Clinical Trial Details
— Status: Suspended
Administrative data
| NCT number |
NCT02560805 |
| Other study ID # |
IRB00082400 |
| Secondary ID |
|
| Status |
Suspended |
| Phase |
Phase 2
|
| First received |
|
| Last updated |
|
| Start date |
October 2015 |
| Est. completion date |
February 2025 |
Study information
| Verified date |
February 2024 |
| Source |
Emory University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The purpose of this study is to find out why patients with post-traumatic stress disorder
(PTSD) have an increased risk for heart disease and high blood pressure later in life. A
second purpose is to find out what causes PTSD patients to have high adrenaline levels during
stress. This study will also test if a medicine called losartan improves high adrenaline
levels in patients with PTSD and if a certain gene that has to do with high blood pressure
might be associated with high adrenaline levels.
Description:
More than 2,000,000 soldiers have been deployed to Iraq and Afghanistan in the past decade as
part of Operation Enduring Freedom/ Operation Iraqi Freedom/ Operation New Dawn
(OEF/OIF/OND), and are returning with high rates of post-traumatic stress disorder (PTSD).
The prevalence of PTSD in OEF/OIF/OND veterans is estimated at around 11.5-19.9% post
deployment, with prevalence rates of 12.1% and 30.9% in older veterans from the Gulf War and
Vietnam era, respectively. PTSD is also common in the general population, as 7% of the US
population will meet the diagnostic criteria for PTSD in their lifetime. With these extensive
and ongoing conflicts, and the tremendous deleterious mental health and socioeconomic impact
of PTSD, research to understand and treat all aspects of PTSD is vitally important.
One less recognized but highly significant consequence of PTSD is an increased risk of
hypertension, cardiovascular (CV) disease, and its risk factors. One mechanism likely
underlying increased CV risk in PTSD is chronic overactivation of the sympathetic nervous
system (SNS). SNS overactivity leads to increased CV risk by increasing blood pressure (BP),
and also via BP-independent effects including vascular inflammation, insulin resistance, and
myocardial fibrosis.
Chronic inflammation is likely a key culprit contributing to SNS overactivation and blunted
baroreflex sensitivity (BRS) in PTSD. In Objective 1 of this study, the researchers will
ascertain that humans with PTSD have chronic overactivation of muscle sympathetic nerve
activity (MSNA), blunted BRS, and elevated inflammation both at rest and during mental
stress.
In addition to chronic inflammation, trauma-related stress is known to activate the
renin-angiotensin system (RAS) leading to higher brain angiotensin II (ATII) that is an
important mediator of brain inflammation and has a direct sympathoexcitatory effect. Previous
studies in both animals and humans with a variety of chronic diseases such as obesity, heart
failure, and chronic kidney disease, have shown that blockade of the ATII receptor using
angiotensin receptor blockers (ARBs) reduces SNS activity and improves BRS. The extent to
which ARB treatment influences SNS activation, BRS, and inflammation in PTSD patients remains
unknown. Currently, peripheral sympatholytics such as β-blockers and α-blockers are often
prescribed for PTSD symptoms; however, treatment is often complicated by adverse effects
including hypotension, orthostasis, fatigue, and erectile dysfunction. In addition, these
peripheral sympatholytics cause a reflex increase in central sympathetic output as evidenced
by increased MSNA; therefore, these medications may actually contribute to increased CV risk
in PTSD. As opposed to peripheral sympatholytics, losartan is well tolerated, without
metabolic side effects, and reduces central SNS activation which has potential to impact
future CV risk.
Study Objective 2 evaluates the clinical utility of losartan treatment on autonomic control
in humans with PTSD.
Vagal nerve stimulation has been shown in both animal and human studies to safely and
effectively reduce sympathetic activity and inflammation. tVNS is a noninvasive method that
involves placing a device over the skin overlying the vagus nerve on the neck. The device
delivers mild electrical stimulation, using transcutaneous electrical nerve stimulation
(TENS) unit. Prior studies have showb that transcutaneous vagal nerve stimulation safely and
effectively reduced muscle sympathetic nerve activity in healthy humans and improved heart
rate variability, indicating a decrease in sympathetic nervous system (SNS) activity, and a
shift in cardiac autonomic function toward parasympathetic (PNS) predominance. Another study,
found that tVNS acutely improved cardiac baroreflex sensitivity. Since PTSD patients have
high SNS, low PNS activity and impaired baroreflex sensitivity, tVNS may be one safe and
noninvasive method of improving autonomic function in this patient population. The
researchers will test whether tVNS leads to both an acute and sustained improvement in SNS
function in PTSD.
