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Man-in-a-barrel syndrome is a rare neurologic syndrome characterized by bilateral upper-extremity weakness with preserved strength in the face, neck, and lower extremities, producing the characteristic appearance of a patient seemingly “stuck in a barrel.” Sensory function is typically preserved. This course reviews this rare syndrome, which most commonly results from bilateral anterior circulation watershed infarctions due to systemic hypotension, such as after cardiac arrest or overly aggressive blood pressure reduction, as well as other etiologies such as lesions affecting upper-extremity motor fibers at multiple levels, including the brainstem, cervical spinal cord, bilateral brachial plexus, peripheral nerves, or neuromuscular junction, with causes ranging from ischemia and trauma to inflammation, neoplasia, and neurodegenerative disease. This activity outlines the pathophysiology, neuroanatomy, clinical presentation, diagnostic evaluation, and management of man-in-a-barrel syndrome. Participants will also gain an understanding of how the underlying lesion is localized through focused history, examination, and imaging, and etiology-specific management strategies to optimize neurologic outcomes and patient safety. This activity for healthcare professionals is designed to enhance the learner's competence in identifying man-in-a-barrel syndrome, performing the recommended evaluation, and implementing an appropriate interprofessional approach to manage this condition, thereby improving patient outcomes. Objectives: Identify the characteristic clinical features of man-in-a-barrel syndrome. Determine the localization of neurologic lesions that can cause a man-in-a-barrel syndrome. Select etiology-specific management approaches for patients with man-in-a-barrel syndrome. Collaborate with interprofessional teams to ensure coordinated, patient-centered care for individuals affected by a man-in-a-barrel syndrome. Access free multiple choice questions on this topic.

Man-in-a-barrel syndrome represents a neurologic syndrome characterized by weakness in the bilateral upper extremities, also termed brachial diplegia, with preserved strength in the face, neck, and bilateral lower extremities. Clinically, the affected patient appears “stuck in a barrel,” with the arms resting at the sides and intact motor function in the face, neck, and legs. Sensory function remains normal in most cases. This condition qualifies as a rare neurologic disorder. Some authors favor the term person in a barrel syndrome to promote gender-neutral language. However, man in a barrel syndrome remains the most widely used designation and serves as the preferred term here without regard to gender.[1][2][1] Man-in-a-barrel syndrome arises from bilateral, symmetric injury to the brain involving motor fibers responsible for arm movement and may also follow injury to the brainstem, cervical spinal cord, bilateral brachial plexus, or peripheral nerves. Systemic hypotension leading to bilateral watershed infarctions represents a common cause. Watershed strokes associated with this syndrome occur within the border zones between the anterior cerebral artery and middle cerebral artery territories. Blood pressure levels insufficient to perfuse the most distal arterial branches result in inadequate oxygen delivery to these regions, leading to neuronal cell death. Cardiac arrest, with subsequent global cerebral hypoperfusion, serves as a classic cause.[3][4] Any lesion affecting bilateral upper extremity motor fibers may produce this syndrome, including trauma, inflammatory disease, hemorrhage, neoplasia, eg, metastatic disease, or amyotrophic lateral sclerosis. Additional reported causes include osmotic demyelination syndrome of the brainstem, cervical spinal cord disorders affecting the anterior cord, eg, anterior spinal artery infarction, traumatic injury, including surgery, and infectious processes (eg, spinal epidural abscesses).[2][5][6][7] Peripheral etiologies include bilateral brachial plexopathy and other peripheral nerve disorders, including acute Guillain-Barré syndrome.[8] Recent literature also describes a paraneoplastic cause presenting as brachial amyotrophic diplegia.[9]

Ischemia Man-in-a-barrel syndrome may result from bilateral watershed infarctions caused by systemic hypotension, such as occurs during cardiac arrest or following an excessively aggressive reduction in blood pressure.[10] The internal carotid artery supplies the anterior two-thirds of the brain through the anterior cerebral artery and the middle cerebral artery. The most distal branches of these vessels perfuse brain regions containing upper extremity motor fibers. During states of inadequate cerebral perfusion affecting both hemispheres, these distal arterial territories, known as watershed zones, receive insufficient oxygenated blood, leading to neuronal cell death. Owing to the neuroanatomic organization of the anterior circulation watershed regions, injury in these areas can produce bilateral upper-extremity weakness.[11] Additional causes include acute ischemia affecting the pyramidal decussation of the brainstem or the cervical spinal cord, as well as compressive or intrinsic cervical cord lesions that involve upper-extremity motor fibers while sparing lower-extremity pathways. Peripheral neuropathic processes affecting bilateral nerve roots, the brachial plexus, peripheral nerves, or the neuromuscular junction may also lead to this syndrome.[12][13] Man-in-a-barrel syndrome has also been described as a late manifestation of central pontine myelinolysis.[14] Nerve Lesions Any lesion involving the motor fibers supplying both upper extremities may produce similar clinical findings, including hemorrhagic events, inflammatory lesions, traumatic injury, or neoplastic and metastatic disease.[15] Cervical spinal cord disorders, including spondylotic myelopathy, anterior spinal artery infarction, epidural abscess, trauma, and surgical injury, remain uncommon but recognized causes.[2][5][16][17][7] Peripheral etiologies include bilateral brachial plexopathy, mononeuritis multiplex, and critical illness neuromyopathy, all of which have been reported in association with man-in-a-barrel syndrome.[8] Amyotrophic Lateral Sclerosis Man-in-a-barrel syndrome represents one of the rarest yet well-characterized clinical presentations of regional amyotrophic lateral sclerosis.[18]

Man-in-a-barrel syndrome is a rare syndrome, and the exact incidence is unknown. Man-in-a-barrel syndrome affects men and women equally. Cerebral hypoperfusion causing bilateral watershed strokes is a common cause of man-in-a-barrel syndrome.[19] Watershed strokes make up an estimated 10% of all ischemic strokes.[20]

Man-in-a-barrel syndrome results from damage to bilateral upper-extremity motor fibers, sparing bilateral lower-extremity motor fibers. Bilateral symmetric damage isolated to the upper extremity motor fibers in the motor cortex, corona radiata, internal capsule, basal ganglia, brainstem, anterior spinal cord, cervical nerve roots, brachial plexus, peripheral nerves, neuromuscular junction, or muscles can result in man-in-a-barrel syndrome. Damage to anterior horn cells, eg, in HTLV-1 infection or amyotrophic lateral sclerosis, can also present with bilateral upper-extremity weakness.[21][22]

Evaluation begins with a detailed history and comprehensive neurologic examination in patients presenting with bilateral upper-extremity weakness that spares facial and lower-extremity strength, serving as the initial step in diagnosing man-in-a-barrel syndrome. The neurologic examination typically demonstrates weakness affecting both upper extremities with preserved strength in the neck and lower extremities. Mental status varies according to the anatomic location of neurologic injury and may range from normal to severely impaired. Central nervous system causes, eg, stroke or cervical spinal cord lesions, commonly produce brisk reflexes, whereas peripheral nervous system disorders, including multifocal motor neuropathy, myasthenia gravis, or bilateral brachial plexus injuries, more often present with diminished or absent reflexes.[23] Following recognition of the characteristic examination pattern, diagnostic focus shifts toward localization of the underlying lesion or lesions. Once the clinical diagnosis of man-in-a-barrel syndrome is made based on the neurologic exam, the causative lesion should be localized. Clinical history frequently provides critical clues regarding lesion localization. Onset following cardiac arrest with a prolonged period without a pulse favors bilateral watershed infarctions. Impaired consciousness points toward cerebral or brainstem involvement. Recent neck trauma or neck pain accompanied by restricted range of motion suggests a cervical spinal cord lesion, while bilateral upper extremity trauma raises concern for bilateral brachial plexus injury. Recent surgical procedures involving arm traction further support a diagnosis of bilateral brachial plexopathy.[24][4]

Once the clinical diagnosis of man-in-a-barrel syndrome is made, the underlying etiology. Brain imaging with magnetic resonance imaging (MRI) or computed tomography (CT) can help identify intracranial lesions, including ischemic, hemorrhagic, metastatic, or inflammatory ones. Cervical spine imaging with CT can identify and localize compressive lesions, and MRI can localize extrinsic compressive and intrinsic lesions. If the brain and cervical spine imaging do not reveal a cause of man-in-a-barrel syndrome, the brachial plexuses should be evaluated. MRI can identify injuries to the brachial plexus, and electromyography (EMG) and nerve conduction studies can pinpoint the location of dysfunction in the nerve root, brachial plexus, or peripheral nerve. Watershed stroke is the most common cause of man-in-a-barrel syndrome; for patients with watershed stroke, imaging of the cervicocephalic arterial vasculature should be performed to evaluate for any flow-limiting stenoses. If significant flow-limiting stenoses are found in the internal carotid arteries, revascularization with carotid endarterectomy or stent placement may be beneficial to reduce the risk of subsequent stroke.[25]

Management of man-in-a-barrel syndrome varies according to the anatomic location and underlying cause of neurologic injury. In patients with watershed infarction, management focuses on maintaining adequate blood pressure to prevent stroke extension, evaluating for arterial stenosis that may predispose to cerebral hypoperfusion, initiating appropriate antithrombotic therapy, and correcting the underlying condition responsible for hypotension. Careful blood pressure control before and during surgical procedures is particularly important in patients with underlying vertebral artery stenosis.[26] Compressive cervical spinal lesions warrant prompt consideration of emergent surgical decompression. Intrinsic inflammatory disorders of the cervical spinal cord respond to corticosteroid therapy. Physical and occupational therapy play essential roles in promoting functional recovery and improving upper-extremity function in affected patients. Correction of serum electrolyte abnormalities, particularly sodium disturbances, remains critical in cases associated with central pontine myelinolysis. Inflammatory disorders of the peripheral nervous system often benefit from immunomodulating therapies tailored to the specific underlying etiology.

The differential diagnosis for man-in-a-barrel syndrome includes the following lesions along the neuroaxis: Bilateral cerebral or brainstem upper extremity motor fibers (eg, watershed ischemic stroke, hemorrhagic, traumatic injury, inflammatory, ALS, neoplastic, and metastatic disease) Cervical spine (eg, external compressive lesion, ischemia, inflammatory or infectious process) Bilateral brachial plexus (mechanical injury, inflammatory) Peripheral neuropathic process, including toxic or metabolic neuropathy, inflammatory conditions, and autoimmune disease (eg, multifocal motor neuropathy, vasculitic mononeuritis multiplex, or myasthenia gravis)

The prognosis for man-in-a-barrel syndrome depends on the type and location of the lesions. The prognosis for recovery from bilateral watershed strokes is variable depending on the extent of ischemic damage. In comatose patients with man-in-a-barrel syndrome following extensive watershed strokes, survival is less than 10%.[19] Bilateral intracerebral hemorrhage tends to have a poor prognosis but depends on the extent of tissue damage. Recovery from cervical spine compressive lesions depends on how quickly the lesion is identified and surgically decompressed. Man-in-a-barrel syndrome due to myasthenia gravis can be fully reversible with treatment of myasthenia.[27]

Man-in-a-barrel syndrome may lead to a range of complications that depend on the location, severity, and underlying cause of neurologic injury. Bilateral cerebral involvement, particularly from watershed infarctions, may result in persistent upper extremity weakness, spasticity, impaired coordination, and reduced functional independence, often accompanied by cognitive deficits, language dysfunction, or visual disturbances when adjacent cortical regions sustain injury. Brainstem or cervical spinal cord involvement may produce additional complications, including sensory deficits, hyperreflexia, gait impairment, and autonomic dysfunction affecting bowel or bladder control, particularly when anterior spinal cord pathways sustain damage. Peripheral causes of man-in-a-barrel syndrome, eg, bilateral brachial plexopathy, critical illness neuromyopathy, or inflammatory neuropathies, may result in prolonged motor and sensory deficits of the upper extremities, muscle atrophy, chronic pain, and delayed recovery. Reduced arm function increases the risk of secondary complications, including joint contractures, shoulder subluxation, pressure injuries, and decreased ability to perform activities of daily living. Across etiologies, prolonged disability may contribute to deconditioning, psychosocial distress, and diminished quality of life, underscoring the importance of early diagnosis, targeted management, and comprehensive rehabilitation.

A neurologist consultation to perform a detailed neurologic examination and localize the lesion is the first step in evaluating bilateral arm weakness. Radiologist interpretation of brain and cervical spine imaging to identify the etiology of the causative lesion should be performed. A neurosurgeon may be consulted if the lesion is amenable to surgical intervention, eg, a brain tumor or a compressive cervical spinal lesion. Physical therapy, occupational therapy, and physiatry collaborate to design and implement a rehabilitation plan to improve motor function.

Deterrence of man-in-a-barrel syndrome focuses on the prevention of the underlying conditions most commonly responsible for bilateral upper extremity motor fiber injury. Careful blood pressure management remains central, particularly in patients at risk for cerebral hypoperfusion, such as those with severe carotid or vertebral artery disease, cardiac dysfunction, or undergoing major surgery. Avoidance of prolonged systemic hypotension, overly aggressive antihypertensive therapy, and unrecognized perioperative hypoperfusion reduces the risk of bilateral watershed infarction. Early identification and treatment of cervical spinal pathology, prompt management of infections, cautious positioning and traction of the arms during surgery, and appropriate correction of electrolyte abnormalities, especially sodium disturbances, further reduce preventable causes of this syndrome. Patient education emphasizes recognition of warning symptoms and adherence to preventive strategies. Patients and caregivers should receive counseling on the importance of blood pressure monitoring, medication adherence, and follow-up for vascular risk factors. Education regarding early reporting of new bilateral arm weakness, neck pain, or neurologic changes supports timely evaluation. For patients with established disease, education focuses on rehabilitation goals, realistic expectations for recovery, and prevention of secondary complications through physical therapy, occupational therapy, and protective strategies to maintain joint mobility, skin integrity, and functional independence.

Man-in-a-barrel syndrome is a rare neurologic syndrome characterized by bilateral upper-extremity weakness with preserved neck and lower-extremity strength. Identifying this condition promptly is important, as the localization of the lesions causing weakness may be reversible. Bilateral cerebral or cervical spinal lesions are the most common causes of man-in-a-barrel syndrome, although various peripheral neuropathic processes have also been described.

Man-in-a-barrel syndrome is a rare neurologic condition characterized by bilateral upper-extremity weakness, with preserved strength in the face, neck, and lower extremities. Most commonly caused by bilateral watershed strokes due to systemic hypotension, the syndrome can also result from brainstem or cervical spinal cord lesions, bilateral brachial plexus injury, peripheral neuropathies, trauma, inflammation, neoplasia, or metabolic disorders such as central pontine myelinolysis. Clinical presentation typically includes intact sensation, variable mental status depending on lesion location, and reflex patterns that differ between central and peripheral causes. Early recognition through detailed history, neurologic examination, and targeted imaging is essential for timely diagnosis, lesion localization, and implementation of etiology-specific treatment. Management may involve blood pressure optimization, surgical decompression, immunomodulation, physical and occupational therapy, and correction of metabolic disturbances to optimize functional recovery and prevent complications. Effective management of patients with man-in-a-barrel syndrome requires a coordinated, interprofessional approach. Physicians, general practitioners, and advanced practitioners play critical roles in early recognition, diagnostic evaluation, and initiation of appropriate interventions. Nurses provide ongoing monitoring, support functional rehabilitation, and educate patients and caregivers on preventative strategies and safety measures. Pharmacists contribute by ensuring safe and effective medication management, particularly with antithrombotic or immunomodulatory therapies. Collaboration among neurology, neurosurgery, physical therapy, occupational therapy, and rehabilitation specialists promotes comprehensive care planning, optimizes patient-centered outcomes, and reduces the risk of secondary complications. Clear communication, coordinated follow-up, and shared decision-making enhance team performance, support patient safety, and empower patients and families to manage functional limitations and promote long-term recovery.