Autonomic Dysfunction in Cardiology: Pathophysiology, Investigation, and Management

Abstract

Presyncope and syncope are common medical findings, with a > 40% estimated lifetime prevalence. These conditions are often elicited by postural stress and can be recurrent and accompanied by debilitating symptoms of cerebral hypoperfusion. Therefore, it is critical for physicians to become familiar with the diagnosis and treatment of common underlying causes of presyncope and syncope. In some patients, altered postural hemodynamic responses result from a failure of compensatory autonomic nervous system reflex mechanisms. The most common presentations of presyncope and syncope secondary to this autonomic dysfunction include vasovagal syncope, neurogenic orthostatic hypotension, and postural tachycardia syndrome. The most sensitive method for diagnosis is a detailed initial evaluation with medical history, physical examination, and resting electrocardiogram to rule out cardiac syncope. Physical examination should include measurement of supine and standing blood pressure and heart rate to identify the pattern of hemodynamic regulation during orthostatic stress. Additional testing may be required in patients without a clear diagnosis after the initial evaluation. Management of patients should focus on improving symptoms and functional status and not targeting arbitrary hemodynamic values. An individualized structured and stepwise approach should be taken for treatment, starting with patient education, lifestyle modifications, and use of physical counter-pressure manoeuvres and devices to improve venous return. Pharmacologic interventions should be added only when conservative approaches are insufficient to improve symptoms. There are no gold standard approaches for pharmacologic treatment in these conditions, with medications often used off label and with limited long-term data for effectiveness.

Copyright © 2017 Canadian Cardiovascular Society. Published by Elsevier Inc. All rights reserved.

Figures

Figure 1. Schematic “Ball & Hill” Cartoons of heart rate (HR; solid line) and systolic blood pressure (SBP; dashed line) response patterns in different disorders. Panel A

Vasovagal Syncope can often have preserved HR and SBP even after tilt until the SBP (the “ball”) suddenly falls off of a cliff; Panel B: Classical Orthostatic Hypotension (OH) shows a rapid drop in SBP with tilt, like a ball rolling down a steep hill; Panel C: Initial OH shows a very early and transient (but potentially large magnitude) drop in SBP with rapid recovery, like a ball rolling into and then out of a ditch; Panel D: Delayed OH has a more gradual drop in SBP that can take a prolonged time to reach the threshold for OH, like a ball steadily rolling down a gentle hill; and Panel E: Postural Tachycardia Syndrome (POTS) is marked by an exaggerated increase in HR without OH.

Figure 1. Schematic “Ball & Hill” Cartoons of heart rate (HR; solid line) and systolic blood pressure (SBP; dashed line) response patterns in different disorders. Panel A

Vasovagal Syncope can often have preserved HR and SBP even after tilt until the SBP (the “ball”) suddenly falls off of a cliff; Panel B: Classical Orthostatic Hypotension (OH) shows a rapid drop in SBP with tilt, like a ball rolling down a steep hill; Panel C: Initial OH shows a very early and transient (but potentially large magnitude) drop in SBP with rapid recovery, like a ball rolling into and then out of a ditch; Panel D: Delayed OH has a more gradual drop in SBP that can take a prolonged time to reach the threshold for OH, like a ball steadily rolling down a gentle hill; and Panel E: Postural Tachycardia Syndrome (POTS) is marked by an exaggerated increase in HR without OH.

Figure 1. Schematic “Ball & Hill” Cartoons of heart rate (HR; solid line) and systolic blood pressure (SBP; dashed line) response patterns in different disorders. Panel A

Vasovagal Syncope can often have preserved HR and SBP even after tilt until the SBP (the “ball”) suddenly falls off of a cliff; Panel B: Classical Orthostatic Hypotension (OH) shows a rapid drop in SBP with tilt, like a ball rolling down a steep hill; Panel C: Initial OH shows a very early and transient (but potentially large magnitude) drop in SBP with rapid recovery, like a ball rolling into and then out of a ditch; Panel D: Delayed OH has a more gradual drop in SBP that can take a prolonged time to reach the threshold for OH, like a ball steadily rolling down a gentle hill; and Panel E: Postural Tachycardia Syndrome (POTS) is marked by an exaggerated increase in HR without OH.

Figure 1. Schematic “Ball & Hill” Cartoons of heart rate (HR; solid line) and systolic blood pressure (SBP; dashed line) response patterns in different disorders. Panel A

Vasovagal Syncope can often have preserved HR and SBP even after tilt until the SBP (the “ball”) suddenly falls off of a cliff; Panel B: Classical Orthostatic Hypotension (OH) shows a rapid drop in SBP with tilt, like a ball rolling down a steep hill; Panel C: Initial OH shows a very early and transient (but potentially large magnitude) drop in SBP with rapid recovery, like a ball rolling into and then out of a ditch; Panel D: Delayed OH has a more gradual drop in SBP that can take a prolonged time to reach the threshold for OH, like a ball steadily rolling down a gentle hill; and Panel E: Postural Tachycardia Syndrome (POTS) is marked by an exaggerated increase in HR without OH.

Figure 1. Schematic “Ball & Hill” Cartoons of heart rate (HR; solid line) and systolic blood pressure (SBP; dashed line) response patterns in different disorders. Panel A

Vasovagal Syncope can often have preserved HR and SBP even after tilt until the SBP (the “ball”) suddenly falls off of a cliff; Panel B: Classical Orthostatic Hypotension (OH) shows a rapid drop in SBP with tilt, like a ball rolling down a steep hill; Panel C: Initial OH shows a very early and transient (but potentially large magnitude) drop in SBP with rapid recovery, like a ball rolling into and then out of a ditch; Panel D: Delayed OH has a more gradual drop in SBP that can take a prolonged time to reach the threshold for OH, like a ball steadily rolling down a gentle hill; and Panel E: Postural Tachycardia Syndrome (POTS) is marked by an exaggerated increase in HR without OH.

Figure 2

Recommended approach for treatment of neurogenic orthostatic hypotension (nOH). OH, orthostatic hypotension; LV, left ventricular; PO, orally; q4h, every 4 hours; TID, three times a day.

Figure 3

Recommended approach for treatment of postural tachycardia syndrome (POTS). SNRI, serotonin-norepinephrine reuptake inhibitor, PO, orally; QID, four times a day; BID, twice a day; TID, three times a day; q4h, every 4 hours; QHS, every bedtime.