Autonomic Control of the Circulation and the Venous Distension Reflex
Milton S. Hershey Medical Center
Summary
The study objective of this project is to examine the mechanisms of the venous distension reflex (VDR) in humans. We hypothesize that COX blockade with ketorolac tromethamine, an intravenous NSAID, will attenuate the muscle sympathetic nerve activity (MSNA) response to limb venous distension. To gain further insight into whether the COX byproducts directly stimulate chemically-sensitive afferents, or enable venodilation and indirectly evoke afferent stimulation, we will measure vein size using 3T MRI during venous distention with and without ketorolac infusions.
Description
We will use a prospective observational design to examine if a COX blockade will inhibit the MSNA response to venous distension (Aim1), and if a COX blockade will alter vein sizes during venous distension (Aim2). Each subject will serve as their own control. Aim 1: An IV will be inserted in the antecubital fossa of one arm, and the wrist-to-elbow occlusion will be performed. To block the COX system, 6 mg ketorolac tromethamine in 10 ml saline will be infused into the forearm over 1 minute (Infusion 1). After 10 minutes, a second infusion of ketorolac tromethamine (up to 3 mg) in 5% of the f…
Eligibility
- Age range
- 21–35 years
- Sex
- All
- Healthy volunteers
- Yes
Inclusion Criteria * Are capable of giving informed consent * Are any race or ethnicity * Are fluent in written and spoken English * Have a satisfactory history and physical exam to meet inclusion/exclusion criteria * Are free of acute or chronic medical conditions * Are 21 - 35 years of age (inclusive) * Weigh over 50 kg Exclusion Criteria * Are less than 21 or over 35 years of age * Are Pregnant or nursing women * Are prisoners or institutionalized individuals or unable to consent * Any chronic diseases (hypertension, heart, lung, neuromuscular disease, kidney disease, diabetes or cancer)…
Interventions
- OtherWrist-to-elbow (W-E) occlusion
An IV will be inserted in the antecubital fossa of one arm. The arm will be fitted with occlusion cuffs arranged in a continuous fashion from the wrist to the elbow. A final cuff will be placed on the upper arm. The cuffs from the wrist to the elbow will be inflated to the same pressure of up to 300 mmHg using a pressurized air tank. First, the subject?s arm will be elevated and the subject will make a fist to squeeze blood from the hand. Then the wrist cuff will be inflated. Once that cuff is fully inflated, the next cuff in the sequence will be inflated. Cuffs are inflated in sequence until the elbow cuff is inflated. After a 10-15 second period to allow blood to drain, the upper arm cuff will inflate (up to 250 mmHg) to keep any additional blood from entering the forearm. Next, the cuffs on the forearm will be removed but the upper arm cuff will remain inflated.
- Drugketorolac tromethamine
In the COX blockade trial, just after the Wrist-to-elbow occlusion, 6 mg ketorolac tromethamine in 10 ml saline will be infused into the forearm over 1 minute. After 10 minutes, a second infusion of ketorolac tromethamine (up to 3 mg) in 5% of the forearm volume of saline,( \~40-60 ml) will be infused into the occluded forearm at a rate of \~ 30 ml/min. Five minutes of data will then be collected before releasing the upper arm cuff. Infusion 1 is to block the COX pathway, while infusion 2 is to induce venous distension.
- Drugsaline control
In the saline control trial performed on a separate day, saline (without ketorolac) in identical volumes as those in the COX blockade trial, will be infused.
Location
- Penn State Milton S. Hershey Medical CenterHershey, Pennsylvania