Autonomic Dysreflexia

Original Editor - Surinder Singh Top Contributors - Surinder Singh, Pacifique Dusabeyezu, Kim Jackson and Ewa Jaraczewska


Introduction[edit | edit source]

Autonomic Dysreflexia (AD) is a common life-threatening condition after a Spinal Cord Injury (SCI), usually occurred if SCI is at or above the T6 level. AD is characterized by a sudden, exaggerated reflexive increase in blood pressure in response to a noxious stimulus, commonly bladder or bowel distension, arising below the neurological level of injury (NLI) [1].

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Signs & Symptoms[edit | edit source]

Acute autonomic dysreflexia is characterized by

  1. Severe Paroxysmal Hypertension associated with throbbing Headaches
  1. Profuse sweating, and piloerection above the level of injury
  2. Flushing of the skin above the level of the lesion (Vasodilatation)
  3. Bradycardia
  4. Cool, pale skin below the level of injury (Vasoconstriction)
  5. Visual disturbances, dizziness and anxiety or feeling of doom, which is sometimes accompanied by cognitive impairment[3][1][4].

Pathophysiology[edit | edit source]

  • Cutaneous or visceral triggers below the level of the injury send afferent signals to the intermediolateral grey columns of the spinal cord that start abnormal reflex sympathetic nervous system activity from T6 to L2.
  • The sympathetic response is increased due to a lack of compensatory descending parasympathetic stimulation and intrinsic post-traumatic hypersensitivity.
  • Lead to diffuse vasoconstriction, typically to the lower 2/3 of the body, and a severe rise in BP despite maximum parasympathetic vasodilatory efforts above the level of injury (In an intact autonomic system, this increased blood pressure activates the carotid sinus and aortic arch baroreceptors leading to a parasympathetic response slowing the heart rate via vagal nerve activity and causing diffuse vasodilation to correct the original increased sympathetic tone[5].
  • In a person with spinal cord injury, the normal parasympathetic response from the medullary vasomotor center cannot travel below the level of the spinal injury, and generalized vasoconstriction affects the splanchnic, muscular, vascular, and cutaneous arterial circulatory networks continues.
  • This leads to systemic hypertension which is often severe and potentially life-threatening.
  • The compensatory vagal and parasympathetic stimulation leads to bradycardia and vasodilation, but only above the level of the spinal cord injury[4].
    Autonomic Dysreflexia

Etiology[edit | edit source]

The cause of this condition is a spinal cord injury, commonly at or above the T6 level. In the examination, an AD episode has described an increase in systolic blood pressure of at least 20-40 mm Hg or more above baseline[4]. A severe episode would usually have a systolic blood pressure of at least 150 mmHg or more than 40mmHg above the patient's baseline. The higher the injury level, the greater the severity of the cardiovascular dysfunction. The severity and frequency of autonomic dysreflexia episodes are also associated with the severity of the spinal cord injury as well as the level. Patients with a complete spinal cord injury are more than three times more likely to develop autonomic dysreflexia than those with incomplete injuries (91% to 27%)[6].

Autonomic dysreflexia does not develop until after the period of spinal shock when reflexes have recovered[4]. The earliest reported case appeared on the fourth-day post-injury. Most of the patients (92%) who will ultimately develop autonomic dysreflexia will do so within the first year after their injury.

The six "B"s that are the common triggers of autonomic dysreflexia[1]:

  1. Bladder (catheter blockage, distension, stones, infection, spasms)
  2. Bowel (constipation, impaction)
  3. Back passage (hemorrhoids, rectal issues, anal abscess, fissure)
  4. Boils (skin lesions, infected ulcers)
  5. Bones (fractures, dislocations)
  6. Babies (pregnancy)

Bladder distention is the most common cause for about 85% of all cases and is by far the most common trigger followed by fecal impaction[7].

Diagnosis[edit | edit source]

The most common initial complaint is a severe throbbing headache. If the patient with spinal cord injury (spinal cord injury at or above the T6 level) complains of a severe headache, the practitioner should immediately have their blood pressure checked. If BP is elevated, a provisional diagnosis of autonomic dysreflexia can be made.

The diagnosis can also be made by obtaining a history of previous autonomic dysreflexia episodes with the triggering event if known, monitoring vital signs, and watching for any developing signs and symptoms. Many patients with spinal cord injuries will have hypotension. Orthostatic hypotension is found in over 50% of patients with autonomic dysreflexia[8].

Fortunately, most episodes are relatively mild and can be managed at home by the patient and their usual caregivers without acute medical intervention[3].

Epidemiology[edit | edit source]

Autonomic dysreflexia affects 48% to 70% of patients with a spinal cord injury above the T6 level and is not very common to affect if the injury is below T10 in patients with spinal cord injury[5]. Guillain–Barré Syndrome may also cause autonomic dysreflexia[9].

Physiotherapy Management[edit | edit source]

In the event of an episode, the physiotherapist should perform the following steps:

  1. Sit the patient upright with their legs dangling (lying the patient down is contraindicated).
  2. Notify nearby nurse or doctor for assistance.
  3. Check catheter for kink, block, fullness (notify nurse to empty if needed)
  4. Remove any tight clothing or constrictive devices, which will help lower their blood pressure by inducing the pooling of blood in the abdominal and lower extremity vessels as well as eliminating possible triggering stimuli.
  5. Look for another potentially noxious stimulus below NLI.
  6. Vital signs should be closely monitored, and identification of the triggering stimulus should be immediately attempted.
  7. Blood pressure should be checked at least every 5 minutes, and an arterial line should be considered. The noxious stimuli should be corrected as soon as possible[10][1].
  8. Document.

Note: If the Clinician cannot find the triggering stimulus and above-mentioned steps do not manage the systolic blood pressure below 150 mmHg or less than 40 mmHg above the patient's usual baseline, the clinician should immediately inform the medical staff (doctor or nurse) .

Complications[edit | edit source]

Common complications of Autonomic Dysreflexia are:

  1. Pulmonary Edema
  2. Left Ventricular Dysfunction
  3. Retinal Detachment
  4. Intracranial Hemorrhage
  5. Seizures, or Death.
  6. If the patient has coronary artery disease, an episode of autonomic dysreflexia may cause a Myocardial Infarction[4].

Prognosis[edit | edit source]

The prognosis of autonomic dysreflexia is good if the condition is identified early, and sufficient education is provided to the patient with spinal cord injury and caregivers.

Differential Diagnosis[edit | edit source]

  • Acute glomerulonephritis
  • Anxiety
  • Cushing's syndrome
  • Drug use or overdose (e.g., stimulants, especially alcohol, cocaine, or levothyroxine)
  • Hyperaldosteronism
  • Hyperthyroidism
  • Intracranial hemorrhage
  • Ischemic stroke
  • Nephritic and nephrotic syndrome
  • Polycystic kidney disease

Resources[edit | edit source]

An excellent free informational website devoted to patient and professional education about spinal cord injuries can be found at the International Spinal Cord Society (ISCoS) website e-learning modules. It provides educational modules designed for all stages and levels of spinal cord injury for both laypersons and healthcare personnel[4].

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References[edit | edit source]

  1. 1.0 1.1 1.2 1.3 Allen KJ, Leslie SW. Autonomic dysreflexia. InStatPearls [Internet] 2022 Feb 14. StatPearls Publishing.
  2. Dr Matt & Dr Mike. Autonomic Dysreflexia. Available from: http://www.youtube.com/watch?v=eocOmytfg8s last accessed 6/6/2009]
  3. 3.0 3.1 Khastgir J, Drake MJ, Abrams P. Recognition and effective management of autonomic dysreflexia in spinal cord injuries. Expert opinion on pharmacotherapy. 2007 May 1;8(7):945-56.
  4. 4.0 4.1 4.2 4.3 4.4 4.5 Lakra C, Swayne O, Christofi G, Desai M. Autonomic dysreflexia in spinal cord injury. Practical neurology. 2021 Dec 1;21(6):532-8.
  5. 5.0 5.1 Karlsson AK. Autonomic dysreflexia. Spinal cord. 1999 Jun;37(6):383-91.
  6. Del Fabro AS, Mejia M, Nemunaitis G. An investigation of the relationship between autonomic dysreflexia and intrathecal baclofen in patients with spinal cord injury. The journal of spinal cord medicine. 2018 Jan 2;41(1):102-5. BibTeXEndNoteRefManRefWorks
  7. Shergill IS, Arya M, Hamid R, Khastgir J, Patel HR, Shah PJ. The importance of autonomic dysreflexia to the urologist. BJU international. 2004 May;93(7):923-6.
  8. Gibbons CH, Freeman R. Delayed orthostatic hypotension: a frequent cause of orthostatic intolerance. Neurology. 2006 Jul 11;67(1):28-32.
  9. Autonomic Dysreflexia https://medlineplus.gov/ency/article/001431.htm
  10. Trop CS, Bennett CJ. Autonomic dysreflexia and its urological implications: a review. The Journal of urology. 1991 Dec 1;146(6):1461-9.
  11. PT Exam Prep. Study Topics: Autonomic Dysreflexia Made Easy. Available from: http://www.youtube.com/watch?v=AMjKn7w4C1o[last accessed 25/4/2022]
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