Noradrenergic and Stress-Related Etiologies of Chronic Fatigue Syndrome
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Chronic Fatigue Syndrome
- Sponsor
- Vanderbilt University Medical Center
- Enrollment
- 55
- Locations
- 1
- Primary Endpoint
- dihydroxyphenylglycol (DHPG)/norepinephrine (NE) Ratio (post stress)
- Status
- Completed
- Last Updated
- 8 years ago
Overview
Brief Summary
The objective of this study is to measure sympathetic nervous system function and stress responses in patients with clinically documented and self-reported chronic fatigue that is worsened by stress, compared to healthy controls. Baseline norepinephrine (NE) levels and stress-induced NE levels in patients who fulfill criteria for Chronic Fatigue Syndrome (CFS) and who self-identify with stress induced worsening fatigue, will be compared to data from normal individuals pre and post-stress.
Detailed Description
Symptoms of Chronic Fatigue Syndrome (CFS) are critically important to study as patients report that these symptoms are often profoundly debilitating and an impediment to effective daily functioning as well as effective vocational and social functioning, while also contributing to a significantly increased risk of psychiatric illness and diminished quality of life. Previous Phenome-Wide Association (PheWAS) studies revealed a link between a norepinephrine transporter (NET) genetic variant and CFS. Based on the potential function of the variant and published literature, elevated norepinephrine (NE) levels may underlie at least some cluster of fatigue symptoms. Some patients may experience chronic fatigue that is due to an excess of circulating NE, and fatigue symptoms are reported by our patient population to be commonly exacerbated by stress. This study will test the hypothesis that in a subset of people with severely debilitating fatigue of long duration (\>6 months) that is worsened by stress identified through the Vanderbilt electronic health record phenotyping study, have chronic over-release of the hormone NE into the bloodstream/periphery over time that results in an overload of NE. This overload of NE causes a compensatory but deleterious effect on the brain and nervous system, including sympathetic effects and dysregulated physiologic response to stress. Thus, while numerous currently approved therapies that target NET inhibit the transporter, a drug with the opposite mechanism of action, a NET activator that would decrease circulating NE, may have efficacy in treating underlying pathophysiology of chronic fatigue. Baseline NE levels and stress-induced NE levels in patients who fulfill criteria for CFS and who self-identify with stress induced worsening fatigue, will be compared to data from normal individuals pre and post-stress. After all inclusion criteria has been confirmed, an IV will be placed for blood collection, a continuous electrocardiographic trace and blood pressure cuff will be placed on the subject's arm and finger. Subjects will undergo a posture study, autonomic reflex testing, and Stroop stress testing each followed by blood specimen collection. An optional blood draw for DNA analysis will occur after patients have been provided lunch. Questionnaires will be completed after study procedures and patients have been provided lunch. Study blood collection will total up to 28 milliliters (mL): 5 mL for cytokines, 20 mL for catecholamines, and optional 3 mL for DNA.
Investigators
Gordon Bernard
Executive Vice President for Research
Vanderbilt University Medical Center
Eligibility Criteria
Inclusion Criteria
- •Confirmed chronic fatigue with severity \>50 on a scale of 1 to 100 that is not improving over time
- •Meet The Centers for Disease Control and Prevention (CDC) diagnostic criteria of CFS (self-reported persistent or relapsing fatigue lasting 6 or more consecutive months)
Exclusion Criteria
- •Male and female subjects \<18 or \>60 years
- •Obesity, defined as a BMI of 30 or more
- •Presence of other medical or psychiatric conditions known to cause fatigue (alcohol/drug abuse, anorexia nervosa, bipolar disorder, bulimia nervosa, dementia, major depression, psychotic/delusional disorders, schizophrenia)
- •Presence of sleep disorder/disruption known to cause fatigue (sleep apnea, narcolepsy)
- •Cardiovascular, pulmonary, hepatic, or hematological disease by history or prior testing defined as significant by investigator (including but not limited to chronic hepatitis, chronic kidney disease, cirrhosis, emphysema, heart failure, HIV, lupus, multiple sclerosis, myasthenia gravis, rheumatoid arthritis)
- •History of hypertension defined as supine resting BP\>145/95 mmHg off medications or needing antihypertensive medication
- •Patients taking medications that can affect autonomic function or plasma catecholamines (vasoactive drugs), stimulants, and/or are sedatives
- •Other factors which in the opinion of the investigator could potentially impact the study outcomes (e.g., underlying disease, medications, history)\* or prevent the participant from completing the protocol (poor compliance or unpredictable schedule)
- •Inability to stand unassisted for 10 minutes
- •Patients who are bedridden or chair-ridden
Outcomes
Primary Outcomes
dihydroxyphenylglycol (DHPG)/norepinephrine (NE) Ratio (post stress)
Time Frame: Change from Baseline to post stress test (approximately 100 minutes post-baseline blood collection)
Change in DHPG/NE Ratio from Baseline to post stress compared across arms
Secondary Outcomes
- DHPG/NE Ratio (post Sitting position)(Change from Baseline to post Sitting position (approximately 70 minutes post-baseline blood collection))
- DHPG/NE Ratio (post Standing position)(Change from Baseline to post Standing position (approximately 40 minutes post-baseline blood collection))
- Absolute DHPG and NE Levels (post stress)(Change from Baseline to post stress test (approximately 100 minutes post-baseline blood collection))
- Absolute DHPG and NE Levels (post Autonomic Function test)(Change from Baseline to post Autonomic Function test (approximately 30 minutes post-baseline blood collection))
- Absolute DHPG and NE Levels (post Standing position)(Change from Baseline to post Standing position (approximately 40 minutes post-baseline blood collection))
- DHPG/NE Ratio (post Autonomic Function test)(Change from Baseline to post Autonomic Function test (approximately 30 minutes post-baseline blood collection))
- Fatigue as assessed by Multidimensional Assessment of Fatigue Scale (MAF)(End of Study Visit (approximately 140 minutes post-baseline blood collection))
- Mood as assessed by Hospital Anxiety and Depression Scale (HADS)(End of Study Visit (approximately 140 minutes post-baseline blood collection))
- Absolute DHPG and NE Levels (post Sitting position)(Change from Baseline to post Sitting position (approximately 70 minutes post-baseline blood collection))
- Quality of Life as assessed by 36-Item Short Form Survey Instrument (SF-36)(End of Study Visit (approximately 140 minutes post-baseline blood collection))
- Stress as assessed by Stress Overload Scale(Beginning of Study Visit (Approximately 15 minutes pre-baseline blood collection))
- Cytokines(At baseline (approximately 30 minutes after supine position start))