Ulnar Neuropathies
Ulnar Nerve Compression Syndromes
Ulnar Nerve
Electrodiagnosis
Neural Conduction
Peripheral Nervous System Diseases
Diabetic Neuropathies
Electromyography
Hereditary Sensory and Motor Neuropathy
Dorsal cutaneous branch of ulnar nerve: an appraisal on the anatomy, injuries and application of conduction velocity studies in diagnosis. (1/28)
Classical textbooks and recent publications about the anatomy of the dorsal cutaneous branch of the ulnar nerve are revisited and correlated with methods of measurement of its conduction velocity, in order to evaluate the indications and limitations of the procedure. Etiology and pathogenesis of isolated lesions of this nerve branch are discussed. (+info)Telesales neuropathy. (2/28)
A case of bilateral ulnar neuropathies caused by overuse of the telephone is described in a 17 year old double glazing salesman. The importance of taking a good occupational history is emphasised and the need for correct staff training and appropriate equipment highlighted. (+info)Ulnar nerve palsy due to axillary crutch. (3/28)
A young lady with residual polio, using axillary crutch since early childhood, presented with tingling, numbness and weakness in ulnar nerve distribution of five months duration. Ulnar motor conduction study revealed proximal conduction block near the axilla, at the point of pressure by the crutch while walking. Distal ulnar sensory conduction studies were normal but proximal ulnar sensory conduction studies showed absence of Erb's point potential. These findings suggested the presence of conduction block in sensory fibers as well. Proper use and change of axillary crutch resulted in clinical recovery and resolution of motor and sensory conduction block. (+info)Intraneural mucoid pseudocysts. A report of ten cases. (4/28)
A mucoid pseudocyst of a peripheral nerve is a rare and benign tumour of controversial origin. We have reviewed ten patients with a mean follow-up of 3.2 years. The tumour affected the common peroneal nerve in eight and the ulnar nerve in two. The mean time between the onset of symptoms and diagnosis was 7.4 months (1.2 months to 2 years). On examination, there was pain in eight patients and swelling in seven. Motor deficit in the corresponding nerve territory was found in all. The diagnosis was usually confirmed by MRI. Treatment was always surgical. All the patients recovered, with a mean time to neurological recovery of 10.75 months. Recurrence was seen in only one patient and was treated successfully by further surgery. Our results are similar to those reported by other authors. A successful surgical outcome depends on early diagnosis before neurological damage has occurred. (+info)Compression neuropathy of the ulnar nerve. A common condition occurring at bed rest. (5/28)
Compression neuropathy of the ulnar nerve at bed rest appears to be quite common. The symptoms are dysesthesia, weakness and later atrophy in the area of distribution of the nerve. Special attention is required for prevention or for early discovery of the condition in time for treatment to bring about prompt recovery. Physical therapy with electrical stimulation may be useful in the more severe cases. When the condition is progressive or recalcitrant, anterior transplantation of the nerve may be necessary. (+info)Incidence of common compressive neuropathies in primary care. (6/28)
Apart from carpal tunnel syndrome, there are no population based studies of the epidemiology of compressive neuropathies. To provide this information, new presentations of compressive neuropathies among patients registered with 253 general practices in the UK General Practice Research Database with 1.83 million patient years at risk in 2000 were analysed. The study revealed that in 2000 the annual age standardised rates per 100 000 of new presentations in primary care were: carpal tunnel syndrome, men 87.8/women 192.8; Morton's metatarsalgia, men 50.2/women 87.5; ulnar neuropathy, men 25.2/women 18.9; meralgia paraesthetica, men 10.7/women 13.2; and radial neuropathy, men 2.97/women 1.42. New presentations were most frequent at ages 55-64 years except for carpal tunnel syndrome, which was most frequent in women aged 45-54 years, and radial nerve palsy, which was most frequent in men aged 75-84 years. In 2000, operative treatment was undertaken for 31% of new presentations of carpal tunnel syndrome, 3% of Morton's metatarsalgia, and 30% of ulnar neuropathy. (+info)Nerve conduction studies and current perception thresholds in workers assessed for hand-arm vibration syndrome. (7/28)
BACKGROUND: Workers exposed to hand-arm vibration are at risk of developing the neurological abnormalities of hand-arm vibration syndrome (HAVS). The Stockholm classification of the neurological component of HAVS is based on history and physical examination. There is a need to determine the association between neurological tests and the Stockholm scale. AIMS: The main objective of this study was to compare the Stockholm neurological scale and the results of current perception threshold (CPT) tests and nerve conduction studies (NCS). METHODS: Detailed physical examinations were done on 162 subjects referred for HAVS assessment at a specialist occupational health clinic. All subjects had NCS and measurement of CPT. The Stockholm neurological classification was carried out blinded to the results of these neurological tests and compared to the test results. RESULTS: The nerve conduction results indicated that median and ulnar neuropathies proximal to the hand are common in workers being assessed for HAVS. Digital sensory neuropathy was found in only one worker. Neither the nerve conduction results nor the current perception results had a strong association with the Stockholm neurological scale. Exposure to vibration in total hours was the main variable associated with the Stockholm neurological scale [right hand: OR 1.30, 95% CI (1.10-1.54); left hand: OR 1.18, 95% CI (1.0-1.39)]. CONCLUSION: Workers being assessed for HAVS should have nerve conduction testing to detect neuropathies proximal to the hand. Quantitative sensory tests such as current perception measurement are insufficient for diagnostic purposes but may have a role in screening workers exposed to vibration. (+info)Biomechanics of the elbow joint in tennis players and relation to pathology. (8/28)
Elbow injuries constitute a sizeable percentage of tennis injuries. A basic understanding of biomechanics of tennis and analysis of the forces, loads and motions of the elbow during tennis will improve the understanding of the pathophysiology of these injuries. All different strokes in tennis have a different repetitive biomechanical nature that can result in tennis-related injuries. In this article, a biomechanically-based evaluation of tennis strokes is presented. This overview includes all tennis-related pathologies of the elbow joint, whereby the possible relation of biomechanics to pathology is analysed, followed by treatment recommendations. (+info)Ulnar neuropathies refer to conditions that cause damage or dysfunction to the ulnar nerve, which is one of the major nerves in the arm. The ulnar nerve runs down the forearm and through the wrist to the hand, where it provides sensation to the pinky finger and half of the ring finger, as well as motor function to the muscles that control finger movements.
Ulnar neuropathies can result from various causes, including trauma, compression, entrapment, or inflammation. Common symptoms include numbness, tingling, or weakness in the hand and fingers, particularly in the pinky and ring fingers. In more severe cases, muscle wasting and loss of dexterity may occur.
There are several types of ulnar neuropathies, depending on the location and cause of the nerve damage. For example, cubital tunnel syndrome is a type of ulnar neuropathy that results from compression of the ulnar nerve at the elbow, while ulnar nerve entrapment at the wrist (also known as Guyon's canal syndrome) can also cause ulnar neuropathies. Treatment options for ulnar neuropathies may include physical therapy, medication, or surgery, depending on the severity and underlying cause of the condition.
Ulnar nerve compression syndromes refer to a group of conditions characterized by the entrapment or compression of the ulnar nerve, leading to various symptoms. The ulnar nerve provides motor function to the hand muscles and sensation to the little finger and half of the ring finger.
There are several sites along the course of the ulnar nerve where it can become compressed, resulting in different types of ulnar nerve compression syndromes:
1. Cubital Tunnel Syndrome: This occurs when the ulnar nerve is compressed at the elbow, within the cubital tunnel - a narrow passage located on the inner side of the elbow. Symptoms may include numbness and tingling in the little finger and half of the ring finger, weakness in gripping or pinching, and pain or discomfort in the elbow.
2. Guyon's Canal Syndrome: This type of ulnar nerve compression syndrome happens when the nerve is compressed at the wrist, within the Guyon's canal. Causes can include ganglion cysts, bone fractures, or repetitive motion injuries. Symptoms may include numbness and tingling in the little finger and half of the ring finger, weakness or paralysis in the hand muscles, and muscle wasting in severe cases.
Treatment for ulnar nerve compression syndromes depends on the severity and location of the compression. Conservative treatments such as physical therapy, bracing, or anti-inflammatory medications may be recommended for milder cases. Severe or persistent symptoms may require surgical intervention to relieve the pressure on the ulnar nerve.
The Ulnar nerve is one of the major nerves in the forearm and hand, which provides motor function to the majority of the intrinsic muscles of the hand (except for those innervated by the median nerve) and sensory innervation to the little finger and half of the ring finger. It originates from the brachial plexus, passes through the cubital tunnel at the elbow, and continues down the forearm, where it runs close to the ulna bone. The ulnar nerve then passes through the Guyon's canal in the wrist before branching out to innervate the hand muscles and provide sensation to the skin on the little finger and half of the ring finger.
The elbow is a joint formed by the articulation between the humerus bone of the upper arm and the radius and ulna bones of the forearm. It allows for flexion, extension, and rotation of the forearm. The medical definition of "elbow" refers to this specific anatomical structure and its associated functions in human anatomy.
Electrodiagnosis, also known as electromyography (EMG), is a medical diagnostic procedure that evaluates the health and function of muscles and nerves. It measures the electrical activity of skeletal muscles at rest and during contraction, as well as the conduction of electrical signals along nerves.
The test involves inserting a thin needle electrode into the muscle to record its electrical activity. The physician will ask the patient to contract and relax the muscle while the electrical activity is recorded. The resulting data can help diagnose various neuromuscular disorders, such as nerve damage or muscle diseases, by identifying abnormalities in the electrical signals.
Electrodiagnosis can be used to diagnose conditions such as carpal tunnel syndrome, peripheral neuropathy, muscular dystrophy, and amyotrophic lateral sclerosis (ALS), among others. It is a valuable tool in the diagnosis and management of neuromuscular disorders, helping physicians to develop appropriate treatment plans for their patients.
The elbow joint, also known as the cubitus joint, is a hinge joint that connects the humerus bone of the upper arm to the radius and ulna bones of the forearm. It allows for flexion and extension movements of the forearm, as well as some degree of rotation. The main articulation occurs between the trochlea of the humerus and the trochlear notch of the ulna, while the radial head of the radius also contributes to the joint's stability and motion. Ligaments, muscles, and tendons surround and support the elbow joint, providing strength and protection during movement.
Neural conduction is the process by which electrical signals, known as action potentials, are transmitted along the axon of a neuron (nerve cell) to transmit information between different parts of the nervous system. This electrical impulse is generated by the movement of ions across the neuronal membrane, and it propagates down the length of the axon until it reaches the synapse, where it can then stimulate the release of neurotransmitters to communicate with other neurons or target cells. The speed of neural conduction can vary depending on factors such as the diameter of the axon, the presence of myelin sheaths (which act as insulation and allow for faster conduction), and the temperature of the environment.
Peripheral Nervous System (PNS) diseases, also known as Peripheral Neuropathies, refer to conditions that affect the functioning of the peripheral nervous system, which includes all the nerves outside the brain and spinal cord. These nerves transmit signals between the central nervous system (CNS) and the rest of the body, controlling sensations, movements, and automatic functions such as heart rate and digestion.
PNS diseases can be caused by various factors, including genetics, infections, toxins, metabolic disorders, trauma, or autoimmune conditions. The symptoms of PNS diseases depend on the type and extent of nerve damage but often include:
1. Numbness, tingling, or pain in the hands and feet
2. Muscle weakness or cramps
3. Loss of reflexes
4. Decreased sensation to touch, temperature, or vibration
5. Coordination problems and difficulty with balance
6. Sexual dysfunction
7. Digestive issues, such as constipation or diarrhea
8. Dizziness or fainting due to changes in blood pressure
Examples of PNS diseases include Guillain-Barre syndrome, Charcot-Marie-Tooth disease, diabetic neuropathy, and peripheral nerve injuries. Treatment for these conditions varies depending on the underlying cause but may involve medications, physical therapy, lifestyle changes, or surgery.
Diabetic neuropathies refer to a group of nerve disorders that are caused by diabetes. High blood sugar levels can injure nerves throughout the body, but diabetic neuropathies most commonly affect the nerves in the legs and feet.
There are four main types of diabetic neuropathies:
1. Peripheral neuropathy: This is the most common type of diabetic neuropathy. It affects the nerves in the legs and feet, causing symptoms such as numbness, tingling, burning, or shooting pain.
2. Autonomic neuropathy: This type of neuropathy affects the autonomic nerves, which control involuntary functions such as heart rate, blood pressure, digestion, and bladder function. Symptoms may include dizziness, fainting, digestive problems, sexual dysfunction, and difficulty regulating body temperature.
3. Proximal neuropathy: Also known as diabetic amyotrophy, this type of neuropathy affects the nerves in the hips, thighs, or buttocks, causing weakness, pain, and difficulty walking.
4. Focal neuropathy: This type of neuropathy affects a single nerve or group of nerves, causing symptoms such as weakness, numbness, or pain in the affected area. Focal neuropathies can occur anywhere in the body, but they are most common in the head, torso, and legs.
The risk of developing diabetic neuropathies increases with the duration of diabetes and poor blood sugar control. Other factors that may contribute to the development of diabetic neuropathies include genetics, age, smoking, and alcohol consumption.
Electromyography (EMG) is a medical diagnostic procedure that measures the electrical activity of skeletal muscles during contraction and at rest. It involves inserting a thin needle electrode into the muscle to record the electrical signals generated by the muscle fibers. These signals are then displayed on an oscilloscope and may be heard through a speaker.
EMG can help diagnose various neuromuscular disorders, such as muscle weakness, numbness, or pain, and can distinguish between muscle and nerve disorders. It is often used in conjunction with other diagnostic tests, such as nerve conduction studies, to provide a comprehensive evaluation of the nervous system.
EMG is typically performed by a neurologist or a physiatrist, and the procedure may cause some discomfort or pain, although this is usually minimal. The results of an EMG can help guide treatment decisions and monitor the progression of neuromuscular conditions over time.
Hereditary Sensory and Motor Neuropathy (HSMN) is a group of inherited disorders that affect the peripheral nerves, which are the nerves outside the brain and spinal cord. These nerves transmit information between the brain and muscles, as well as sensations such as touch, pain, heat, and cold.
HSMN is characterized by progressive degeneration of these peripheral nerves, leading to muscle weakness, numbness, and tingling sensations, particularly in the hands and feet. The condition can also affect the autonomic nervous system, which controls involuntary functions such as heart rate, blood pressure, and digestion.
HSMN is caused by genetic mutations that are inherited from one or both parents. There are several types of HSMN, each with its own specific symptoms, severity, and pattern of inheritance. The most common form is Charcot-Marie-Tooth disease (CMT), which affects both motor and sensory nerves.
Treatment for HSMN typically focuses on managing the symptoms and preventing complications. This may include physical therapy, bracing or orthopedic surgery to support weakened muscles, pain management, and lifestyle modifications such as avoiding activities that aggravate symptoms. There is currently no cure for HSMN, but ongoing research is aimed at developing new treatments and therapies to slow or halt the progression of the disease.