Nerve Compressions at the Wrist

Nerve Compressions at the Wrist
Carpal Tunnel Syndrome

Normal Wrist Anatomy and biomechanics

The wrist is a biomechanically complex joint allowing the wrist to move in extension (up), flexion (down), radial deviation (towards the thumb), ulnar deviation (towards the small finger) and minimal degrees of rotation. Functionally the wrist’s primary role, like the shoulder and elbow, is to position the hand in space. This accurate positioning, allows the hand to perform a vast array of activities that range from skillful manipulation of fine objects to handling heavy objects, including supporting the entire body weight.
To understand the wrist we arbitrarily divide it into 3 layers:

1- First layer corresponds to the bones
2- Second layer corresponds to the capsule and ligaments
3- Third layer corresponds to the remaining soft tissues (tendons, muscles, nerves, vessels)

These three layers are covered by the skin which we will discuss below.
The first layer or bonylayer begins at the metacarpal bases distally (finger side), and extends towards the very end of the forearm bones proximally (elbow side). The bones comprising the wrist include the 5 metacarpal bases, 8 carpal bones (wrist bones) which are organized in 2 rows and the distal ends of the radius and ulna (forearm bones). From distal (finger side) to proximal (elbow side), these bones form the following joints:

The five carpo-metacarpal(CMC) joints, midcarpal joint, radiocarpal joint, ulnocarpal jointand thedistal radio-ulnar joint (DRUJ).





The First CMC joint is at the base of the thumb and articulates with the trapezium, a carpal wrist bone, shaped like a horse’s saddle, that permits a wide range of motion including thumb rotation of 120 degrees, distinguishing humans from other mammals. The First Metacarpal and Trapezium are supported by a strong set of ligaments that surroundthe joint (second layer) allowing stable, thumb opposition against the rest of the fingers. The ability to oppose the thumb is responsible for 40 % of the function generated by the hand. The CMC joints of the 2nd and 3rd digits have minimal motion secondary to short, taut ligaments that surround the joint at the 2nd (index) and 3rd (middle) metacarpals bases and the distal end of the carpal bones including the Trapezium,Trapezoid and Hamate bones. This unit serves as the stable foundation around which the thumb, ring and small finger metacarpals move around. The CMC joints of the ring and small fingers are formed by 4th and 5th metacarpals, capitate and hamate wrist bones. These joints are more mobile and together with the 1st metacarpal create a gutter or cup configuration in the palm of the hand that facilitates the gripping of instruments and small objects.


The carpal bones comprise 8 wrist bones that function as a unit by virtue of having limited motion between each other. Only 7 of the 8 carpal (wrist) bones play a significant functional role in wrist stability and mobility.
The 7 important bones are named starting at the distal row (finger side) and from the thumb side:

1- Trapezium,
2- Trapezoid,
3- Capitate,
4 Hamate, and in the proximal row starting on the thumb side
5- Scaphoid,
6- Lunate and
7- Triquetrum.

The Pisiform is the eighth bone but does not play a functional role, however, it can be a source of wrist pain when sustaining a fracture or as a consequence of degenerative arthritis in the pisotriquetral articulation. The carpal bones are almost entirely covered by cartilage and receive their limited blood supply through small vessel branches that enter the bones through little tunnels where the ligaments attach.


Just proximal to the carpal bones (elbow side) are the Radius and Ulna whose articular surfaces form a cup that complements the carpal bones. Together, they form the radiocarpal joint that serves to support the proximal carpal row in a functional ball and socket mechanism. The radius with a much larger articular surface to cradle the carpus, transfers about 80 % of the wrist load. The radius and ulna have a second joint that provides forearm rotation called the Distal Radio Ulnar Joint (DRUJ). The Triangular FibroCartilage Complex is a fibrous structure containing collagenous fibers (ligaments) embedded in a fibrocartilage matrix that complements the distal end of the radius and ulna to complete the cup configuration. The DRUJ provides a cushion between the carpus and the distal ulna and is considered the main stabilizer of the DRUJ. For full normal forearm rotation to occur, the DRUJ is complemented at the elbow by a joint called the proximal radio-ulnar joint (PRUJ).





The Second Layeris composed of the wrist ligaments, a complex intermingling of collagen fibers that join the metacarpals to the carpals and to the radius and ulna, creating stable, balanced wrist motion during our daily activities. These ligaments are taut structures embedded in a thin capsule that function to reinforce key areas of the wrist. Between the carpal bones, a deeper layer of ligaments, called the intra-carpal ligaments, allow a restricted amount of motion and is the reason that the carpal bones function as a unit. The shape and position of the carpal bones is critical for proper function and when injury occurs, it is of vital importance to re-establish the bone anatomic shapes if normal function is to be achieved.


The Third Layer is formed by the tendons, muscles, vessels and nerves.
The tendons about the wrist are divided into flexors (palmar side) and extensors (back hand side). The extensor tendons are in the back of the wrist and travel through 6 independent compartments having 9 of these tendons corresponding to finger motion and 3 tendons corresponding to wrist motion. Compartments 1 and 3 controls the thumb tendons, compartments 2 and 6 the wrist extensors and compartments 4 and 5 the finger extensors.

There are nine flexor tendons that travel through a fibro-osseous tunnel at the wrist called the carpal canal. It is formed by the carpal bones and the transverse carpal ligament. There are three tendons that flex the wrist but only one of these three, the flexor carpi radialis, travels in an independent wrist compartment in the carpal canal.

Radial Artery Ulnar Artery
The primary vessels or channels that supply blood to the hand while traveling across the wrist are the Radial and Ulnar Arteries. An arcade of smaller branches that interconnect the radial and ulnar arteriesare safety pathways that allow the continuation of blood flow if the radial and ulnar artery becomes occluded. The blood returns to the heart through the veins which are more prominent in the back of the hand and wrist. The major nerves about the wrist are the Median nerve that travels together with the 9 flexor tendons in the carpal tunnel, the Ulnar nerve that together with the ulnar artery travel through Guyon’s canal and the Radial nerve in the back of the forearm. Terminal smaller branches provide sensation to the superficial and deeper levels within the wrist.

Pathology

Carpal tunnel syndrome is the most frequent cause of nerve compression in the human body. It is caused by compression of the median nerve at the level of the wrist. The median nerve and 9 tendons occupy a tight space called the carpal tunnel. When the tendons swell, pressure is placed on the nerve and the fingers start to tingle and go numb. The hand becomes weak, cramps, and some patients begin to drop items they are using from either poor sensation and control of the grasp mechanism, or from weakness. Pain may radiate from the fingers across the wrist and up the forearm or even more proximal to the shoulder. These symptoms are often worse at night and can cause nighttime awakening. The condition is made worse by leaving the wrist in a poor positions (excessive flexion or extension) for a prolonged time, or from repetitive activities that also places the wrist in a poor functional position. The most common mistake is to assume that all patients who have these symptoms suffer from carpal tunnel syndrome. There are many other conditions that can cause similar symptoms. Sorting this out is done by a hand specialist trained in nerve compression surgery. It is common to obtain an electrical nerve test before surgery for treatment decisions, prognosis and for a baseline study for future comparison.

Treatment

Three non-surgical steps are taken to relieve symptoms. A splint is used to keep the wrist straight instead of bent at night or during work or leisure activities.Therapists can teach the patient to use the hands in a safe ergonomic way. Finally, cortisone is injected into the carpal canal to help shrink the swollen tendon synovial lining which indirectly takes pressure off the median nerve. This works for most patients. If symptoms persist, the patient may need a relatively simple outpatient surgery to release the tight space around the nerve. This is called a carpal tunnel release. The procedure takes less than 10 minutes to perform and can be done by putting just the affected arm to sleep or the entire body depending on the patient’s preference. Below is the recommended ergonomic position that should be used when sitting in front of a computer and takes into consideration the neck, shoulders, arms and legs.



In selecting the correct treatment, non-operative vs operative treatment will depend on the severity, chronicity or time that the condition has been present, response to prior nonoperative treatment and other patient factors affecting the final outcome. At the ROC, your surgeon will explain the rationale behind the proposed treatment during your visit. Previously, carpal tunnel surgery required a large incision that extended from the hand and travelled across the wrist and into the forearm. That caused more pain and scarring and takes longer to recover. Many surgeons still use this technique successfully. Currently, a much less invasive method is done through a one-centimeter incision at the level of the wrist or a two incision procedure where one incision is on the wrist and the other in the midpalm. The second technique is the older of the two and was invented by Jimmy Chow in St Louis. The later is the preferred technique at ROC. Both techniques have been around since for over 20 years. During the endoscopic technique, A fiber optic camera is used to cut the tight carpal ligament, expanding the space around the nerve. The ligament then heals in a expanded position which allows more room for the nerve.After surgery, a light dressing is applied to the wrist. Patients are encouraged to use the hand right away with minimal restrictions. Hand therapy may be necessary in some cases. Therapy consists in of exercises that improve recovery, by performing nerve and tendon gliding to minimize scar adhesions. Patients are back to most activities withing a month.