Syncope is generally categorized as a brief loss of consciousness, related to a drop in arterial blood pressure and subsequent inadequate supply of blood and nutrients to the brain. Loss of consciousness is characterized by a lack of responsiveness, awareness, and postural hypotension. Patients may have prodromal symptoms and complain of dizziness, but most often syncope occurs without any warning, and can last up to 20 seconds. Patients generally recover without knowledge of the episode or the time that has passed (Brignole and Benditt 2011).

Postural hypotension, or collapse, may be confused or reported by the patient as having fainted, when in fact, the cause may be unknown or unrelated to a syncopal episode. Olshansky reports (Grubb and Olshansky 2005) on a study with 121 patients who were admitted into an emergency room for having fainted or collapsed. Of the 121 patients, only 15 had a true syncopal episode, 15 patients were diagnosed with cardiac arrest, one patient had fallen asleep, and one patient was dead. The remaining patients’ diagnosis was unknown.

The loss or inadequate supply of cerebral nutrients to the brain, is known scientifically as “cerebral hypoperfusion,” or the common “faint,” and has a quick recovery that distinguishes syncope from loss of consciousness from other causes. A firsthand eyewitness account of a syncopal episode may help with the diagnosis. The American Heart Association recommends referral to a physician who can rule out other conditions that may present similar symptoms and have a more serious pathophysiological origin (American Heart Association.org 2016). A syncopal episode should not be taken lightly, and should be of great concern as it may be a symptom of another more lethal or serious systemic disease, such as cardiac arrest (Grubb and Olshansky 2005). In addition, patients who have a history of some previous trauma such as a concussion, or who are having a seizure or stroke may present similar symptoms and lose consciousness. Patients, who have experienced syncope, may not remember the stimulus or origin of the episode. In addition, episodes of syncope can be related to medications, or withheld from disclosure in the medical history because of embarrassment or drug abuse (Brignole and Benditt 2011).

Differential diagnosis of syncope falls within four general categories (Table 3.2.1): reflex syncope (neurally mediated or neurocardiogenic), syncope from orthostatic hypotension, and cardiac and cerebrovascular related syncope (Grubb and Olshansky 2005; Moya et al. 2009). Unknown or undifferentiated causes may include arrhythmias, seizures, and psychiatric causes (Grubb and Olshansky 2005).

Reflex syncope (neutrally mediated or neurocardiogenic) is further classified as vasovagal (VVS), situational, carotid sinus syncope (CSS), and atypical syncope (Brignole and Benditt 2011). VVS is a response to emotional stress, pain, or fear and is preceded by dizziness, sweating, pallor, and nausea (Sheldon et al. 2015). Situational syncope is more specific with known triggers such as exercise, defecation, or urination. Carotid sinus syncope is rare and involves direct stimulation of the carotid sinuses. Atypical syncope is absent of triggers or known causes (Brignole and Benditt 2011).

VVS is the most common cause of syncope (Grubb and Olshansky 2005; Brignole and Benditt 2011). The vagus nerve is the 10th out of 12 cranial nerves and supplies the involuntary nervous system. In VVS, the vagus nerve is stimulated, causing a vasovagal response that directs blood to the extremities and increases heart rate in order to maintain homeostasis and an adequate supply of blood to the brain. This response is commonly known as the fight or flight response. In the absence of movement, blood pools in the extremities, and venous return decreases. Heart rate slows (bradycardia) to allow for ventricular filling along with a drop in blood pressure. Homeostasis is disrupted, and the brain is deprived of cerebral nutrients, causing cerebral hypoperfusion that results in hypotension and syncope (Malamed 2015). The elderly (≥ 80yo) have the greatest risk for a syncopal episode that would result in an emergency room visit and/or require medical attention (Soteriades et al. 2002; Grubb and Olshansky 2005).

Syncope resulting from orthostatic hypotension may occur when a patient is raised from a supine to an upright position (Figure 3.2.1) and is the second most common cause of syncope (Grubb and Olshansky 2005; Brignole and Benditt 2011). This type of syncope is often related to diabetes, antihypertensive medications, and dehydration. Autonomic nervous system disturbances, such as Parkinson’s disease and Addison’s disease, may also cause orthostatic syncope (Grubb and Olshansky 2005; Brignole and Benditt 2011).

Cardiovascular syncope is most often related to cardiac arrhythmias and other structural cardiovascular diseases such as myocardial ischemia and infarction (Brignole and Benditt 2011). Findings from the Framingham heart study provide data on the extent and severity of outcomes from syncope. Of the 822 participants included in this subset, VVS was documented as the most common (21.2%) cause of syncope. Cardiovascular syncope was determined to be the cause of syncope in only 9.5% of the participants, this type of syncope was associated with an increased risk for cardiovascular events and premature death (Soteriades et al. 2002).