The detailed anatomy of the palmar cutaneous nerves and its clinical implications (original) (raw)
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Anatomical variations of Median Nerve at the wrist joint in open carpal tunnel release.
Tikrit Medical Journal 2009; 15(1):133-139
At the wrist, the median nerve passes beneath the flexor retinaculum in a restricted space between the flexor digitorum superficialis and flexor carpi radialis muscles and it supplies the thenar eminence muscles, the first two lumbricals and gives sensory innervation to the skin of the palmar aspect of the lateral three and one-half fingers, including the nail beds on the dorsum. Carpal tunnel syndrome is a well-known clinical entity and the release of the transverse carpal ligament is considered to be the treatment of choice. Both open and endoscopic release of the transverse carpal ligament has yielded satisfactory results for this syndrome. Although these procedures are very common in surgical practice, inadequate release and operative damage to neural elements are very frustrating complication for both the patient and the surgeon. From February 2006 to April 2008 at the operative theater of Tikrit Teaching Hospital, a team work of anatomist, surgeon and forensic medicine physician acting together in this study on 55 patients of carpal tunnel syndrome operated with open carpal tunnel release were evaluated to demonstrate incidental operative findings of variations of the standard median nerve anatomy. The present study revealed anatomical variations of median nerve at the wrist in 11 patients. In three patients, there was an aberrant branch arising from the ulnar side of the median nerve and piercing the ulnar margin of the transverse carpal ligament. Neural variations arising from the ulnar aspect of the median nerve were common and could be a cause of iatrogenic injury during open release. Surgeons should be aware of anomalous branches, which should be recognized and separately decompressed if needed.
Safety of carpal tunnel release with a short incision. A cadaver study
Acta orthopaedica Belgica, 2006
The standard long incision technique for carpal tunnel release causes inevitable damage to skin sensation, the inter-thenar plexus and especially the distal branches of the palmar cutaneous branch of the median nerve (PCM), and may cause long-term disabling pain and scar tenderness. There are many variations in the distal branches of the median nerve at the wrist. Anatomic studies of this region also have important clinical implications to prevent injury to important anatomic structures. The purpose of this study was to evaluate the short-incision carpal tunnel release in cadavers. Several important anatomic structures, with possible anatomic variations, pass through the carpal tunnel, and blind percutaneous transection of the transverse ligament seems to be a high risk procedure. Sixty hands from 40 fresh cadavers were evaluated. Both the transverse ligament and the distal third of the deep forearm fascia were released using a Smillie knife. At the end of each procedure, the hand w...
Discovering an Anatomic Variant of the Palmaris Profundus during Open Carpal Tunnel Release
Plastic and reconstructive surgery. Global open, 2018
A 46-year-old female presented after 3 years of steadily increasing numbness in her hands bilaterally with worse symptoms in her right hand. She reported nighttime paresthesia and exacerbation of her symptoms while writing, typing, and driving. Tinel's and carpal tunnel compression test were positive bilaterally. During the right hand carpal tunnel release, a layer of synovium was present deep to the carpal ligament with a tendinous portion running midline longitudinally along the median nerve. This layer was an anomalous palmaris profundus (PP) tendon within the carpal tunnel, which inserted distally in the palmar fascia. The PP tendon was freed and released. The PP is a rare muscle variation of the forearm and wrist, and although it has no function, it has been reported as a cause of median nerve compression at the wrist. More commonly, it is an incidental finding during carpal tunnel surgery. Because of its close association with the median nerve, it can cause confusion when ...
Novel surgical approach to the carpal tunnel: Cadaveric feasibility study
Clinical Anatomy, 2005
Carpal tunnel syndrome is the most common entrapment neuropathy dealt with by the clinician. Multiple techniques have been used to surgically treat this pathological condition and all of these approach the carpal tunnel from the palmar surface of the hand or wrist. We have developed a novel endoscopic approach to the carpal tunnel utilizing a dorsal approach that necessitates a good appreciation of the anatomy of this region. This approach was carried out in 10 hands. Through a single dorsal incision we were able to transect the flexor retinaculum in all specimens without obvious damage to neural or vascular tissues. The microscissors used in our study were found to be too delicate for transection of the flexor retinaculum thus another cutting tool should be considered. Our dorsal approach with visualization of the internal aspect of the flexor retinaculum may obviate many of the complications that are seen with the current techniques used to surgically treat carpal tunnel syndrome such as injury to the median nerve and its branches. Clinical trials are now necessary with prospective randomized studies that will determine which techniques are most efficacious and minimize complications most effectively.
The palmar cutaneous branch of the median nerve and the palmaris longus tendon: A cadaveric study
The Journal of Hand Surgery, 1994
The purpose of this study was to determine the frequency with which the palmar cutaneous branch of the median nerve passes through the palmaris longus tendon. Fifty-two wrists (27 cadavers) were dissected. In three wrists the palmaris longus tendon was absent. The palmar cutaneous branch was seen to course through the fibers of the palmaris longus in two specimens (different cadavers). The nerve passed through the tendon 1 and 1.5 cm proximal to its insertion into the palmar aponeurosis. In the presence of this anomaly the palmar cutaneous branch of the median nerve is at risk of injury during harvesting of the palmaris longus tendon for grafts. To avoid injury, we recommend transecting the tendon 2 cm proximal to its insertion into the palmar aponeurosis. (J Hand Surg 1994;19A:199-202.)
Anatomic variations of the median nerve in carpal tunnel release
Clinical Anatomy, 2008
Carpal tunnel syndrome (CTS) is a common focal peripheral neuropathy. Increased pressure in the carpal tunnel results in median nerve compression and impaired nerve perfusion, leading to discomfort and paresthesia in the affected hand. Surgical division of the transverse carpal ligament is preferred in severe cases of CTS and should be considered when conservative measures fail. A through knowledge of the normal and variant anatomy of the median nerve in the wrist is fundamental in avoiding complications during carpal tunnel release. This paper aims to briefly review the anatomic variations of the median nerve in the carpal tunnel and its implications in carpal tunnel surgery.
Definition of a safe-zone in open carpal tunnel surgery: a cadaver study
Surgical and Radiologic Anatomy, 2010
Carpal tunnel decompression is one of the most common surgical procedures in hand surgery. Cutaneous innervation of the palm by median and ulnar nerves was evaluated to find a suitable incision preserving cutaneous nerves. A morphometric study was designed to define the safe-zone for mini-open carpal tunnel release. Sixteen fresh-frozen (8 right, 8 left) and 14 formalin-fixed (8 right, 6 left) cadaveric hands were dissected. Anatomy of the palmar cutaneous branch of the median and the ulnar nerve, motor branch of the median nerve, superficial palmar arch were evaluated relative to the surgical incision. We also identified the motor branch of the median nerve. Detailed measurements of the whole palmar region are reported in this study. The motor branch of the median nerve was extraligamentous as 60%, subligamentous as 34%, transligamentous as 6%. The palmar cutaneous branches of the median and the ulnar nerves in the palmar region were classified as Type A (34%), Type B (13%), Type C (13%), Type D (none), Type E (40%) according to forms of palmar cutaneous innervation originating from the ulnar and median nerves. Injury to the palmar cutaneous branch of the median nerve (PCBMN) is the most common complication of the carpal tunnel surgery. Various techniques were described to decrease post-operative morbidity. Based on these anatomic findings mini incision between the superficial palmar arch and the most distal part of the PCBMN in the palmar region is the safe-zone for carpal tunnel surgery.
Journal of Neurosurgery, 2011
Object The palmar cutaneous branch of the ulnar nerve (PCUN) has received little attention in the literature, and to the authors' knowledge, has received no attention in the neurosurgical literature. The present study was performed to help the surgeon minimize postoperative complications of nerve decompression at the wrist. Methods Forty cadaveric upper limbs underwent dissection of the ulnar nerve in the forearm, at the wrist, and in the palm. The PCUN was investigated and when identified, measurements were made and relationships documented between this cutaneous branch and the ulnar artery. The length and width of the PCUN were measured, as was the distance from the medial epicondyle of the humerus to the origin of the PCUN from the ulnar nerve. Results A PCUN was found on 90% of sides. The origin of the PCUN from the ulnar nerve was found to lay a mean of 14.3 cm distal to the medial epicondyle. The mean length and width of this branch were 13 and 0.08 cm, respectively. In th...
Surgical Neurology International, 2011
Background: In recent years, distal nerve transfers have become a valid tool for nerve reconstruction. Though grafts remain the gold standard for proximal median nerve injuries, a new distal transfer of flexor carpi ulnaris branches of the ulnar nerve to selectively restore anterior interosseous nerve function, concomitant with median nerve graft repair, could enhance outcomes. The objective of this paper is to anatomically analyze a technique to selectively reinnervate the thumb and index flexors. Methods: Both the median and ulnar nerves were dissected in 10 cadavers. First and second branches to the flexor carpi ulnaris (FCU) were measured for length at its emergence from the ulnar nerve, and for width. The emergence of the AIN, just proximal to the arch of the flexor digitorum superficialis, was dissected, and the distance measured from this point to its motor entry at the long flexor pollicis and its branch to the long index flexor. A tensionless repair was performed between one FCU branch and the AIN. Results: The mean AIN length was 32.3±8.20 mm and width 2.4±0.49 mm. The first branch from the ulnar nerve to the FCU measured 20.8±2.04 mm and 1.52±0.44 mm, while the second, more distal branch measured 24.3±6.71 and 1.9±0.17 mm, respectively. In all dissections, it was possible to contact both the proximal and distal branches of the ulnar nerve to the FCU with the distal stump of the divided AIN, with no tension or need for interposed nerve grafts. Conclusions: Though proximal reconstruction remains the gold standard, new distal nerve transfer techniques may improve outcomes.