The radial nerve stems from the posterior cord of the brachial plexus and supplies the upper limb. It also supplies the triceps brachii muscle of the arm, the muscles in the posterior compartment of the forearm (also known as the extensors), the wrist joint capsule, and aspects of the dorsal skin of the forearm and hand. The radial nerve proper innervates:
The radial nerve divides into a deep (mostly motor) branch, which becomes the posterior interosseous nerve (PIN), and a superficial branch. The PIN innervates:
Sensory innervation includes:
The following tests can quickly assess the radial nerve and its motor and sensory functions:
Nevertheless, a thorough physical exam is always required. Radial nerve injuries have distinct signs and symptoms depending on where and how the nerve has been injured.
Radial nerve injuries can occur after trauma. Common forms of radial nerve injuries occur with the following:
Radial nerve injuries have distinct presentations and symptoms, depending on the anatomic location and type of injury occurring to the nerve. For example, injuring the radial nerve at the axilla has a different clinical presentation than injuring it at the distal forearm.
Radial mononeuropathies are common, but the exact prevalence of radial nerve injuries causing such neuropathies is unknown. There are no generalized epidemiological studies reported in the literature at this time. Although there have been no recent studies, one study in the late 1980s showed that the radial nerve was the most commonly injured nerve in the upper extremity, although this is debatable.
The nerve can be damaged with intensities ranging from Sunderland first to fifth degrees.
A patient with radial neuropathy may present holding their affected extremity with the ipsilateral (normal) hand. He or she may complain of decreased or absent sensation on the dorsoradial side of their hand and wrist with an inability to extend their wrist, thumb, and fingers. With the hand supinated, and the extensors aided by gravity, hand function may appear normal. However, when the hand is pronated, the wrist and hand will drop. This is also referred to as "wrist drop.”
If damaged at the axilla, there will be a loss of extension of the forearm, hand, and fingers. Thus, this usually presents with a wrist drop on physical examination. There will be a sensory loss in the lateral arm. There will also be a sensory loss in the posterior aspect of the forearm radiating to the radial aspect of the dorsal hand and digits. This is seen commonly with "Saturday night palsy," and improperly using crutches (crutch palsy). Any condition or clinical situation in which the patient has improperly created pathologic forces and/or compression in the axilla can potentially affect the radial nerve by way of the brachial plexus.
Injuring the radial nerve distal to the elbow joint can occur from:
This causes weakness in the extension of the hand and fingers and the presence of finger drop and partial wrist drop.
Posterior interosseous nerve syndrome can also occur from damaging the radial nerve below the elbow. This branch provides motor innervation to the extensor compartment. It presents with pain in the forearm and wrist, along with weakness with finger metacarpal extension and wrist extension.
Damaging the nerve at the distal forearm can occur from Wartenberg syndrome, which is an entrapment of the nerve between the brachioradialis and muscle (sometimes due to wearing tight jewelry and watches). There is usually numbness and tingling in the radial half of the dorsum of the hand and the dorsum of the radial 3 1/2 digits. However, motor function stays intact.
When there is a traumatic injury, radiographs are usually adequate. This is especially relevant after traumatic injuries such as fractures. Occasionally, when ruling out or investigating compressive neuropathies, advanced imaging such as magnetic resonance imaging (MRI) can further delineate pathological anatomic determinants.
Electromyograms or nerve conduction studies (EMG/NCS) can help differentiate nerve versus muscle injury, measuring the speed at which the impulses travel along the nerve. EMG/NCS is also utilized for follow-up management in serial observations for the return of nerve function. It is important to note that more than 90% of radial nerve palsies will resolve in 3 to 4 months with observation alone.
There was a recent study of rapid ultrasonographic diagnosis of radial entrapment neuropathy at the spiral groove. If available, this modality can be used for evaluation.
The return of function following radial nerve palsy follows a predictable clinical pattern. Brachioradialis followed by ECRL are the first to return; whereas, EPL and EIP are last to return.
Conservative treatment options depend on the severity of the injury and the patient's symptoms. They include:
Patients typically recover 4 months after starting treatment as long as the nerve is not lacerated or torn. The prognosis for patients with acute compressive radial nerve injuries is good.
Some radial nerve injuries end up requiring more aggressive management. If the radial nerve is entrapped and symptoms last for several months, surgery is indicated to relieve the pressure on the nerve. This should always be the last option for the patient.
Sometimes, it is difficult to distinguish radial neuropathies from central nervous system (CNS) lesions at times, as they can both cause wrist extension weakness (wrist drop). To differentiate between a peripheral radial neuropathy from a central pathology, test the brachioradialis muscle. It is always weak in a peripheral radial nerve injury, and less affected with a CNS disorder.
The majority (up to 92%) resolve with observation alone for 3 to 4 months in the setting of injuries or fractures to the humerus.
Radial nerve injuries are usually treated with conservative modalities, such as physical therapy and splinting. If surgical intervention is required, there is a potential for post-surgical complications. These complications include but are not limited to:
If needed, orthopedic surgeons or hand surgeons can be consulted for radial nerve injuries. Patients may also require a neurology consultation for further evaluation with electromyography or nerve conduction studies.
Patients should follow their individualized treatment plan for the best results. They should also follow up with their physicians regularly and appropriately. Physicians should, in turn, educate patients on the treatment options available, and talk about prognosis and complications.
Radial nerve injuries are usually treated conservatively and have a good prognosis if patients comply with their management plans. Primary care clinicians and nurse practitioners who do not regularly manage hand injuries should refer these patients to a neurologist, orthopedist, hand surgeon, or physical therapist for appropriate management.
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