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Weakness

By

Michael C. Levin

, MD, College of Medicine, University of Saskatchewan

Last full review/revision Aug 2021| Content last modified Aug 2021
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Topic Resources

Weakness is one of the most common reasons patients present to primary care clinicians. Weakness is loss of muscle strength, although many patients also use the term when they feel generally fatigued or have functional limitations (eg, due to pain or limited joint motion) even though muscle strength is normal.

Weakness may affect a few or many muscles and develop suddenly or gradually. Other symptoms may be present depending on the cause. Weakness of specific muscle groups can cause disorders of eye movement, dysarthria, dysphagia, or respiratory weakness.

Pathophysiology of Weakness

Voluntary movement is initiated in the cerebral motor cortex, at the posterior aspect of the frontal lobe. The neurons involved (upper motor or corticospinal tract neurons) synapse with neurons in the spinal cord (lower motor neurons). Lower motor neurons transmit impulses to the neuromuscular junction to initiate muscle contraction.

Common mechanisms of weakness thus include dysfunction of

  • Upper motor neurons (corticospinal and corticobulbar tract lesions)

  • Lower motor neurons (eg, due to peripheral polyneuropathies or anterior horn cell lesions)

  • Neuromuscular junction

  • Muscle (eg, due to myopathies)

The location of certain lesions correlates with physical findings:

  • Upper motor neuron dysfunction disinhibits lower motor neurons, resulting in increased muscle tone (spasticity) and increased muscle stretch reflexes (hyperreflexia). An extensor plantar (Babinski) reflex is specific for corticospinal tract dysfunction. However, upper motor neuron dysfunction can decrease tone and reflexes if motor paralysis is sudden and severe (eg, in spinal cord transection, in which tone first decreases, then increases gradually over days to weeks) or if the lesion damages the motor cortex of the precentral gyrus and not nearby motor association areas.

  • Lower motor neuron dysfunction disrupts reflex arcs, causing hyporeflexia and decreased muscle tone (flaccidity), and may cause fasciculations; with time, muscles atrophy.

  • Peripheral polyneuropathies tend to be most noticeable in the longest nerves (ie, weakness is more prominent in the distal limb than the proximal and in legs more than arms) and produce signs of lower motor neuron dysfunction (eg, decreased reflexes and muscle tone).

  • Diffuse muscle dysfunction (eg, in myopathies) tends to be most noticeable in the largest muscle groups (proximal muscles).

Etiology of Weakness

The many causes of muscle weakness are categorized by location of the lesion (see table Some Causes of Muscle Weakness Some Causes of Muscle Weakness Weakness is one of the most common reasons patients present to primary care clinicians. Weakness is loss of muscle strength, although many patients also use the term when they feel generally... read more ). Usually, lesions in a given location manifest with similar clinical findings. However, some disorders have characteristics of lesions in more than one location. For example, patients with amyotrophic lateral sclerosis Amyotrophic Lateral Sclerosis (ALS) and Other Motor Neuron Diseases (MNDs) Amyotrophic lateral sclerosis and other motor neuron diseases are characterized by steady, relentless, progressive degeneration of corticospinal tracts, anterior horn cells, bulbar motor nuclei... read more (ALS) may have findings of both upper and lower motor neuron dysfunction. Disorders of the spinal cord may affect tracts from upper motor neurons, lower motor neurons (anterior horn cells), or both.

Common causes of focal weakness include

The most common causes of generalized weakness are

  • Deconditioning due to inactivity (disuse atrophy) resulting from illness or frailty, especially in older patients

  • Generalized muscle wasting due to prolonged immobilization in an intensive care unit (ICU)—a condition called ICU myopathy

  • Critical illness polyneuropathy (ICU neuropathy)

  • Common myopathies (eg, alcoholic myopathy, hypokalemia, corticosteroid myopathy)

  • Use of paralytic drugs in a critical care patient

Table
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Fatigue

Common causes of fatigue include acute severe illness of almost any cause, cancers, chronic infections (eg, HIV infection Human Immunodeficiency Virus (HIV) Infection Human immunodeficiency virus (HIV) infection results from 1 of 2 similar retroviruses (HIV-1 and HIV-2) that destroy CD4+ lymphocytes and impair cell-mediated immunity, increasing risk of certain... read more Human Immunodeficiency Virus (HIV) Infection , hepatitis Causes of Hepatitis Hepatitis is an inflammation of the liver characterized by diffuse or patchy necrosis. Hepatitis may be acute or chronic (usually defined as lasting > 6 months). Most cases of acute viral hepatitis... read more , endocarditis Infective Endocarditis Infective endocarditis is infection of the endocardium, usually with bacteria (commonly, streptococci or staphylococci) or fungi. It may cause fever, heart murmurs, petechiae, anemia, embolic... read more Infective Endocarditis , mononucleosis Infectious Mononucleosis Infectious mononucleosis is caused by Epstein-Barr virus (EBV, human herpesvirus type 4) and is characterized by fatigue, fever, pharyngitis, and lymphadenopathy. Fatigue may persist weeks or... read more Infectious Mononucleosis ), endocrine disorders, renal failure Chronic Kidney Disease Chronic kidney disease (CKD) is long-standing, progressive deterioration of renal function. Symptoms develop slowly and in advanced stages include anorexia, nausea, vomiting, stomatitis, dysgeusia... read more Chronic Kidney Disease , hepatic failure Acute Liver Failure Acute liver failure is caused most often by drugs and hepatitis viruses. Cardinal manifestations are jaundice, coagulopathy, and encephalopathy. Diagnosis is clinical. Treatment is mainly supportive... read more , heart failure Heart Failure (HF) Heart failure (HF) is a syndrome of ventricular dysfunction. Left ventricular failure causes shortness of breath and fatigue, and right ventricular failure causes peripheral and abdominal fluid... read more Heart Failure (HF) , and anemia Etiology of Anemia Anemia is a decrease in the number of red blood cells (RBCs), which leads to a decrease in hematocrit and hemoglobin content. (See also Red Blood Cell Production.) The RBC mass represents the... read more . Multiple sclerosis can cause daily fatigue that increases with exposure to heat and humidity.

Evaluation of Weakness

Evaluation of weakness should try to distinguish true muscular weakness from fatigue, then check for findings that help establish the location or mechanism (eg, whether weakness is caused by dysfunction of the brain, spinal cord, plexuses, peripheral nerves, neuromuscular junction, or muscles) and, when possible, the cause.

History

History of present illness should begin with open-ended questions, asking patients to describe in detail what they are experiencing as weakness. Then, specific questions can be asked, particularly about the ability to do specific tasks, including brushing teeth or hair, speaking, swallowing, rising from a chair, climbing stairs, and walking.

Clinicians should also ask about the onset of weakness (sudden or gradual) and progression (eg, constant, worsening, intermittent) of symptoms. Close questioning is needed to differentiate sudden onset from sudden recognition; patients may suddenly recognize symptoms only after slowly progressive weakness crosses a threshold that prevents them from doing some normally routine task (eg, walking, tying shoes).

Important associated symptoms include sensory changes, double vision, memory loss, difficulty using language, seizures, and headaches. Factors that worsen weakness, such as heat (suggesting multiple sclerosis) or repetitive use of a muscle (suggesting myasthenia gravis), are noted.

Review of systems should seek symptoms suggesting possible causes, including the following:

Past medical history should identify known disorders that can cause weakness or fatigue, including

Clinicians should assess risk factors for possible causes, including those for infection (eg, unprotected sexual intercourse, blood transfusions, exposure to tuberculosis) and stroke (eg, hypertension, atrial fibrillation, atherosclerosis).

Complete drug history should be reviewed.

Family history should include known hereditary disorders (eg, hereditary muscle disorders, channelopathies, metabolic myopathies, hereditary neuropathies) and presence of similar symptoms in family members (suggesting a possible unrecognized hereditary disorder). Hereditary motor neuropathies often go unrecognized in families because of variable, incomplete phenotypic expression. Hammer toes, high arches in the feet, and poor performance in sports may indicate an undiagnosed hereditary motor neuropathy.

Social history should note the following:

  • Use of alcohol: Suggesting alcoholic myopathy

  • Illicit drug use: Suggesting increased risk of HIV/AIDS, bacterial infections, tuberculosis, or stroke due to cocaine use

  • Occupational or other exposure to toxins (eg, organophosphate insecticides, heavy metals, industrial solvents)

  • Recent travel: Suggesting Lyme disease, tick paralysis, diphtheria, or a parasitic infection

  • Social stressors: Suggesting depression

Physical examination

A complete neurologic and muscle examination is done to identify localizing or diagnostic findings. Key findings usually involve

  • Cranial nerves

  • Motor function

  • Coordination

  • Gait

  • Sensation

  • Reflexes

Cranial nerve examination How to Assess the Cranial Nerves (See also Neuro-ophthalmologic and Cranial Nerve Disorders and Introduction to the Neurologic Examination.) Smell, a function of the 1st (olfactory) cranial nerve, is usually evaluated only... read more includes inspection of the face for gross asymmetry and ptosis; mild facial asymmetry can be normal. Extraocular movements and facial muscles, including masseters (for strength), are tested. Palatal weakness is suggested by a nasal voice quality; testing the gag reflex and looking at the palate directly are less helpful. Tongue weakness is suggested by inability to clearly articulate certain consonants (eg, saying "ta-ta-ta") and slurring of speech (lingual dysarthria). Mild asymmetry during tongue protrusion may be normal. Sternocleidomastoid and trapezius strength is tested by having the patient rotate the head and shrug the shoulders against resistance. The patient is asked to blink repeatedly to see whether blinking fatigues.

Motor examination How to Assess the Motor System The limbs and shoulder girdle should be fully exposed, then inspected for the following: Atrophy Hypertrophy Asymmetric development Fasciculations read more includes inspection, assessment of tone, and strength testing. The body is inspected for kyphoscoliosis (sometimes suggesting chronic weakness of paraspinal muscles) and for surgical and traumatic scars. Dystonic posturing (eg, torticollis) may interfere with movement, mimicking weakness. Muscles are inspected for fasciculations and atrophy; both may begin focally or asymmetrically in ALS. Fasciculations may be most visible in the tongue in patients with advanced ALS. Diffuse atrophy may be most evident in the hands, face, and shoulder girdle.

Muscle tone is assessed using passive motion. Tapping a muscle (eg, hypothenar) may induce fasciculations in neuropathies or a myotonic contraction in myotonic dystrophy.

Strength testing How to Assess Muscle Strength Patients who report weakness may mean fatigue, clumsiness, or true muscle weakness. Thus, the examiner must define the precise character of symptoms, including exact location, time of occurrence... read more should include muscles that are proximal, distal, extensor, and flexor. Some tests of large, proximal muscles include standing from a sitting position; squatting and rising; and flexing, extending, and turning the head against resistance.

Motor strength is often rated on a 0 to 5 scale:

  • 0: No visible muscle contraction

  • 1: Visible muscle contraction with no limb movement

  • 2: Limb movement but not against gravity

  • 3: Movement against gravity but not resistance

  • 4: Weakness against resistance

  • 5: Full strength

Although these numbers seem objective, rating strength between 3 and 5 (the typical levels during early weakness, when diagnosis usually occurs) is rather subjective; if symptoms are unilateral, comparison with the unaffected side improves discrimination. Describing specifically what the patient can or cannot do is often more useful than simply assigning a number for level of weakness, particularly for assessing changes in weakness over time. A cognitive deficit may cause motor impersistence (inability to focus attention on completing a motor task), motor perseveration, apraxia, or incomplete effort. Malingering and other functional weakness is often characterized by give-way weakness, in which normal strength of effort suddenly gives way.

Gait is observed for the following:

Walking on the toes and heels is tested; distal muscle weakness makes these maneuvers difficult. Walking on the heels is particularly difficult when corticospinal tract lesions are the cause of weakness. Spastic gait is notable for scissoring (legs flexed slightly at the hips and knees, giving the appearance of crouching, with the knees and thighs hitting or crossing in a scissors-like movement) and walking on the toes. A steppage gait and foot drop may occur with peroneal nerve palsy.

Sensation How to Assess Sensation For the ability to sense a sharp object, the best screening test uses a safety pin or other sharp object to lightly prick the face, torso, and 4 limbs; the patient is asked whether the pinprick... read more is tested; sensory deficits can help localize some lesions causing weakness (eg, sensory level localizes the lesion to a spinal cord segment) or suggest certain specific causes of weakness (eg, distal sensory loss helps confirm clinical suspicion of Guillain-Barré syndrome).

A truncal bandlike tingling and pressure in a dermatomal distribution is a spinal cord sign that occurs with both intrinsic and extrinsic lesions.

Reflexes How to Assess Reflexes (See also Introduction to the Neurologic Examination) Deep tendon (muscle stretch) reflex testing evaluates afferent nerves, synaptic connections within the spinal cord, motor nerves, and descending... read more are tested. If deep tendon reflexes appear absent, they may be elicited by augmentation with Jendrassik maneuver (eg, trying to pull the hands apart while they are clasped together). Hyporeflexia may be normal throughout life or occur with aging, but findings should be symmetric and augmentation should elicit reflexes that are otherwise absent. The plantar reflex (extensor, flexor) is tested. The following responses suggest certain disorders or locations of lesions:

  • The classic Babinski reflex (the great toe extends and the other toes fan apart) is highly specific for a corticospinal tract lesion.

  • A normal jaw jerk and hyperreflexic arms and legs suggest a cervical lesion affecting the corticospinal tract, usually cervical stenosis.

  • Anal tone, anal wink reflex, or both are reduced or absent in spinal cord injury but are preserved in ascending paralysis due to Guillain-Barré syndrome.

  • Abdominal reflexes are absent below the level of spinal cord injury.

  • A cremasteric reflex can test the integrity of the upper lumbar cord and roots in males.

Evaluation also includes

  • Testing for back tenderness to percussion (present with vertebral inflammation, some vertebral tumors, and epidural abscess)

  • Straight leg raising (painful with sciatica)

  • Checking for scapular winging (suggesting weakness of the shoulder girdle muscles)

General examination

If patients have no objective motor weakness, the general examination is particularly important; in such patients, nonneuromuscular disorders should be sought.

Signs of respiratory distress (eg, tachypnea, weak inspiration) are noted. The skin is examined for jaundice, pallor, rash, and striae. Other important findings during inspection include the moon facies of Cushing syndrome and the parotid enlargement, smooth hairless skin, ascites, and vascular spiders of chronic alcohol use.

The neck, axillae, and inguinal area should be palpated for adenopathy; any thyromegaly is noted.

Heart and lungs are auscultated for crackles, wheezes, prolonged expiration, murmurs, and gallops.

The abdomen is palpated for masses, including, if spinal cord dysfunction is possible, a grossly enlarged bladder.

A rectal examination is done to check for heme-positive stool.

Joint range of motion is assessed.

If tick paralysis is suspected, the skin, particularly the scalp, should be thoroughly inspected for ticks.

Red flags

The following findings are of particular concern:

  • Weakness that becomes severe over a few days or less

  • Dyspnea

  • Inability to raise the head against gravity

  • Bulbar symptoms (eg, difficulty chewing, talking, and swallowing)

  • Loss of ambulation

Interpretation of findings

The history helps differentiate weakness from fatigue, defines the time course of the illness, and gives clues to the anatomic pattern of weakness. Weakness and fatigue tend to cause different symptoms:

  • Weakness: Patients typically complain that they cannot do specific tasks. They may also report limb heaviness or stiffness. Weakness usually has a particular pattern in time, anatomy, or both.

  • Fatigue: Fatigue reported as weakness tends to have no temporal pattern (eg, “tired all of the time”) or anatomic pattern (eg, “weak everywhere”); complaints center more on being tired than on being unable to do specific tasks.

The temporal pattern of symptoms is useful.

The anatomic pattern of weakness is characterized by specific motor tasks that are difficult to do. Anatomic patterns suggest certain diagnoses:

Physical examination further helps localize the lesion. First, general patterns are discerned:

  • Weakness primarily of proximal muscles suggests myopathy.

  • Weakness accompanied by hyperreflexia and increased muscle tone suggests upper motor neuron (corticospinal or other motor tract) dysfunction, particularly if an extensor plantar (Babinski) reflex is present.

  • Disproportionate impairment of fine finger dexterity (eg, fine pincer movements, playing the piano) with relatively preserved grip strength indicates selective disruption of the corticospinal (pyramidal) tract.

  • Complete paralysis accompanied by absent reflexes and severely depressed muscle tone (flaccidity) occurs in sudden, severe spinal cord injury (spinal shock).

  • Weakness accompanied by hyporeflexia, decreased muscle tone (with or without fasciculations), and chronic muscle atrophy suggests lower motor neuron dysfunction.

  • Weakness that is most noticeable in muscles innervated by the longest nerves (ie, distal more than proximal, legs more than arms), particularly with loss of distal sensation, suggests lower motor neuron dysfunction due to peripheral polyneuropathy.

  • Absence of neurologic abnormalities (ie, normal reflexes, no muscle wasting or fasciculations, normal strength or poor effort during strength testing) or poor effort in patients with tiredness or with weakness that has no temporal or anatomic pattern suggests fatigue rather than true muscular weakness. However, if weakness is intermittent and is absent at the time of examination, abnormalities may be missed.

Additional findings can help localize the lesion more precisely. For example,

  • Weakness accompanied by upper motor signs plus other signs such as aphasia, mental status abnormalities, or other cortical dysfunction: A brain lesion

  • Unilateral upper motor neuron signs (spasticity, hyperreflexia, extensor plantar response) and weakness involving an arm and a leg on the same side of the body: A contralateral hemispheric lesion, most often a stroke

  • Upper or lower motor neuron signs (or both) plus loss of sensation below a segmental spinal cord level and loss of bowel or bladder control (or both): A spinal cord lesion

Weakness with lower motor neuron signs may result from a disorder affecting one or more peripheral nerves; such a disorder has very specific patterns of weakness (eg, wristdrop in radial nerve injury). When the brachial or lumbosacral plexus is damaged, motor, sensory, and reflex deficits are often patchy and do not follow any one peripheral nerve pattern.

Determination of a specific causative disorder

Table
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If no symptoms or signs of true weakness (eg, characteristic anatomic and temporal pattern, objective signs) are present and patients complain only of overall weakness, fatigue, or lack of energy, clinicians should consider nonneurologic disorders. However, among older patients who feel too weak to walk, determining the contribution of muscle weakness may be difficult because gait dysfunction is often multifactorial (see page Geriatrics Essentials Geriatrics Essentials: Weakness Weakness is one of the most common reasons patients present to primary care clinicians. Weakness is loss of muscle strength, although many patients also use the term when they feel generally... read more ).

Patients with many disorders may be functionally limited but lack true loss of muscle strength. For example, cardiopulmonary dysfunction or anemia can cause fatigue due to dyspnea or exercise intolerance. Joint dysfunction (eg, due to arthritis) or muscle pain (eg, due to polymyalgia rheumatica or fibromyalgia) may make doing physical tasks difficult. These and other physical disorders that cause complaints of weakness (eg, influenza, infectious mononucleosis, renal failure) typically are already diagnosed or are suggested by findings during the history, physical examination, or both.

In general, if history and physical examination do not detect abnormalities suggesting physical disorders, these disorders are unlikely; disorders that cause constant, generalized fatigue with no physiologic temporal or anatomic pattern (eg, depression; chronic fatigue syndrome; an as-yet undiscovered systemic illness such as severe anemia, hypothyroidism, or Addison disease; an adverse drug effect) should be considered.

Testing

In patients with fatigue Evaluation Fatigue occurs most often as part of a symptom complex, but even when it is the sole or main presenting symptom, fatigue is one of the most common symptoms. Fatigue is difficulty initiating... read more rather than weakness, history and physical examination focus on identifying subtle manifestations of underlying illness (particularly infections, endocrine and rheumatologic disorders, anemia, and depression) that can be used to guide testing, but testing may be unnecessary.

Although many tests can be done if patients have true muscular weakness, such testing is often only adjunctive.

If no true weakness is present, other clinical findings (eg, dyspnea, pallor, jaundice, heart murmur), if present, are used to guide testing.

If patients have no abnormal clinical findings, test results are unlikely to be abnormal. In such cases, testing practices vary widely. Initial tests usually include some combination of a complete blood count (CBC), electrolytes (including calcium and magnesium), glucose, kidney and liver function tests, thyroid-stimulating hormone (TSH), erythrocyte sedimentation rate (ESR), and hepatitis C serologic testing.

If sudden or severe true general weakness or any respiratory symptoms are present, forced vital capacity and maximal inspiratory force must be tested to assess risk of acute ventilatory failure. Patients with vital capacity < 15 mL/kg or inspiratory force < 20 cm H2O are at increased risk.

If true weakness is present (and usually after risk of acute ventilatory failure is assessed), initial testing typically focuses on determining the mechanism of weakness. Unless the cause is obvious, routine laboratory tests (CBC, electrolytes [including calcium and magnesium], glucose, kidney and liver function tests, TSH, ESR, hepatitis C serologic testing) are usually done.

Tests done to determine the location and mechanism of weakness depend on clinical findings.

If brain upper motor neuron dysfunction is suspected, the key test is MRI. CT is used when MRI testing is not possible (eg, in patients with a cardiac pacemaker).

If myelopathy is suspected, MRI can detect lesions in the spinal cord. It also detects other causes of paralysis that may mimic myelopathy, including lesions of the cauda equina, spinal roots, and brachial and lumbosacral plexuses. CT myelography may be used when MRI testing is not available. Other tests are done (see table Some Causes of Muscle Weakness Some Causes of Muscle Weakness Weakness is one of the most common reasons patients present to primary care clinicians. Weakness is loss of muscle strength, although many patients also use the term when they feel generally... read more ). Cerebrospinal fluid (CSF) analysis may be unnecessary for some disorders diagnosed during imaging (eg, epidural tumor) and is contraindicated if CSF block (eg, due to epidural spinal cord compression) is suspected.

If polyneuropathies, myopathies, or neuromuscular junction disorders are suspected, the key tests that help differentiate these mechanisms of weakness are electrodiagnostic studies (electromyography and nerve conduction studies).

After nerve injury, changes in nerve conduction and muscle denervation can take up to a few weeks to develop, so electrodiagnostic studies may not help when the disorder is acute. However, these studies can help differentiate among certain acute disorders, such as acute demyelinating neuropathy (eg, Guillain-Barré syndrome), acute botulism, and other acute neuromuscular junction disorders.

If myopathy is suspected (suggested by muscle weakness, muscle cramping, and pain), muscle enzymes (eg, creatine kinase [CK], aldolase, lactic dehydrogenase [LDH]) may be measured. Elevated levels are consistent with myopathy but can also be high in neuropathies (reflecting muscle atrophy) and very high in ischemic rhabdomyolysis. Also, levels may not be high in all myopathies. Regular crack cocaine use can also cause chronically moderately elevated CK levels (mean value, 400 IU/L).

Clinicians can use MRI to identify muscle inflammation, as occurs in inflammatory myopathies. Muscle biopsy may be necessary ultimately to diagnose myopathy or myositis. MRI or electromyography can help find a suitable site for muscle biopsy. However, needlestick artifact can mimic muscle pathology and must be avoided; thus, biopsy should never be done in the same muscle tested by electromyography.

Genetic testing can help confirm certain hereditary myopathies.

If motor neuron disorders Amyotrophic Lateral Sclerosis (ALS) and Other Motor Neuron Diseases (MNDs) Amyotrophic lateral sclerosis and other motor neuron diseases are characterized by steady, relentless, progressive degeneration of corticospinal tracts, anterior horn cells, bulbar motor nuclei... read more (eg, ALS) are suspected, tests include electromyography and nerve conduction studies to confirm the diagnosis and exclude treatable disorders that mimic motor neuron disorders (eg, chronic inflammatory demyelinating polyneuropathy, multifocal motor neuropathy with conduction block). Brain MRI may show degeneration of the corticospinal tracts when ALS is advanced. Spinal cord MRI (or CT myelography) is done routinely to rule out spinal cord compression or other myelopathies (see table Some Causes of Muscle Weakness Some Causes of Muscle Weakness Weakness is one of the most common reasons patients present to primary care clinicians. Weakness is loss of muscle strength, although many patients also use the term when they feel generally... read more ).

Testing for specific disorders may be needed:

Treatment of Weakness

Causes of muscle weakness are treated. For patients with life-threatening, acute weakness, ventilatory support may be needed.

Physical and occupational therapy can help people adapt to permanent weakness and minimize loss of function, regardless of the cause.

Geriatrics Essentials: Weakness

Some decrease in deep tendon reflexes is common with aging, but asymmetry or absence of these reflexes with augmentation is abnormal.

Because older people are more likely to have preexisting sarcopenia, bed rest can cause debilitating muscle wasting rapidly, sometimes after only several days.

Older people take more drugs and are more susceptible to drug-induced myopathies, neuropathies, and fatigue; thus, drugs are a common cause of weakness in older people.

Feeling too weak to walk often has multiple causes. Factors may include the following:

  • Muscle weakness (eg, caused by stroke, use of certain drugs, myelopathy due to cervical spondylosis, or muscle atrophy)

  • Hydrocephalus

  • Parkinsonism

  • Painful arthritis

  • Age-related loss of neural networks mediating postural stability (vestibular system, proprioceptive pathways), coordination (cerebellum, basal ganglia), vision, and praxis (frontal lobe)

Evaluation should focus on reversible factors.

Physical therapy and rehabilitation are generally helpful no matter what the etiology of the weakness is.

Key Points

  • Distinguish loss of muscle strength from a feeling of fatigue.

  • If fatigue has no anatomic or temporal pattern of weakness in patients with a normal physical examination, suspect chronic fatigue syndrome, an as-yet undiscovered systemic illness (eg, severe anemia, hypothyroidism, Addison disease), a psychologic problem (eg, depression), or an adverse drug effect.

  • If patients have true muscle weakness, first focus on determining whether weakness is caused by dysfunction of the brain, spinal cord, plexuses, peripheral nerves, neuromuscular junction, or muscles.

  • If patients have hyperreflexia and increased muscle tone (spasticity), particularly if Babinski reflex is present, suspect an upper motor neuron (eg, corticospinal tract) lesion in the brain or spinal cord; MRI is usually required.

  • If patients have hyporeflexia, decreased muscle tone, muscle atrophy, and muscle fasciculations, suspect a lower motor neuron lesion.

  • If patients have hyporeflexia and predominantly distal muscle weakness, particularly with distal sensory deficits or paresthesias, suspect polyneuropathy.

  • If patients have difficulty climbing stairs, combing hair, and standing up with predominantly proximal muscle weakness and intact sensation, suspect myopathy.

  • Physical therapy is usually helpful in improving strength no matter what the cause is.

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