some studies comparing open and endoscopic carpal tunnel release found no significant differences in function. The advantages of the endoscopic technique in grip strength and pain relief are realized within the first 12 weeks and seem to benefit those patients not involved in compensable injuries. However, problems related to endoscopic carpal tunnel release include (1) a technically demanding procedure; (2) a limited visual field that prevents inspection of other structures; (3) the vulnerability of the median nerve, flexor tendons, and superficial palmar arterial arch; (4) the inability to control bleeding easily; and (5) the limitations imposed by mechanical failure.[10] Although this technique has proved to be effective, it may not be applicable to every patient with carpal tunnel syndrome. If an endoscopic release cannot be accomplished safely, the procedure should be converted to an open technique.

Briefly, the endoscopic method can be performed using either one portal,[25] or two portals.[26] In the Agee single-portal technique, a small transverse skin incision is made at the ulnar border of the palamaris longus tendon. A distally based flap of forearm fascia is elevated to expose the proximal end of the carpal canal. With the wrist held in slight extension, the endoscopic blade is inserted into the canal, the distal edge of the TCL is identified, and the ligament is sectioned distally to proximally. The two portal technique requires a proximal incision and a distal incision deep to the TCL.[citation needed]

Many surgeons have embraced limited incision methods. It is considered to be the procedure of choice for many of these surgeons with respect to idiopathic carpal tunnel syndrome.[citation needed] Supporting this are the results of some of the previously mentioned series that cite no difference in the rate of complications for either method of surgery. Thus, there has been broad support for either surgical procedure using a variety of devices or incisions.[citation needed]

Thread carpal tunnel release edit

Procedure of Thread Carpal Tunnel Release

The thread carpal tunnel release (TCTR) is a minimally invasive procedure for transecting the transverse carpal ligament (TCL) by sawing a piece of thread looped percutaneously under the guidance of ultrasound. The TCTR is performed under local anesthesia in a clinic based procedure room, and results in only one needle entry point at the palm and one needle exit point in the wrist. The technique ensures that the division happens only inside the loop of the thread around the TCL without injuring adjacent tissues. The features of the procedure includes the potentials of reduced risk of iatrogenic injury, reduced surgical cost, and reduced patient recovery time.[27][28][29]

Percutaneous carpal tunnel release edit

The sono-guided percutaneous surgical technique approach involves the use of ultrasound visibility by a surgeon in a day clinic setting, under local anesthesia, and without the use of a tourniquet or sedation. Before the operation, a thorough sonographic evaluation is conducted to identify important landmarks, structures at risk, and anatomical variations. Specific classifications, such as the Lanz classification for the median nerve motor branch, the Ferrari and Gilbert classification for Berrettini anastomosis, and the Lippert and Pabst classification for the superficial palmar arch, are assessed. The cross-sectional area (CSA) of the median nerve and the transverse carpal ligament's (TCL) thickness are measured at several anatomically significant points.[30]

The limb is disinfected and draped during the procedure, ensuring sterility with a covered ultrasound probe and sterile gel. Local anesthesia is applied under sonographic control. A small skin puncture opening is made with a 14-gauge catheter, followed by the introduction of a 1.5mm probe to palpate the TCL and establish the safe zone for release. The surgical instrument, similar to a bent needle, is then used for the gradual release of the Transverse Carpal Ligament, monitored by sonographic imaging to confirm completeness. If uncertainty remains regarding the full release of the TCL, the procedure may be repeated. [31]


Outcomes edit

Carpal tunnel syndrome cannot be cured, but surgery to alleviate symptoms can be successful. Success is greatest in patients with the most typical symptoms. The most common cause of failure is incorrect diagnosis, and this surgery will only mitigate carpal tunnel syndrome, and will not relieve symptoms with alternative causes. The recurrence rate after primary carpal tunnel release is approximately 2%. The success rate of surgery to relieve symptoms depends on the definition of “success” and the metrics applied. For example, with respect to alleviation of symptoms, up to 90% success is reported. Yet with respect to patient satisfaction, approximately 50% is reported. The rate at which patients return to their former employer also is less than 90%. Yet approximately 25% of those patients are re-tasked to another duty in order to minimize further stress on their hands.[32][33][34]

In general, endoscopic techniques are as effective as traditional open carpal surgeries,[35][36] though the faster recovery time (2–3 weeks) typically noted in endoscopic procedures is felt by some to possibly be offset by higher complication rates.[37][38]

A recent Cochrane Review showed that the use of absorbable sutures (stitches that the body dissolves) provide the same outcomes (i.e. scar quality, pain levels, etc) as non-absorbable sutures[39] but are much cheaper.[40][41]

Risks and complications edit

Complications and failures are estimated to be 3% to 19%. Unrelieved symptoms may lead to repeat operation in 12% of patients.[10] Because most patients obtain relief in the early postoperative period, it is difficult to attribute one anatomical cause to recurrent symptoms. Findings reported at reoperation include incomplete release of the transverse carpal ligament, re-formation of the flexor retinaculum, scarring in the carpal tunnel, median or palmar cutaneous neuroma, palmar cutaneous nerve entrapment, recurrent granulomatous or inflammatory tenosynovitis, and hypertrophic scar in the skin.[10]

As with most soft-tissue surgeries of the hand, postoperative wound infection is rare after CTR, occurring in only 0.36% of cases.[42] Most of these are superficial, with only 0.13% of cases having deep infections.

The most common complication with open carpal tunnel release surgery is pillar pain (pain in the thenar or hypothenar eminence that is worse with pressure or grasping), followed by laceration of the palmar cutaneous branch of the median nerve. Pillar pain occurs in approximately 25% of surgical cases, with symptom resolution reported in most patients by 3 months. There is no difference in the rates of pillar pain between patients undergoing open or endoscopic release. Incomplete release of the TCL with persistent or recurrent CTS symptoms is the most frequent complication attributed to endoscopic carpal tunnel release surgery. Recurrent CTS develops in 7% to 20% of surgical cases.[43] The problem is difficult to address, and revision surgery is less successful than primary carpal tunnel release surgery.[44]

Injury to the median nerve proper occurs in 0.06% of cases.[45] Risk of nerve injury has been found to be higher in patients undergoing endoscopic CTR compared with open, though most are temporary neurapraxias.[46] The palmar cutaneous branch of the median nerve may be injured during superficial skin dissection or while releasing the proximal portion of the transverse carpal ligament with scissors or an endoscopic device. Nerve injury can lead to persistent paresthesias or painful neuroma formation.[42]

In addition to pain, patients may have mechanical symptoms related to the flexor tendons contained in the carpal tunnel after release of the transverse carpal ligament. Damage to the tendons during release may cause inflammation and adhesions leading to triggering at the wrist.

Balloon carpal tunnelplasty edit

Balloon carpal tunnelplasty is an experimental technique that uses a minimally invasive balloon catheter director to access the carpal tunnel. As with a traditional tissue elevator-expander, balloon carpal tunnelplasty elevates the carpal ligament, increasing the space in the carpal tunnel. As an experiment it has been described but there are no peer-reviewed series available in the current hand surgical literature that review or comment upon the procedure. The technique is performed through a one-centimeter incision at the distal wrist crease. It is monitored and expansion is confirmed by direct or endoscopic visualization. The technique's secondary goals are to avoid to incision in the palm of the hand, to avoid cutting of the transverse carpal ligament, and to maintain the biomechanics of the hand.[47]

See also edit

References edit

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  47. ^ Berger, Lee; Li, Z. M. (2006). "Balloon carpal tunnel plasty: first comparative clinical study" (PDF). Pittsburgh Orthopaedic Journal. 17: 80.

January 01, 1970
carpal, tunnel, surgery, also, called, carpal, tunnel, release, carpal, tunnel, decompression, surgery, nerve, decompression, which, transverse, carpal, ligament, divided, surgical, treatment, carpal, tunnel, syndrome, recommended, when, there, constant, just,. Carpal tunnel surgery also called carpal tunnel release CTR and carpal tunnel decompression surgery is a nerve decompression in which the transverse carpal ligament is divided It is a surgical treatment for carpal tunnel syndrome CTS and recommended when there is constant not just intermittent numbness muscle weakness or atrophy and when night splinting no longer controls intermittent symptoms of pain in the carpal tunnel 1 In general milder cases can be controlled for months to years but severe cases are unrelenting symptomatically and are likely to result in surgical treatment 2 3 Approximately 500 000 surgical procedures are performed each year and the economic impact of this condition is estimated to exceed 2 billion annually 4 Carpal tunnel surgeryIndication of the site of the problem in carpal tunnel syndrome Specialtyorthopedic surgeon edit on Wikidata Contents 1 Indications 2 Surgical techniques 2 1 Open surgery 2 1 1 Postoperative care 2 2 Limited open carpal tunnel release 2 2 1 Carpal tunnel release through mini transverse approach CTRMTA 2 3 Endoscopic carpal tunnel release 2 4 Thread carpal tunnel release 2 5 Percutaneous carpal tunnel release 3 Outcomes 4 Risks and complications 5 Balloon carpal tunnelplasty 6 See also 7 ReferencesIndications editThe procedure is used as a treatment for carpal tunnel syndrome and according to the American Academy of Orthopaedic Surgeons AAOS treatment guidelines early surgery is an option when there is clinical evidence of median nerve denervation or the patient elects to proceed directly to surgical treatment 5 Management decisions rely on several factors including the etiology and chronicity of CTS symptom severity and individual patient choices Nonsurgical treatment measures are appropriate in the initial management of most idiopathic cases of CTS Splinting and corticosteroid injections may be prescribed and they have proven benefits Steroid injections can provide relief if symptoms are of short duration If no improvement is seen following steroid injection carpal tunnel release may not be as effective 6 Surgical treatment is indicated in acute cases of CTS from trauma or infection in chronic cases with denervation of the abductor pollicis brevis muscle or a pronounced sensory loss and in cases unresponsive to conservative management 7 Before pursuing CTR confirmation of the diagnosis of carpal tunnel syndrome is recommended given that the symptoms of median nerve entrapment can overlap with other disorders including cervical radiculopathy thoracic outlet syndrome and pronator syndrome 8 Beyond physical exam testing confirmatory electrodiagnostic studies are recommended for all patients being considered for surgery 9 Nerve conduction studies are reported to be 90 sensitive and 60 specific for the diagnosis of carpal tunnel syndrome 10 These studies provide the surgeon with a patient baseline and can rule out other syndromes that present similarly Specifically a distal motor latency of more than 4 5 ms and a sensory latency of more than 3 5 ms are considered abnormal 10 Of note these electrodiagnostic studies can yield normal results despite symptomatic median nerve compression In this scenario CTR should be considered only if physical signs of median nerve dysfunction are present in addition to classical symptoms of CTS 8 Surgical techniques edit nbsp Scars from carpal tunnel release surgery Two different techniques were used The left scar is 6 weeks old the right scar is 2 weeks old Also note the muscular atrophy of the thenar eminence in the left hand a common sign of advanced CTS The goal of any carpal tunnel release surgery is to divide the transverse carpal ligament and the distal aspect of the volar ante brachial fascia thereby decompressing the median nerve and providing relief 8 The transverse carpal ligament is a wide ligament that runs across the hand from the scaphoid bone to the hamate bone and pisiform It forms the roof of the carpal tunnel and when the surgeon cuts across it i e in a line with the ring finger it no longer presses down on the nerve inside relieving the pressure 11 unreliable medical source The two major types of surgery are open carpal tunnel release and endoscopic carpal tunnel release Open carpal tunnel release can be performed through a standard incision or a limited incision Endoscopic carpal tunnel release which can be performed through a single or double portal Most surgeons historically have performed the open procedure widely considered to be the gold standard citation needed However since the 1990s a growing number of surgeons now offer endoscopic carpal tunnel release 12 Existing research does not show significant differences in outcomes of one kind of surgery versus the other so patients can choose a surgeon they like and the surgeon also will practice the technique they like 13 Historically carpal tunnel release was performed under general anesthesia with a tourniquet however the worldwide trend is now for wide awake hand surgery with no tourniquet no general or regional anesthesia and no sedation which also enables carpal tunnel release to be performed under local anesthesia as a one stop procedure 14 After carpal tunnel surgery the long term use of a splint on the wrist should not be used for relief 15 Splints do not improve grip strength lateral pinch strength or bowstringing 15 While splints may protect people working with their hands using a splint does not change complication rates or patient satisfaction 15 Using splints can cause problems including adhesion and lack of flexibility 15 Carpal tunnel surgery is usually performed by a hand surgeon orthopaedic surgeon or plastic surgeon citation needed Open surgery edit nbsp The traditional open carpal tunnel surgery Open carpal tunnel release OCTR has long been considered the gold standard surgical treatment for CTS This approach allows for direct visualization of the anatomy and possible anatomical variants which minimizes the risk of damaging critical structures It also provides the surgeon with the option of probing the carpal canal for other structures that may be contributing to the compression of the median nerve include ganglions and tumors The technique involves placement of a longitudinal incision at the base of the hand There are a few ways to determine where the incision can be placed One of the ways is to make an incision over the carpal tunnel where it lines up with the 3rd web space of the hand The other way is to bring the ring finger down and where that lays is where the incision can be made 16 The length of the skin incision varies but typically is lt 4 cm The subcutaneous tissue the superficial palmar fascia and the muscle of the palmaris brevis if present are also incised in line with the incision thereby exposing the TCL 17 With the incision of the transverse carpal ligament 18 19 longitudinally the median nerve is exposed The release is extended to the superficial palmar arterial arch distally and for a limited distance proximally beneath the wrist flexion creases 7 For optimal outcomes the TCL must be completely released while avoiding damage to the vital structures The flexor tendons can be retracted to inspect the floor of the canal for lesions Scar tenderness pillar pain weakness and delays in return to work can occasionally be seen following an OCTR citation needed The open release technique has been compared to other treatments 20 Postoperative care edit A light compression dressing and a volar splint may be applied The hand is actively used as soon as possible after surgery but the dependent position is avoided Usually the dressing can be removed by the patient at home 2 or 3 days after the surgery and then gentle washing and showering of the hand is permitted Gradual resumption of normal hand use is encouraged If non absornable sutures are used they are removed after 10 to 14 days A splint may be continued for comfort as needed for 14 to 21 days Limited open carpal tunnel release edit Limited incision carpal tunnel release techniques similar to endoscopic surgery were developed to decrease palmar discomfort and hasten the return to activities It allows for adequate exposure to avoid complications and keeps the incision out of the painful portion of the palm The surgical approach involves a small skin incision in the palm followed by release of the distal end of the TCL under direct visualization 7 Patients experience reduced post operative pain as this techniques leaves the palmar fascia intact over the proximal TCL 8 Carpal tunnel release through mini transverse approach CTRMTA edit Sayed Issa s approach 21 is a carpal tunnel release through a small approach on the distal wrist crease it is about 1 5 cm the benefits of this technique are less surgical traumatic and more tender it takes less time for rehabilitation so the patient can work next day of operation and it has very cosmetic and gentle scar in results and outcome 22 A skin incision is made and the surgeon will dissect through fat and the superficial palmar fascia Once the superficial palmar fascia has been released the transverse carpal ligament will be exposed The transverse carpal ligament will be cut longitudinally to release it 16 Endoscopic carpal tunnel release edit Main article Endoscopic carpal tunnel release Endoscopic techniques for carpal tunnel release involve one or two smaller incisions less than half inch each through which instrumentation is introduced including a synovial elevator probes knives and an endoscope used to visualize the underside of the transverse carpal ligament 23 unreliable medical source The endoscopic methods do not divide the subcutaneous tissues or the palmar fascia to the same degree as does the open method 24 Advocates of endoscopic carpal tunnel release cite less palmar scarring and ulnar pillar pain rapid and complete return of strength and return to work and activities at least 2 weeks sooner than for open release Some studies comparing open and endoscopic carpal tunnel release found no significant differences in function The advantages of the endoscopic technique in grip strength and pain relief are realized within the first 12 weeks and seem to benefit those patients not involved in compensable injuries However problems related to endoscopic carpal tunnel release include 1 a technically demanding procedure 2 a limited visual field that prevents inspection of other structures 3 the vulnerability of the median nerve flexor tendons and superficial palmar arterial arch 4 the inability to control bleeding easily and 5 the limitations imposed by mechanical failure 10 Although this technique has proved to be effective it may not be applicable to every patient with carpal tunnel syndrome If an endoscopic release cannot be accomplished safely the procedure should be converted to an open technique Briefly the endoscopic method can be performed using either one portal 25 or two portals 26 In the Agee single portal technique a small transverse skin incision is made at the ulnar border of the palamaris longus tendon A distally based flap of forearm fascia is elevated to expose the proximal end of the carpal canal With the wrist held in slight extension the endoscopic blade is inserted into the canal the distal edge of the TCL is identified and the ligament is sectioned distally to proximally The two portal technique requires a proximal incision and a distal incision deep to the TCL citation needed Many surgeons have embraced limited incision methods It is considered to be the procedure of choice for many of these surgeons with respect to idiopathic carpal tunnel syndrome citation needed Supporting this are the results of some of the previously mentioned series that cite no difference in the rate of complications for either method of surgery Thus there has been broad support for either surgical procedure using a variety of devices or incisions citation needed Thread carpal tunnel release edit source source source source source source source Procedure of Thread Carpal Tunnel Release The thread carpal tunnel release TCTR is a minimally invasive procedure for transecting the transverse carpal ligament TCL by sawing a piece of thread looped percutaneously under the guidance of ultrasound The TCTR is performed under local anesthesia in a clinic based procedure room and results in only one needle entry point at the palm and one needle exit point in the wrist The technique ensures that the division happens only inside the loop of the thread around the TCL without injuring adjacent tissues The features of the procedure includes the potentials of reduced risk of iatrogenic injury reduced surgical cost and reduced patient recovery time 27 28 29 Percutaneous carpal tunnel release edit The sono guided percutaneous surgical technique approach involves the use of ultrasound visibility by a surgeon in a day clinic setting under local anesthesia and without the use of a tourniquet or sedation Before the operation a thorough sonographic evaluation is conducted to identify important landmarks structures at risk and anatomical variations Specific classifications such as the Lanz classification for the median nerve motor branch the Ferrari and Gilbert classification for Berrettini anastomosis and the Lippert and Pabst classification for the superficial palmar arch are assessed The cross sectional area CSA of the median nerve and the transverse carpal ligament s TCL thickness are measured at several anatomically significant points 30 The limb is disinfected and draped during the procedure ensuring sterility with a covered ultrasound probe and sterile gel Local anesthesia is applied under sonographic control A small skin puncture opening is made with a 14 gauge catheter followed by the introduction of a 1 5mm probe to palpate the TCL and establish the safe zone for release The surgical instrument similar to a bent needle is then used for the gradual release of the Transverse Carpal Ligament monitored by sonographic imaging to confirm completeness If uncertainty remains regarding the full release of the TCL the procedure may be repeated 31 Outcomes editCarpal tunnel syndrome cannot be cured but surgery to alleviate symptoms can be successful Success is greatest in patients with the most typical symptoms The most common cause of failure is incorrect diagnosis and this surgery will only mitigate carpal tunnel syndrome and will not relieve symptoms with alternative causes The recurrence rate after primary carpal tunnel release is approximately 2 The success rate of surgery to relieve symptoms depends on the definition of success and the metrics applied For example with respect to alleviation of symptoms up to 90 success is reported Yet with respect to patient satisfaction approximately 50 is reported The rate at which patients return to their former employer also is less than 90 Yet approximately 25 of those patients are re tasked to another duty in order to minimize further stress on their hands 32 33 34 In general endoscopic techniques are as effective as traditional open carpal surgeries 35 36 though the faster recovery time 2 3 weeks typically noted in endoscopic procedures is felt by some to possibly be offset by higher complication rates 37 38 A recent Cochrane Review showed that the use of absorbable sutures stitches that the body dissolves provide the same outcomes i e scar quality pain levels etc as non absorbable sutures 39 but are much cheaper 40 41 Risks and complications editComplications and failures are estimated to be 3 to 19 Unrelieved symptoms may lead to repeat operation in 12 of patients 10 Because most patients obtain relief in the early postoperative period it is difficult to attribute one anatomical cause to recurrent symptoms Findings reported at reoperation include incomplete release of the transverse carpal ligament re formation of the flexor retinaculum scarring in the carpal tunnel median or palmar cutaneous neuroma palmar cutaneous nerve entrapment recurrent granulomatous or inflammatory tenosynovitis and hypertrophic scar in the skin 10 As with most soft tissue surgeries of the hand postoperative wound infection is rare after CTR occurring in only 0 36 of cases 42 Most of these are superficial with only 0 13 of cases having deep infections The most common complication with open carpal tunnel release surgery is pillar pain pain in the thenar or hypothenar eminence that is worse with pressure or grasping followed by laceration of the palmar cutaneous branch of the median nerve Pillar pain occurs in approximately 25 of surgical cases with symptom resolution reported in most patients by 3 months There is no difference in the rates of pillar pain between patients undergoing open or endoscopic release Incomplete release of the TCL with persistent or recurrent CTS symptoms is the most frequent complication attributed to endoscopic carpal tunnel release surgery Recurrent CTS develops in 7 to 20 of surgical cases 43 The problem is difficult to address and revision surgery is less successful than primary carpal tunnel release surgery 44 Injury to the median nerve proper occurs in 0 06 of cases 45 Risk of nerve injury has been found to be higher in patients undergoing endoscopic CTR compared with open though most are temporary neurapraxias 46 The palmar cutaneous branch of the median nerve may be injured during superficial skin dissection or while releasing the proximal portion of the transverse carpal ligament with scissors or an endoscopic device Nerve injury can lead to persistent paresthesias or painful neuroma formation 42 In addition to pain patients may have mechanical symptoms related to the flexor tendons contained in the carpal tunnel after release of the transverse carpal ligament Damage to the tendons during release may cause inflammation and adhesions leading to triggering at the wrist Balloon carpal tunnelplasty editBalloon carpal tunnelplasty is an experimental technique that uses a minimally invasive balloon catheter director to access the carpal tunnel As with a traditional tissue elevator expander balloon carpal tunnelplasty elevates the carpal ligament increasing the space in the carpal tunnel As an experiment it has been described but there are no peer reviewed series available in the current hand surgical literature that review or comment upon the procedure The technique is performed through a one centimeter incision at the distal wrist crease It is monitored and expansion is confirmed by direct or endoscopic visualization The technique s secondary goals are to avoid to incision in the palm of the hand to avoid cutting of the transverse carpal ligament and to maintain the biomechanics of the hand 47 See also editcarpal tunnel carpal tunnel syndrome median nerve nerve decompressionReferences edit Hui A C F Wong S M Tang A Mok V Hung L K Wong K S 2004 Long term outcome of carpal tunnel syndrome after conservative treatment International Journal of Clinical Practice 58 4 337 9 doi 10 1111 j 1368 5031 2004 00028 x PMID 15161116 S2CID 12545439 Kouyoumdjian JA Morita MP Molina AF Zanetta DM Sato AK Rocha CE Fasanella CC 2003 Long term outcomes of symptomatic electrodiagnosed carpal tunnel syndrome Arquivos de Neuro Psiquiatria 61 2A 194 8 doi 10 1590 S0004 282X2003000200007 PMID 12806496 Louie Dexter September 2012 Long term outcomes of carpal tunnel release a critical review of the literature Hand 7 3 242 246 doi 10 1007 s11552 012 9429 x PMC 3418353 PMID 23997725 Palmer DH Hanrahan LP Social and economic costs of carpal tunnel surgery Instr Course Lect 1995 44 167 72 PMID 7797856 Keith Michael Warren Masear Victoria Amadio Peter C Andary Michael Barth Richard W Graham Brent Chung Kevin Maupin Kent Watters William C III Haralson Robert H III Turkelson Charles M Wies Janet L McGowan Richard 2009 Treatment of Carpal Tunnel Syndrome Journal of the American Academy of Orthopaedic Surgeons 17 6 397 405 doi 10 5435 00124635 200906000 00008 PMID 19474449 S2CID 12123783 AAOS Comprehensive Orthopaedic Review 2014 a b c Cranford C Sabin Ho Jason Y Kalainov David M Hartigan Brian J September 2007 Carpal Tunnel Syndrome Journal of the American Academy of Orthopaedic Surgeons 15 9 537 548 doi 10 5435 00124635 200709000 00004 PMID 17761610 S2CID 9744679 a b c d Surgery for Carpal Tunnel Syndrome www uptodate com Retrieved 2019 03 25 Management of Carpal Tunnel Syndrome Evidence Based Clinical Practice Guideline American Academy of Orthopaedic Surgeons February 29 2016 Archived from the original on March 30 2020 Retrieved April 30 2019 a b c d e Calandruccio James H 2012 Carpal Tunnel Syndrome Ulnar Tunnel Syndrome and Stenosing Tenosynovitis In Canale S Terry Beaty James H eds Campbell s Operative Orthopaedics Elsevier Health Sciences pp 3637 60 ISBN 978 0 323 08718 6 A Patient s Guide to Endoscopic Carpal Tunnel Release handuniversity com Archived from the original on 21 August 2009 Rodner Craig M Katarincic Julia 2006 Open Carpal Tunnel Release Techniques in Orthopaedics 21 1 3 11 c 2006 Lippincott Williams amp Wilkins Inc lt http nemsi uchc edu clinical services orthopaedic handwrist pdfs article carpaltunnel pdf Archived 2020 10 04 at the Wayback Machine gt Scholten Rob JPM Mink van der Molen Aebele Uitdehaag Bernard MJ Bouter Lex M de Vet Henrica CW Scholten Rob JPM 2007 Surgical treatment options for carpal tunnel syndrome Reviews 2007 4 CD003905 doi 10 1002 14651858 CD003905 pub3 PMC 6823225 PMID 17943805 Bismil M Bismil Q Harding D Harris P Lamyman E Sansby L 2012 Transition to total one stop wide awake hand surgery service audit a retrospective review JRSM Short Reports 3 4 23 doi 10 1258 shorts 2012 012019 PMC 3375846 PMID 22715424 a b c d American Academy of Orthopaedic Surgeons February 2013 Five Things Physicians and Patients Should Question Choosing Wisely an initiative of the ABIM Foundation American Academy of Orthopaedic Surgeons retrieved 19 May 2013 which cites Keith MW Masear V Chung KC Amadio PC Andary M Barth RW Maupin K Graham B Watters WC 3rd Turkelson CM Haralson RH 3rd Wies JL McGowan R American Academy of Orthopaedic Surgeons Jan 2010 American Academy of Orthopaedic Surgeons clinical practice guideline on the treatment of carpal tunnel syndrome The Journal of Bone and Joint Surgery American Volume 92 1 218 9 doi 10 2106 JBJS I 00642 PMC 6882524 PMID 20048116 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint numeric names authors list link a b 1 Ilyas A Acharya S Carpal Tunner Release J Med Ins 2017 2017 206 1 doi https jomi com article 206 1 Mintalucci Dominic J Leinberry Charles F October 2012 Open Versus Endoscopic Carpal Tunnel Release Orthopedic Clinics of North America 43 4 431 437 doi 10 1016 j ocl 2012 07 012 PMID 23026458 Ariyan Stephan Watson H Kirk October 1977 The palmar approach for the visualization and release of the carpal tunnel An analysis of 429 cases Plastic and Reconstructive Surgery 60 4 539 547 doi 10 1097 00006534 197710000 00007 PMID 909963 S2CID 2258781 Nigst Henry June 1992 The carpal tunnel syndrome Operative technique for surgical decompression Orthopaedics and Traumatology 1 2 122 129 doi 10 1007 BF02620406 Vasiliadis Haris S Sakellaridou Maria Eleni Shrier Ian Salanti Georgia Scholten Rob JPM Vasiliadis Haris S 2014 Open release for carpal tunnel syndrome Protocols doi 10 1002 14651858 CD011041 S2CID 70942860 Issa Sayed Abdulhamid M D Carpal Tunnel Release Through Mini Transverse Approach Carpal Tunnel Syndrome Clinical Trial TrialBulletin com Retrieved 16 May 2019 Clinical trial number NCT02766114 for Carpal Tunnel Release Through Mini Transverse Approach CTRMTA at ClinicalTrials gov Endoscopic Carpal Tunnel Release Surgery YouTube Agee JM et al November 1992 Endoscopic release of the carpal tunnel A randomized prospective multicenter study The Journal of Hand Surgery 17 6 987 995 doi 10 1016 S0363 5023 09 91044 9 PMID 1430964 Chow James C Y January 1989 Endoscopic release of the carpal ligament A new technique for carpal tunnel syndrome Arthroscopy 5 1 19 24 doi 10 1016 0749 8063 89 90085 6 PMID 2706047 Agee John M McCarroll H Relton Tortosa Richard D Berry Donald A Szabo Robert M Peimer Clayton A November 1992 Endoscopic release of the carpal tunnel A randomized prospective multicenter study The Journal of Hand Surgery 17 6 987 995 doi 10 1016 S0363 5023 09 91044 9 PMID 1430964 Guo Danqing Yu Tang Ji Yizheng Sun Tiansheng Guo Joseph Guo Danzhu 6 June 2014 A Non Scalpel Technique for Minimally Invasive Surgery Percutaneously Looped Thread Transection of the Transverse Carpal Ligament HAND 10 1 40 8 doi 10 1007 s11552 014 9656 4 PMC 4349829 PMID 25767420 Guo Danqing Guo Danzhu Guo Joseph Malone Daniel Wei Nathan McCool Logan 2016 08 20 A Cadaveric Study for the Improvement of Thread Carpal Tunnel Release Journal of Hand Surgery 41 2016 e351 e357 doi 10 1016 j jhsa 2016 07 098 PMID 27554942 Guo Danqing Guo Danzhu Guo Joseph Schmidt Steven Lytie Rachel 2016 09 12 A Clinical Study of the Modified Thread Carpal Tunnel Release TCTR HAND 12 2016 453 460 doi 10 1177 1558944716668831 PMC 5684915 PMID 28832215 Moungondo Fabian Van Rompaey Hannah Moussa Mohamad K Schuind Frederic 2024 04 10 Prospective evaluation of a novel device for ultrasound guided percutaneous treatment of carpal tunnel and trigger finger disease Efficacy and safety of sono instruments Journal of Ultrasound doi 10 1007 s40477 023 00851 y ISSN 1876 7931 Moungondo Fabian Van Rompaey Hannah Moussa Mohamad K Schuind Frederic 2024 04 10 Prospective evaluation of a novel device for ultrasound guided percutaneous treatment of carpal tunnel and trigger finger disease Efficacy and safety of sono instruments Journal of Ultrasound doi 10 1007 s40477 023 00851 y ISSN 1876 7931 Schmelzer Rodney E Rocca Gregory J Della Caplin David A 2006 Endoscopic Carpal Tunnel Release A Review of 753 Cases in 486 Patients Plastic and Reconstructive Surgery 117 1 177 85 doi 10 1097 01 prs 0000194910 30455 16 PMID 16404264 S2CID 27076250 Quaglietta Paolo Corriero G Endoscopic carpal tunnel release surgery retrospective study of 390 consecutive cases In Alexandre Alberto Bricolo Albino Millesi Hanno eds Advanced Peripheral Nerve Surgery and Minimal Invasive Spinal Surgery Acta Neurochirurgica doi 10 1007 3 211 27458 8 10 ISBN 3 211 23368 7 Park S H Cho B H Ryu K S Cho B M Oh S M Park D S 2004 Surgical Outcome of Endoscopic Carpal Tunnel Release in 100 Patients with Carpal Tunnel Syndrome Minimally Invasive Neurosurgery 47 5 261 5 doi 10 1055 s 2004 830075 PMID 15578337 Scholten R J P M Mink van der Molen A Uitdehaag B M J Bouter L M de Vet H C W 2007 10 17 Surgical treatment options for carpal tunnel syndrome The Cochrane Database of Systematic Reviews 2007 4 CD003905 doi 10 1002 14651858 CD003905 pub3 ISSN 1469 493X PMC 6823225 PMID 17943805 McNally S A Hales PF 2003 Results of 1245 endoscopic carpal tunnel decompressions Hand Surgery 8 1 111 6 doi 10 1142 S0218810403001480 PMID 12923945 Thoma Achilleas Veltri Karen Haines Ted Duku Eric 2004 A Meta Analysis of Randomized Controlled Trials Comparing Endoscopic and Open Carpal Tunnel Decompression Plastic and Reconstructive Surgery 114 5 1137 46 doi 10 1097 01 PRS 0000135850 37523 D0 PMID 15457025 Chow J Hantes M 2002 Endoscopic carpal tunnel release Thirteen years experience with the chow technique The Journal of Hand Surgery 27 6 1011 8 doi 10 1053 jhsu 2002 35884 PMID 12457351 Wade Ryckie G Wormald Justin CR Figus Andrea 1 February 2018 Absorbable versus non absorbable sutures for skin closure after carpal tunnel decompression surgery Cochrane Database of Systematic Reviews 2018 2 CD011757 doi 10 1002 14651858 CD011757 pub2 PMC 6491144 PMID 29390170 Wade Ryckie G Wormald Justin C R Figus Andrea December 2018 Absorbable sutures for skin closure after carpal tunnel decompression A Cochrane review summary PDF Journal of Plastic Reconstructive amp Aesthetic Surgery 71 12 1816 1834 doi 10 1016 j bjps 2018 08 006 PMID 30193827 S2CID 52174749 Wade Ryckie G Wormald Justin C R Figus Andrea June 2019 Response to letter comments on Absorbable sutures for carpal tunnel decompression A Cochrane review summary Journal of Plastic Reconstructive amp Aesthetic Surgery 72 6 1030 1048 doi 10 1016 j bjps 2019 03 022 hdl 11584 282512 PMID 31029583 S2CID 139106113 a b Karl John W Gancarczyk Stephanie M Strauch Robert J April 2016 Complications of Carpal Tunnel Release Orthopedic Clinics of North America 47 2 425 433 doi 10 1016 j ocl 2015 09 015 PMID 26772951 AAEM Quality Assurance Committee Jablecki Charles K Andary Chair Michael T So Yuen T Wilkins Dennis E Williams Faren H December 1993 Literature review of the usefulness of nerve conduction studies and electromyography for the evaluation of patients with carpal tunnel syndrome Muscle amp Nerve 16 12 1392 1414 doi 10 1002 mus 880161220 PMID 8232399 S2CID 44576891 Tung TH Mackinnon SE June 2001 Secondary carpal tunnel surgery Plastic and Reconstructive Surgery 107 7 1830 43 quiz 1844 1933 doi 10 1097 00006534 200106000 00031 PMID 11391209 Okutsu I Hamanaka I Yoshida A April 2009 Pre and postoperative Guyon s canal pressure change in endoscopic carpal tunnel release correlation with transient postoperative Guyon s canal syndrome The Journal of Hand Surgery European Volume 34 2 208 11 doi 10 1177 1753193408100122 PMID 19282410 S2CID 23808298 Hankins Christopher L Brown Michael G Lopez Randolph A Lee Andrew K Dang Joseph Harper R Douglas December 2007 A 12 Year Experience Using the Brown Two Portal Endoscopic Procedure of Transverse Carpal Ligament Release in 14 722 Patients Defining a New Paradigm in the Treatment of Carpal Tunnel Syndrome Plastic and Reconstructive Surgery 120 7 1911 1921 doi 10 1097 01 prs 0000287287 85044 87 PMID 18090755 S2CID 43771394 Berger Lee Li Z M 2006 Balloon carpal tunnel plasty first comparative clinical study PDF Pittsburgh Orthopaedic Journal 17 80 Retrieved from https en 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