MUST READ for all P.O.T.S. patients AND their doctors!!!!

The Postural Tachycardia Syndrome (POTS):
Pathophysiology, Diagnosis & Management

Satish R Raj MD MSCI
Autonomic Dysfunction Center, Division of Clinical Pharmacology, Departments of Medicine &
Pharmacology, Vanderbilt University, Nashville, Tennessee, USA.
Funding: Supported in part by National Institute of Health grants 2P01 HL56693, K23
RR020783 and M01 RR00095.
Address for correspondence: Satish R Raj MD MSCI, AA3228 Medical Center North,
Vanderbilt University, 1161 21st Avenue South Nashville, TN, 37232-2195, USA. Email:
satish.raj@vanderbilt.edu

Abstract
Postural tachycardia syndrome (POTS), characterized by orthostatic tachycardia in the
absence of orthostatic hypotension, has been the focus of increasing clinical interest over the last
15 years 1. Patients with POTS complain of symptoms of tachycardia, exercise intolerance,
lightheadedness, extreme fatigue, headache and mental clouding. Patients with POTS
demonstrate a heart rate increase of ≥30 bpm with prolonged standing (5-30 minutes), often have
high levels of upright plasma norepinephrine (reflecting sympathetic nervous system activation),
and many patients have a low blood volume. POTS can be associated with a high degree of
functional disability. Therapies aimed at correcting the hypovolemia and the autonomic
imbalance may help relieve the severity of the symptoms. This review outlines the present
understanding of the pathophysiology, diagnosis, and management of POTS.
Key Words: Postural Tachycardia Syndrome; Pathophysiology; Diagnosis; Management

Introduction
Postural tachycardia syndrome (POTS), characterized by orthostatic tachycardia in the
absence of orthostatic hypotension, has been the focus of increasing clinical interest over the last
15 years. Patients with POTS complain of symptoms of tachycardia, exercise intolerance,
lightheadedness, extreme fatigue, headache and mental clouding. This disorder is not new, but
has gone by many different names over the last 150 years, including mitral valve prolapse
syndrome, neurocirculatory asthenia, orthostatic tachycardia, and orthostatic intolerance. An
advantage of the name postural tachycardia syndrome (POTS) is that it focuses attention on the
sympathetic activation which characterizes the disorder. This review outlines the present
understanding of the pathophysiology, diagnosis, and management of POTS.
Physiology of Upright Posture Assumption of the upright posture requires prompt physiological adaptation to gravity.

There is an instantaneous descent of ~500 ml of blood from the thorax to the lower abdomen,buttocks, and legs. In addition, there is a 10-25% shift of plasma volume out of the vasculatureand into the interstitial tissue. This shift decreases venous return to the heart, resulting in a transient decline in both arterial pressure and cardiac filling.

This has the effect of reducing the
pressure on the baroreceptors, triggering a compensatory sympathetic activation that results in an
increase in heart rate and systemic vasoconstriction (countering the initial decline in blood
pressure). Hence, assumption of upright posture results in a 10-20 beat per minute increase in
heart rate, a negligible change in systolic blood pressure, and a ~5 mmHg increase in diastolic
blood pressure.

Pathophysiology of Orthostatic Dysregulation
Failure of the regulatory mechanism to respond properly may lead to either orthostatic
hypotension, as is seen in autonomic failure, or orthostatic tachycardia, as is seen in POTS.
Orthostatic hypotension is defined as a fall in pressure on standing of more than 20/10 mmHg.
However, it is common in patients with autonomic failure for the decline to be much greater than
this, which may result in loss of consciousness soon after standing. On the other hand, in POTS,
blood pressure is typically maintained on standing or may even increase. Heart rate rises more
than 30 bpm and symptoms reminiscent of impaired cerebral perfusion may develop.

Clinical Presentation of Postural Tachycardia Syndrome (POTS)
Diagnostic Criteria & Common Clinical Features

POTS is defined as the presence of symptoms of orthostatic intolerance for at
least 6 months accompanied by a heart rate increase of at least 30 beats/min within 5-30 minutes
of assuming an upright posture. This should occur in the absence of orthostatic hypotension (a
fall in blood pressure >20/10 mmHg). The syndrome must occur in the absence of prolonged
bed rest, medications that impair autonomic regulation (such as vasodilators, diuretics,
antidepressants or anxiolytic agents), or any other chronic debilitating disorders that might cause
tachycardia (such as dehydration, anemia or hyperthyroidism). It is important to recognize that
this syndrome is typically disabling. Hence, the mere observation of orthostatic tachycardia is
not, by itself, sufficient to make the diagnosis of POTS.
Table 1: Criteria for the Postural Tachycardia Syndrome
1. Heart rate increase ≥30 beats per minute from supine to standing (5-30 min)
2. Symptoms get worse with standing and better with recumbence.
3. Symptoms lasting ≥6 months
4. Standing plasma norepinephrine ≥600 pg/ml (≥3.5 nM)
5. Absence of other overt cause of orthostatic symptoms or tachycardia (e.g. active bleeding,
acute dehydration, medications).

Symptoms include mental clouding (“brain fog”), blurred or tunneled vision, shortness of
breath, palpitation, tremulousness, chest discomfort, headache, lightheadedness and nausea.
While pre-syncope is common in these patients, only a minority (~30%) actually pass out. The
chest pains are almost never due to coronary artery obstruction, but are sometimes associated
with electrocardiographic changes in the inferior leads, particularly when upright.
Many patients complain of significant exercise intolerance and extreme fatigue. Even
activities of daily living, such as bathing or housework, may greatly exacerbate symptoms with
resultant fatigue. This can pose significant limitations on their functional capacity.
The disorder primarily affects women of child-bearing age. The female:male ratio is 4:1.
The reason for the strong female predominance is not known, but it should be noted that
orthostatic tolerance is reduced in normal healthy females. Others disorders such as
autoimmune diseases and irritable bowel syndrome are seen commonly in patients with POTS,
and also have higher prevalence in women.
Patients frequently report that their symptoms began following acute stressors such as
pregnancy, major surgery, or a presumed viral illness, but in others cases, symptoms develop
more insidiously. About 80% of female patients report an exacerbation of symptoms in the premenstrual
phase of their ovulatory cycle (unpublished data). Gazit et al. have also reported an
association between joint hypermobility and POTS. Many patients have bowel irregularities and
have been co-diagnosed with irritable bowel syndrome, and some have abnormalities of
sudomotor regulation.
Psychological Profile in POTS
Patients with POTS are sometimes clinically diagnosed as having anxiety disorders such
as panic disorder. Indeed, patients demonstrate elevated scores on the Beck Anxiety Inventory10
(23±10 vs. 7±8; P<0.001), a commonly used instrument that quantifies the magnitude of anxiety
symptoms. Unfortunately, this questionnaire includes somatic anxiety symptoms (such as
palpitation) which can result from a hyperadrenergic state such as is seen in POTS. When a
newer, cognitive-based measure of anxiety (the Anxiety Sensitivity) is used, there was a
trend toward less anxiety in the patients with POTS than the general population (15±10 vs. 19±9;
P=0.063). Thus, much of the anxiety attributed to patients with POTS might be due to a
misinterpretation of their physical symptoms.
We did find that patients with POTS often have diminished attention and concentration
compared to matched healthy volunteers. Using the Inattention score from the Connors Adult
ADHD Rating Scale13, the patients with POTS scored significantly higher than did the normal
control subjects.
Physical Findings in POTS
The most striking physical feature of POTS is the severe tachycardia that develops on
standing from a supine position. Blood pressure and heart rate must be measured in both
postures and should be taken not only immediately after standing but also at 2, 5 and 10 minutes
as occasional patients have a delayed tachycardia. Normal subjects commonly develop a
transient tachycardia within the 1st minute of standing that should not be mistaken for POTS. A
sustained heart rate increase ≥30 beats per minute is considered diagnostic of orthostatic
tachycardia (Figure 1). The systolic blood pressure should not fall by more than 20 mmHg, and
in many cases it will actually increase with standing. Recent data suggests that there may be a
significant circadian variability in the orthostatic tachycardia seen in patients with POTS. In a
cohort of 17 patients with POTS, the orthostatic tachycardia was greater in the morning than in
the evening (38±4 bpm vs. 27±3 bpm; P<0.001), while there was no diurnal difference in the
orthostatic change in blood pressure. These data suggest that to optimize diagnostic sensitivity,
postural vital signs should be performed in the morning.

Hemodynamics with Upright Posture in POTS
The tracings for heart rate, blood pressure, and tilt table angle are
shown for a patient with the postural tachycardia syndrome
and for a healthy control subject during a 30 minute tilt head-up
test. With head-up tilt, the heart rte immediately increases in POTS and
peaks at over 170 bpm prior to the end of the tilt. In contrast the heart rate
of the healthy control subject rises to just over 100 bpm. The patient with
POTS does not experience a reduction in blood pressure during the tilt
test. It is largely unchanged during the test.
Cardiac auscultation may reveal a murmur of mitral valve prolapse, but significant mitral
regurgitation is unusual. A striking physical feature of POTS is the dependant acrocyanosis that
occurs in 40-50% of patients with POTS. These patients experience a dark red-blue
discoloration of their legs, which are cold to the touch. This can extend from the feet to above
the level of the knees. The reasons underlying this phenomenon are not clear. The current data
suggest that the problem is not due to increased pooling in the venous capacitance vessels, but
rather due to decreased blood flow in the skin.
Laboratory Abnormalities in POTS
Some authors advocate the use head-up tilt table testing as a standardized method to
assess an individual’s response to a change in posture. The patient is positioned on a standard
tilt table and following baseline measurements of blood pressure and heart rate, the patient is
inclined to a 70-degree head-up angle. Blood pressure and heart rate are then measured either
continuously or at least every 12 minutes. The orthostatic tachycardia is often measured in a
similar fashion to the standing test, with a similar threshold used to diagnose orthostatic
tachycardia (an increase of ≥30 bpm). However, the physiology in response to passive standing
on a tilt table (with the legs still) is not the same as “active standing” where the patient must
support their own weight and maintain their balance. The latter requires use of the “skeletal
muscle pump” and mimics real life, while the tilt table does not. For this reason Streeten et al.
use similar criteria for orthostatic tachycardia (>27 bpm), but only with active standing. In a
recent study, we compared the orthostatic heart rate response of these 2 methods, and found that
the tilt table test was associated with an increased orthostatic tachycardia in both patients with
POTS and control subjects19. While both tests were sensitive for the diagnosis of POTS with a 30
bpm threshold for orthostatic tachycardia, the stand test had a specificity of 79% compared to
only 23% for the tilt table test.
POTS patients should have only sinus tachycardia. An electrocardiogram should be done
routinely to rule out the presence of an accessory bypass tract or any abnormalities of cardiac
conduction. A Holter monitor might prove useful to exclude a re-entrant dysrhythmia, especially
if the patient gives a history of paroxysmal tachycardia with a sudden onset and sudden offset.
Other tests such as echocardiograms are only required in individual cases when there is doubt
about the structural integrity of the heart.

Acrocyanosis in POTS
One of the more striking physical features in the postural tachycardia syndrome (POTS) is the
gross change in dependent skin color that can occur with standing. The panel shows the legs of 2
people who have been standing for 5 minutes, a healthy control subject and a patient with
POTS. The patient with POTS has significant dark red mottling of her legs
extending up to the knees while standing, while the control subject does not have a similar
discoloration.
We often measure plasma norepinephrine levels in both a supine and standing position (at
least 15 minutes in each position prior to blood sampling). The supine norepinephrine is often
high normal in patients with POTS, while the upright norepinephrine is usually elevated (>600
pg/ml), a reflection of the exaggerated neural sympathetic tone that is present in these patients
while upright.
Tests of autonomic nervous system function typically show intact or exaggerated
autonomic reflex responses. These patients often have preserved vagal function as reflected by
their sinus arrhythmia ratio in response to deep breathing. They often have a vigorous pressor
response to the Valsalva maneuver, with an exaggerated blood pressure recovery and overshoot
both before and after release.
The blood volume is low in many patients with POTS. This can be objectively assessed
with nuclear medicine tests to directly measure either the plasma volume or the red cell volume.
This knowledge may help to focus the treatment plan.
Some patients with POTS have co-existent complaints of episodic flushing. In about half
of these cases there is an associated mast cell activation disorder. This can be diagnosed by
collecting urine from individual 2-4 hour voids following a severe flushing spell for
determination of methylhistamines.

Differential Diagnosis
The clinical picture of POTS can be confused with pheochromocytoma because of the
paroxysms of hyperadrenergic symptoms. Patients with pheochromocytoma are more likely to
have symptoms while lying down than POTS patients, and often have much higher plasma
norepinephrine levels. The diagnosis of pheochromocytoma is made by assessment of plasma or
urinary metanephrines.
There is commonly some confusion between neurally mediated syncope and POTS.
There is a clinical overlap between the 2 disorders, such that about 30% of patients with POTS
also have neurally mediated syncope. Nonetheless, most patients with POTS do not faint.
Almost all patients with POTS also have associated fatigue. The reasons are not entirely
clear. In some patients, but not all, the fatigue improves with pharmacological control of the
orthostatic tachycardia. Some patients with POTS have symptomatic overlap with chronic
fatigue syndrome.

Pathophysiology of POTS
Tachycardia and asthenia on standing is a final common pathway of many
pathophysiological processes. POTS is therefore best viewed as a syndrome rather than a
disease. Many disorders with a common key clinical presentation (the orthostatic tachycardia)
have been described. Over the last decade, much has been learned about specific forms or subtypes
within POTS, although a simple test to categorize the individual patient remains elusive.
We discuss here the common POTS phenotypes including neuropathic POTS and central
hyperadrenergic POTS.
There are multiple distinct pathophysiological subtypes within the postural tachycardia
syndrome (POTS). There is a schematic of Neuropathic POTS. There is patchy
denervation of the sympathetic innervation of the blood vessels in the extremities (especially the
legs) and the kidney with subsequent hypovolemia and increased orthostatic venous pooling.
This feeds back to the brain to increase sympathetic nervous system outflow in a compensatory
effort. This increased sympathoneural flow is sensed most in the heart where there is no
denervation. There is a schematic of Central Hyperadrenergic POTS. In this case, the
underlying problem is excessive sympathetic nervous outflow from the brain that affects the
blood vessels, kidneys and the heart. In addition to tachycardia, this form of POTS is often
associated with orthostatic hypertension.

Neuropathic POTS
Considering that POTS patients have high plasma NE levels, it would seem paradoxical
that a neuropathy is proposed as an underlying process. Yet some of them have a form of
dysautonomia, with preferential denervation of sympathetic nerves innvervating the lower
limbs. There have been several findings consistent with this hypothesis. The results of
sudomotor axon reflex testing22 and galvanic skin stimulation23 support this as well as skin
biopsy results25. Further, these patients have been found to be hypersensitive to infusions of
norepinephrine and phenylephrine into veins of the foot, despite high circulating plasma
norepinephrine concentrations24. This suggests that there is a denervation hypersensitivity of the
leg veins. Using a segmental norepinephrine spillover approach, Jacob et al.26 demonstrated that
patients with POTS had normal sympathetic neuronal norepinephrine release in their arms, but
less norepinephrine release (and thus less sympathetic activation) in their lower body.

Pathophysiological Schema in POTS
Hypovolemia & Blood Volume Regulation
Many patients with POTS have low plasma volumes, but not all. To determine if
hypovolemia existed in an unselected group of POTS patients, we studied 15 patients with POTS
(not selected for blood volume) and 14 control subjects5. Plasma volume was measured using
131-I labeled human serum albumin using a dye dilution technique, and compared to the predicted
blood volume for each individual, based upon their height, weight, and gender. As can be seen
in Figure 4, the control subjects did not have a significant plasma volume deficit (0.8±2.5%). In
contrast, the patients with POTS had a plasma volume deficit of 12.8±2.0% (P<0.001).
The renin-angiotensin-aldosterone system plays a key role in the neurohormonal
regulation of plasma volume in humans. Plasma renin activity and angiotensin II would be
expected to increase in response to hypovolemia in order to promote blood volume expansion.
Angiotensin II promotes sodium and water retention directly by stimulating sodium resorption in
the proximal tubules, and indirectly by stimulating aldosterone secretion.

Blood Volume Deviation in POTS
Patients with orthostatic tachycardia who were also hypovolemic have low levels of
standing plasma renin activity and aldosterone compared to normovolemic patients. This is
true in both supine (190±140 pM vs. 380±230 pM; P=0.017) and upright posture (480±290 pM
vs. 810±370 pM; P=0.019). One would have expected a compensatory increase in both plasma
renin activity and aldosterone given the hypovolemia in these patients. This low level of plasma
renin activity and aldosterone is a paradox that remains unexplained. These data suggest that
abnormalities in the renin-angiotensin-aldosterone axis might have a role in the pathophysiology
of POTS by contributing to hypovolemia and impaired sodium retention. Such hypovolemia
could be accounted for by a neuropathic process involving the kidney. A significant modulator
of renin release is the sympathetic nervous system. Thus perturbations in the renin-aldosterone
system might result from partial sympathetic denervation involving the kidney.

Central Hyperadrenergic POTS
As a part of the definition, POTS is associated with a hyperadrenergic state. In
many such cases, the hyperadrenergic state is secondary to a partial dysautonomia or
hypovolemia. There are some cases, however, in which the primary underlying problem seems
to be excessive sympathetic discharge. These patients often have extremely high levels of
upright norepinephrine. While we require the upright norepinephrine level to be >600 pg/ml for
the diagnosis of POTS, the hyperadrenergic subgroup often has upright norepinephrine level
>1000 pg/ml and it is occasionally >2000 pg/ml. These patients sometimes have large increases
in blood pressure on standing, indicating that baroreflex buffering is somehow impaired.
Central hyperadrenergic POTS in its most florid form is much less common than
neuropathic POTS, comprising only ~10% of patients. Thus therapy in these cases usually
targets a decrease in sympathetic tone both centrally and peripherally.
Central sympatholytics such as methyldopa or clonidine can be used. Peripheral betaadrenergic
blockade may be better tolerated by these patients than by those with neuropathic
POTS.
Norepinephrine Transporter Deficiency
A specific genetic abnormality has been identified in a kindred with hyperadrenergic
POTS. These individuals have a single point mutation in the norepinephrine transporter
(NET). The resultant inability to adequately clear norepinephrine produces a state of excessive
sympathetic activation in response to a variety of sympathetic stimuli. While rare, this mutation
has taught us much about the importance of a functional NET.
Although functional NET mutations might be infrequent, pharmacological NET
inhibition is very common. Many antidepressant and attention deficit medications work at least
in part through inhibition of NET. This includes traditional drugs such as tricyclic
antidepressants, and newer medications which are pure NET inhibitors (e.g. atomoxetine or
reboxetine). Both we and others have found that pharmacological NET inhibition can
recreate an orthostatic tachycardia phenotype in susceptible healthy volunteer subjects.
Yohimbine, a central alpha-2 antagonist that will also increase synaptic norepinephrine, can also
cause orthostatic tachycardia.

Mast Cell Activation
Some patients with POTS have co-existent mast cell activation. These patients have
episodic flushing and abnormal increases in urine methylhistamine (the primary urinary
metabolite of histamine)20. Methylhistamine should ideally be measured in 2 hour aliquots at the
time of a flushing episode and not just in a random 24 hour period. Other associated symptoms
include shortness of breath, headache, lightheadedness, excessive diuresis, and gastrointestinal
symptoms such as diarrhea, nausea, and vomiting.
Flushing can be triggered by long-term
standing, exercise, premenstrual cycle, meals, and sexual intercourse.
These patients often have
a hyperadrenergic response to posture, with both orthostatic tachycardia and hypertension. They
demonstrate a vigorous sympathetic vasopressor response during the Valsalva maneuver with a
blood pressure overshoot in late phase II and an exaggerated phase IV blood pressure overshoot.
It is not clear if mast cell activation, releasing vasoactive mediators, represents the primary event
in these patients or if sympathetic activation, through release of norepinephrine, neuropeptide Y
and ATP, is the cause of mast cell activation.
In these patients, beta-adrenergic antagonists can actually trigger an episode and worsen
symptoms. Centrally acting agents to decrease the sympathetic nervous system discharge (e.g.
methyldopa or clonidine) may prove effective. Alternatively, treatment could target mast cell
mediators with a combination of antihistamines (H1- and H2-antagonists) and with the cautious
use of non-steroidal agents (high dose aspirin) in refractory cases.

Non-Pharmacological Treatment of POTS
No therapy is successful for all patients with POTS. Initial efforts should focus on
identifying and treating any reversible causes. Potentially contributory medications (especially
vasodilators, diuretics, and drugs that inhibit NET) should be withdrawn. If a patient has been
through prolonged bedrest, their symptoms will gradually improve as they recondition
themselves to upright posture. Treatment should be optimized for any chronic disease that is
present. If there is clear evidence of a re-entrant supraventricular arrhythmia, then this should be
treated, including with radiofrequency ablation as appropriate. However, radiofrequency sinus
node modification for the sinus tachycardia of POTS is not recommended. This often makes the
patient’s symptoms worse (and occasionally the patient becomes pacemaker dependent).
It is important to educate the patient about the nature of the disorder. The patient should
avoid aggravating factors such as dehydration, and extreme heat. In order to ensure adequate
hydration, we ask our patients to consume 8-10 cups of water daily and to rapidly drink 16 fl oz
of water to lower their heart rates35. In addition, they are asked to aggressively increase their
sodium intake up to 200 mEq/day. This is often hard to achieve without NaCl tablets 1 gm/tablet
TID with meals. Elastic support hose can help to minimize the degree of peripheral venous
pooling and enhance venous return. We recommend 30-40 mmHg of counter-pressure and they
should come up to the waist. If the stockings are only knee-high, a line of edema can form just
above the stockings. Their use can be limited by their tolerability as the stockings can be hot,
itchy and uncomfortable. Exercise (both aerobic and resistance training) is also encouraged and
has been shown to be beneficial36. In addition to reversing any “deconditioning”, this
intervention can also increase blood volume. Vigorous exercise may acutely worsen symptoms
and may even result in prolonged fatigue. It is important that patients start slowly and remain
within range of their “target heart rate” in the early stages to avoid symptoms that might
discourage further exercise.
Acute blood volume expansion is effective at controlling the heart rate and acutely
improving symptoms. Jacob et al. found that 1 liter of physiological saline infused
intravenously over 1 hour decreased the orthostatic tachycardia from 33±5 bpm before the
infusion to 15±3 bpm immediately following the infusion. The physiological saline was more
effective at heart rate control than were treatments with either an alpha-1 agonist or an alpha-2
agonist. This treatment is not practical on a day to day basis as a medical setting is required to
insert the intravenous catheter and infuse the saline. Recently, there have been reports of
patients having regular saline infusions, typically 1 liter of normal saline every other day or
every day. Many report an improvement in symptoms. However, there are not yet objective
data to substantiate such benefit. Further, there is a risk of vascular access complications or
infection. At this time, such therapy for patients with POTS should be considered cautiously.

Pharmacological Treatment of POTS
No medicines are approved by the United States Food and Drug Administration for the
treatment of POTS. Thus all agents are used for this disorder are “off label”. Furthermore, there
are no pharmacological agents that have been tested in a long-term properly powered
randomized clinical trial.
Treatments for the Postural Tachycardia Syndrome
NaCl – Table salt; PO – by mouth; OD – once daily; BID –
twice daily; TID – three times daily; QID – four times
daily; IV – intravenous;
In patients in whom the presence of hypovolemia is either known or strongly suspected,
fludrocortisone (an aldosterone analogue) is often used. Through enhanced sodium retention, it
should expand the plasma volume, although there is a paucity of data regarding the exact
mechanisms of action. Although fairly well tolerated, side effects can include hypokalemia,
hypomagnesemia, worsening headaches, acne, and fluid retention with edema. Another volume
expanding agent that may be helpful for short-term use is oral vasopressin (DDAVP). This agent
causes the kidney to retain free water, but not sodium. Potential side effects include
hyponatremia, edema and headache. Erythropoietin has occasionally proven useful in patients
with POTS who are refractory to other forms of therapy. While the primary mode of action is
likely an increase in intravascular volume via its increase in red cell mass, erythropoietin also
appears to have a direct vasoconstrictive effect, possibly through enhanced red cell mediated
nitric oxide scavenging. Treatment with erythropoietin has many drawbacks including the
significant expense and the need for subcutaneous administration.
Central sympatholytic medications are often useful and well tolerated in patients with the
central hyperadrenergic form of POTS, but may not be as well tolerated in neuropathic POTS.
Clonidine is an alpha 2 agonist that acts centrally to decrease sympathetic nervous system tone.
Clonidine, at doses of 0.05 mg to 0.2 mg PO BID, can stabilize heart rate and blood pressure in
patients with a large amount of postganglionic sympathetic involvement. Unfortunately, it can
also cause drowsiness, fatigue and worsen the mental clouding of some patients. Methyldopa, a
false neurotransmitter, is sometimes more successful in controlling symptoms in these patients at
doses of 125 mg to 250 mg PO TID.
When used in low doses, beta-adrenergic antagonists can be useful. We typical use
propranolol 10-20 mg PO BID-QID. While this dose range is small, such doses can often have a
significant impact on heart rate control, and higher doses are often not tolerated due to
hypotension and fatigue.
Since a failure of vascular resistance may be an integral part of neuropathic POTS,
vasoconstrictors such as midodrine (an alpha-1 agonist) can be employed. Some patients
cannot tolerate this agent due to the unpleasant sensation of scalp tingling or goosebumps.
Midodrine can also cause hypertension.
We recently reported that an unselected group of patients seen in our inpatient research
unit were given a trial of the acetylcholinesterase inhibitor pyridostigmine. By increasing the
levels of synaptic acetylcholine at both the autonomic ganglia and the peripheral muscarinic
parasympathetic receptors, pyridostigmine significantly restrained the heart rate in response to
standing in our patients with POTS. We prescribe pyridostigmine 30mg to 60 mg PO TID alone
or in combination with low dose propranolol. Pyridostigmine can enhance bowel motility, so it
is not always well tolerated in patients with diarrhea-predominant irritable bowel syndrome
symptoms.
While most of the treatments discussed above have focused on the control of heart rate,
many patients are also greatly troubled by mental clouding. Modafinil, a stimulant whose
mechanism is not yet clear, has been used in some patients with resulting improvement in
alertness. However, caution is advised as it may aggravate the orthostatic tachycardia.

Conclusions
POTS is a disorder of the autonomic nervous system in which many symptoms can be
treated. The cardinal manifestation is symptomatic orthostatic tachycardia. The disorder can
produce substantial disability among otherwise healthy people. Patients with POTS demonstrate
a heart rate increase of ≥30 bpm with prolonged standing (5-30 minutes), often have high levels
of upright plasma norepinephrine, and many patients have a low blood volume. Therapies aimed
at correcting the hypovolemia and the autonomic imbalance may help relieve the severity of the
symptoms. Continued research is vital to better understand this disorder and to differentiate its
various subtypes.

30 responses to this post.

  1. Angiotensin II mediated low blood volume accounts for a sizable minority of patients.

    Reply

  2. Posted by DZ on March 23, 2011 at 1:29 pm

    It’s an overwhelming syndrome and there’s not a lot of support. My teen son has been diagnosed but then told to find a psychologist by the doctor that first identified his POTS.
    He seems to get most of his symptoms after waking. It’s as if something builds up as he sleeps. He recovers over time becoming fully functional most days by bead time only to wake to the nightmare all over again come morning.

    Reply

  3. I read on your blog right now that you are having twins and I wanted to say congratulations. I had POTS 12 years when I got pregnant with my daughter and I have to say being pregnant was the only time I felt normal. I hope your pregnancy is wonderful as well. God Bless!

    Reply

  4. Posted by Amy Demitrus on July 28, 2011 at 2:11 am

    My husband has seen several doctors for his diagnosis of pots. I very much would like to have him seen by Dr. Satish Raj at Vanderbilt Medical Center in TN. I am trying to accept his condition but I feel like other medications or medication evaluation is needed. Also,my 16 year old son was diagnosed with pots syndrome- but not treated. I am concerned about treatments for my son…he functions mostly on one kidney..81% or better. This was an abnormality from birth. My husband really needs some answers. I would really appreciate any and all help. We have relative that live near Vanderbilt and we could be there with short notice.

    Thanks,
    Amy Demitrus

    Reply

    • I have heard WONDERFUL things about the doctors and services for POTS/Dysautonomia patients at Vanderbuilt and would encourage you to seek help there if possible. Please update us on how your family is doing and what your experience there was like.
      Best Wishes,
      H

      Reply

  5. Posted by Summer Thomas on September 7, 2011 at 8:41 pm

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    Reply

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    Reply

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    Reply

  8. Found you and am so proud of your amazing efforts at providing education and inspiration, H. Wishing you well in all that you do and BLINK! I wish I could just transport myself to see you now! xoxo’s!

    Reply

  9. M –
    You are so special to me. I appreciate all YOU do in efforts to raise awareness for all of this. You are an angel of inspiration for many. Glad we can continue to work together towards such a great goal. And I wish you could be here now, too. Or me – there. Or both of us and the girls somewhere …as long as we were together. :-)
    H

    Reply

  10. Thank you for sharing this very informative article. Had I known years ago this is what was going on with me, I could have been diagnosed at least with this (even without the ME diagnosis). It would have spared me alot of heartache, and perhaps helped to keep me from getting so much worse.

    Reply

  11. [...] MUST READ for all P.O.T.S. patients AND their doctors …Jun 12, 2010 … Patients with POTS complain of symptoms of tachycardia, exercise intolerance, lightheadedness, extreme fatigue, headache and mental … [...]

    Reply

  12. This article is comprehensive and the diagram is noteworthy. I am posting a link on my page, so that my readers can visit here. Hat’s off to you!

    Reply

  13. Posted by CD on June 17, 2012 at 4:31 am

    Wonderful article! It is such a relief to know that there are many others that suffer from the same debilitating symptoms that I have for almost six months. I am scheduled to go to Vanderbilt but not until Nov…I feel like I’m going to lose every last bit of sanity I have. It’s so hard to pull myself put of bed each morning, knowing I am only going to be tormented with a plethora of symptoms and episodes.
    For so long I went from Dr to Dr explaining my symptoms, but no one could give me a straight answer. POTS awareness is so important, and could really help change someone’s life.

    Reply

  14. I have lived with POTS for over 17 years since the birth of my eldest and went thru a 2nd pregnancy with it (where my POTS improved for a year). I’ve been a research freak to “LIVE” with this disorder/syndrome/CHALLENGE and to educate my family and friends the best I can. I have met too many others along this journey suffering from this and variations of it combined with other chronic illness. Too many. This is one of the best posts and blogs I’ve come across that has quality, original and informative content. Bravo!

    Reply

  15. It’s funny to see just how many websites there are on this topic. I don’t know if I will
    need to be back, but it’s good to know I stumbled upon the one that has a lot of helpful info if this ever comes up for me again.

    Reply

  16. Posted by kathy on October 30, 2012 at 7:07 pm

    Can anyone tell me if I need to be standing when having a norephedrine blood test done testing for hyperadrenergic POTS? I thought I read that it needed to be done while standing?

    Thank you for any help you can provide with this!

    Reply

    • Kathy,

      You need a norepinephrine serum test BOTH standing and lying down. First laying down, and then 15 minutes after standing completely upright, and then again after laying down for an hour. Let us know how it goes, ok?
      Best,
      H

      Reply

  17. Posted by Josefa Croslin on February 10, 2013 at 1:13 pm

    For the most part, antihistamines are safe. Having said that, antihistamines can have side effects which, if the antihistamine is not properly administered, can be serious. The truth is, all medications have side effects. Some are mild, as in the case of an aspirin, unless you have stomach ulcers or aspirin sensitivity and others are more serious such as the side effects from chemotherapy, but for the most part, antihistamine side effects are fairly mild. The newest antihistamines are probably about the safest medications that there are. But there are differences between the various antihistamines and their side effects..

    Check out the most up to date piece of writing on our web-site
    <http://www.foodsupplementdigest.com/sources-of-potassium/

    Reply

    • Dysuatonomia patients need to be careful of antihistamines for the following reasons:

      bradycardia, if they take beta blockers
      hypotension, if they are already hypotensive or are prone to it
      can increase fainting/black outs so use caution when standing
      may increase symptoms in people with mast cell activation disorders. however, on the flip side: antihistamines may also improve symptoms in these patients.

      for me, antihistamines that are 2nd generation make me almost comatose for a while. so if i take them, i cut the dose in half and make sure i don’t have to do anything that requires a lot of cognition. on the other hand, 1st generation antihistamines cause an adverse reaction in me. instead of drowsiness, i get over-stimulated like i’m crawling out of my skin and it’s very uncomfortable.

      everyone is different, always use caution.
      best,
      h

      Reply

  18. Posted by Amy on February 17, 2013 at 7:45 pm

    I’m read some of the things and some I agree with and others I don not in my case I was born with POTS. Though I look as healthy as can be I actually used to completely pass out and even at times stop breathing. During both my pregnancies I had to be on a permnant bed rest in a upright position they wanted to remove them. But I fought and carried both to full term before being told I could die the next time around. I have been diaginosed with everything you can think of and even been called a hypocondric. About few months ago I started getting more passing out spells as well as my hand and feet turning purple. Finally somebody heard my plkeas sent my to a Nureoligist and I was diagnosied with POTS and a small fiber nueropathy. I am 32 years and finally know after so many years of being treating like crazy person by doctors. Currently I am in physical therapy but they are still having trouble trying to control it but at least we are the right path. Good luck everyone.

    Reply

    • Amy,
      Thank you for sharing your story.
      Yes, figuring out the right path for each person is the most important thing!
      I am glad you have found yours and are recovering.
      Good luck & Stay strong!
      H

      Reply

  19. [...] MUST READ for all P.O.T.S. patients AND their doctors … [...]

    Reply

  20. Posted by Lisa on April 25, 2013 at 6:45 pm

    I am trying to figure out who I should see to help diagnose me, since I live in Arizona. I have suffered with extremely scary and often debilitating symptoms of hypderadrenergic POTS for about 7 years now. (Have had regular POTS symptoms for much longer than that). Fortunately, I got put on a beta-blocker by my endocrinologist a few years back, when he noticed how consistently high my heart rate was. This helped me somewhat function, and helped the constant feelings of adrenaline shooting through my body, but I still get very frightening “episodes” if I experience any stress- even just from laughing or getting a little excited about something. And if I have even a little bit of caffeine from tea, coffee, etc., I get chest pains, palpitations, extremely shaky, cold sweat, feeling like I’m going to die, etc. I was finally diagnosed with lupus about the time that the hyperadrenergic symptoms first kicked in, and was battling with the challenges that autoimmune disease brought me for many years. These days, I seem to have the autoimmune part much more under control, but now am often left with episodes of feeling like I get plugged into an electrical socket! Does anyone know of good doctors to see for this out this way? I am willing to travel to Vanderbilt Hospital if they are the ones who can truly help me. Thank you for any info. you might have for me- I would really appreciate it!

    Reply

    • Lisa,
      I also suffer with the hyperadrenergic subtype of POTS and I feel your pain. It can definitely be scary and is certainly debilitating at times. What do you do to help control your autoimmune issues? I also have them and have found taking LDN to be really helpful in improving my quality of life. Have you taken Mestinon before? Those two drugs (LDN and Mestinon) would be worth a conversation with your current physician. Vanderbuilt is good for getting a Dx as they are more of a research facility — it sounds like you need to see someone that can help you with your TREATMENT. I would recommend Cleveland Clinic in OH or a local neurologist at a teaching hospital in Arizona. I know Dr. Levine in Texas is pretty knowledgeable about POTS and may also be helpful. There’s also an autonomic disorders clinic in LA. It sounds like you may also benefit from sedative-type drugs or “downers”. Also look into changing up your diet to help the autoimmune stuff. It’s important to remember that your autoimmune issues and your POTS are not entirely separated. Everything that goes wrong in our body is connected — we are whole.
      Best of luck & keep us posted!
      Xo
      H

      Reply

  21. Posted by Gibbo on January 1, 2014 at 10:48 am

    There is a pending paper discussing the role of competitive autoantibodies to alpha 1 receptors in POTS. The NET deficiency is an interesting model of POTS – NE effects in the brainstem alpha 2 receptors causes blunted NE release in response to orthostatic stress and impaired venoconstriction and stroke volume.

    Reply

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