Effects of Dehydration on Neuromuscular Performance and Sympathetic Control of Cardiovascular Function

United States Army Research Institute of Environmental Medicine

Status

Completed

Conditions

Isotonic Dehydration

Dehydration Hypertonic

Treatments

Other: Gatorade or Enterade

Study type

Interventional

Funder types

Other U.S. Federal agency

Identifiers

NCT03263975

14-03H

Details and patient eligibility

About

The mechanism(s) by which dehydration (both intra- and extracellular) impairs performance are still poorly described. A loss of volume results in increased occurrence of orthostatic intolerance, including dizziness, fatigue, headaches and related symptoms with upright posture. Any of these symptoms can contribute to decreased performance in maneuvers performed in the upright posture, which includes many military tasks. Thus, loss of volume challenges the cardiovascular and blood pressure responses to systemic whole body endurance exercise, while osmolality is the stimulus for intracellular dehydration that may impair local muscle force production by impairing contractile function, neural signaling, or both. In this study, we will compare how both types of dehydration affect MSNA and CAC.

The results of this study will provide mechanistic insight for how dehydration (intra- or extracellular) impairs systemic whole body and local small muscle performance in vivo. This Basic Science study seeks to understand how volume and osmolality impact MSNA and CAC as a basis for improving potential countermeasures, such as a more optimally formulated rehydration beverage. Therefore, this study directly complements Task Area T10 (Hot Weather Operations and Hydration: Injury and Performance Optimization) and impacts virtually all 14 Military Operational Medicine Research Program Drivers.

Full description

Study Objectives and Hypotheses

Primary Objective

The primary objectives of this study are to understand the in vivo effects of dehydration on:

Sympathetic neural control of cardiovascular function (MSNA), and
Neuromuscular function (CAC) via the IT Test

The primary hypotheses of this study are:

Baseline MSNA, and MSNA responses to tilt, will be higher in response to extracellular dehydration due to larger intravascular volume losses and greater baroreceptor unloading.
Neuromuscular function (CAC) via the IT Test will a) be more impaired by intracellular dehydration (cell stress) and b) CAC will show a greater performance reduction than CAR because it reduces the emphasis placed on the voluntary portion of performance (i.e., MVC).

Ancillary Questions/Sub Studies

The collection of blood and urine before and after exercise-heat stress and dehydration provides an opportunity to measure and characterize cytokine and intestinal barrier integrity marker (I-FAB, claudin-3) responses (blood) and renal stress biomarkers (urine) in humans. This descriptive research 'sub-study' directly complements Task Area T10 (Hot Weather Operations and Hydration: Injury and Performance Optimization) near and mid-term research goals of identifying biomarkers of heat stress for protection against heat injury. There are no hypotheses associated with this sub-study.
The study of dehydration requires rehydration for recovery. Rehydration provides an opportunity for a novel comparison of renal water retention (urine volume) when consuming equal volumes of two different commercial beverages (Gatorade® or Enterade-S®). Unlike Gatorade®, which is a carbohydrate-based beverage containing electrolytes, Enterade-S® is an amino acid-based beverage containing electrolytes. We hypothesize that the unique formulation of Enterade-S® will improve the rate of fluid absorption and fluid retention compared to Gatorade® in both intracellular and extracellular dehydration trials.

Enrollment

43 patients

Sex

All

Ages

18 to 45 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

Male or female, age 18-45
In good health as determined by OMSO General Medical Clearance
Passed his/her most recent Army Physical Fitness Test (APFT) (military volunteers only) or exercise at least 2 times per week (civilian volunteers)
Ability to comprehend and willingness to sign informed consent

Exclusion criteria

Females who are pregnant or planning to become pregnant during the study
Taking prescription or over the counter medication, other than a contraceptive (unless approved by OMSO and PI)
Physical problems/injuries associated with walking or cycling
Allergy to sulfa drugs (Lasix™ or sulfonamide antibiotics such as Septra™)
Allergy to skin adhesive
Hemoglobinopathy (sickle cell trait)
Heart, lung, kidney, muscle, or nerve disorder(s)
History of heat or orthostatic intolerance
Diagnosed and/or treated for fluid/electrolyte imbalance within the last 30 days
Presence of metal implants/electronic medical devices in lower extremities
Current or previous (within the past 5 years) diagnosis of any autonomic disorder, including idiopathic orthostatic intolerance, orthostatic hypotension, postural tachycardia syndrome (POTS), or neurocardiogenic syncope (MSNA group only)
Tobacco/nicotine use (MSNA group only)
Significant muscle, joint, or bone injury affecting the legs within the last 6 months (CAC group only)
Difficulty swallowing large pills
History of obstructive disease of the gastrointestinal tract including (but not limited to) diverticulosis, diverticulitis and inflammatory bowel disease, peptic ulcer disease, Crohn's disease, ulcerative colitis; or previous gastrointestinal surgery.

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

None (Open label)

43 participants in 2 patient groups

Exercise heat STress (EHS)

Experimental group

Description:

EHS - dehydration produced by sweating and fluid restriction; primary loss of body water accompanied by small loss of electrolytes (hypertonicity). Interventions include rehydration with Gatorade or Enterade oral rehydration therapies.

Treatment:

Other: Gatorade or Enterade

Lasix (LAS)

Experimental group

Description:

LAS - dehydration produced by Lasix (diuretic, 80 mg oral dose) administration to produce losses of body water accompanied by large losses of electrolytes (isotoncity). Interventions include rehydration with Gatorade or Enterade oral rehydration therapies.

Treatment:

Other: Gatorade or Enterade

Trial contacts and locations

Data sourced from clinicaltrials.gov

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