Artery Function Responses to Changes in Blood Flow

Not Applicable

Completed

• Conditions: Endothelial Dysfunction
• Interventions: Other: Suprasystolic (300 mmHg) cuff compressions; Other: Handgrip exercise; Other: Passive heat stress

• Registration Number: NCT02982044
• Lead Sponsor: McMaster University

Brief Summary

The purpose of this study is to determine if different blood flow patterns change artery function. We hypothesize that the temporary induction of an oscillatory blood flow pattern will result in an immediate improvement in artery function. Participants will be asked to come to the Vascular Dynamics Lab (IWC E102) at McMaster University for a total of 3 visits. The first visit will allow the participant to get comfortable with the lab and the upcoming tests; and the next 2 visits will be scheduled at the same time of day to collect data. For visits 2 and 3, participants will be asked to arrive after a 4 hour fast. At these visits, ultrasound imaging will be used to examine the arteries and how they may change when blood flow patterns through an artery in the arm are changed. To change blood flow in the arm, heat, rhythmic squeezing of the forearm with a cuff, or handgrip exercise will be used. These interventions will be applied to the left forearm, from the elbow to the fingertips. A trained technician will also draw a blood sample during both data collection visits. A total of 10 participants will be recruited for the entire study.

Detailed Description

Interested individuals will be invited to the lab for a screening and familiarization visit, in which the brachial artery (BA) will be scanned to vet for image quality and a BA flow-mediated dilation test will be performed to ensure participant tolerance during collection visits. All qualified participants will be instructed to refrain from vigorous physical activity \> 24 hours, alcohol and caffeine \> 6 hours, and food \> 4 hours prior to each of the two collection visits. Upon arrival, basic anthropometric measures will be collected and hematocrit will be measured in duplicate with a finger prick blood sample equivalent to two 70 µl capillary tubes. Each of the two data collection visits will begin 10 minutes of supine rest, while the participant is instrumented with skin temperature probes on the forearms and hands for measurement of skin temperature, single-lead ECG (Powerlab model ML795, ADInstruments, Colorado Springs, CO, USA) and non-invasive finger cuff (Finometer MIDI, Finapres, The Netherlands) for continuous heart rate and blood pressure monitoring. On the first data collection visit, following rest, the participant will then undergo three 10-minute interventions applied to the left forearm in the following sequence: (1) ECG-gated suprasystolic (300 mmHg) cuff compressions with inflation occurring every other heart cycle, (2) 42 °C heating with a heating blanket, and (3) ECG-gated rhythmic handgrip exercise at 30% MVC with contraction occurring every other heart cycle. 10-minute rest periods will separate each of the interventions to allow for return to baseline conditions. On the second data collection visit, following rest, the participant will undergo three variations of the 10-minute cuff compression intervention, the order of which will be randomized. The three variations differ in the trigger delay from the R spike of the ECG to cause inflation of the cuff for compressions. The original intervention involves the data acquisition unit triggering inflation of the cuff at systole (R spike) (0s delay). This condition will be compared to two other trigger delays, specifically triggering inflation of the cuff at 0.2s and 0.4s after the R spike. For both data collection visits, BA blood velocities, blood flow turbulence, endothelial shear stress, and oscillatory shear index will be assessed before and during each of the interventions; and relative flow-mediated dilation will be assessed before and immediately after each of the interventions. Participants will provide written informed consent prior to beginning any portion of the study.

Basic Information
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Recruitment & Eligibility
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Study & Design
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Trial Locations

Study Timeline

• Study First Submitted: 2016-11-24
• Study First Submitted QC: 2016-12-01
• Study First Posted: 2016-12-05
• Study Start: 2017-01
• Primary Completion: 2017-03
• Study Completion: 2017-03
• Status Verified: 2018-01
• Last Update Submitted: 2018-01-16
• Last Update Posted: 2018-01-18

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Male
• Target Recruitment: 10

Inclusion Criteria

• Healthy (no cardiovascular, musculoskeletal, or metabolic disease)
• Male
• 18-35 years old
• Recreationally active (exercising 2-3 times per week)

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Exclusion Criteria

• Cardiovascular, musculoskeletal, or metabolic disease

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Experimental-Control	Handgrip exercise	Participants will undergo all interventions, while simultaneously serving as their own within-subject control. The left side of the body will be designated "experimental", and all interventions will be applied to the left arm. The right side of the body will be designated as "control", and will not receive any interventions.
Experimental-Control	Passive heat stress	Participants will undergo all interventions, while simultaneously serving as their own within-subject control. The left side of the body will be designated "experimental", and all interventions will be applied to the left arm. The right side of the body will be designated as "control", and will not receive any interventions.
Experimental-Control	Suprasystolic (300 mmHg) cuff compressions	Participants will undergo all interventions, while simultaneously serving as their own within-subject control. The left side of the body will be designated "experimental", and all interventions will be applied to the left arm. The right side of the body will be designated as "control", and will not receive any interventions.

Primary Outcome Measures

Name	Time	Method
Brachial artery flow-mediated dilation	Up to 2 weeks	Collected using vascular ultrasound and analyzed using semi-automated edge-tracking software

Secondary Outcome Measures

Name	Time	Method
Endothelial shear rate	Up to 2 weeks	Calculated using blood velocity and artery diameter obtained from vascular ultrasound
Oscillatory shear index	Up to 2 weeks	Calculated using blood velocity and artery diameter obtained from vascular ultrasound
Mean blood velocity magnitude and direction	Up to 2 weeks	Collected using vascular ultrasound and sent to spectral analyzer for calculation of intensity-weighted mean
Reynolds number (blood flow turbulence)	Up to 2 weeks	Calculated using blood velocity and artery diameter obtained from vascular ultrasound, and blood density and viscosity calculated using hematocrit
Endothelial shear stress	Up to 2 weeks	Calculated using blood velocity and artery diameter obtained from vascular ultrasound, and blood viscosity calculated using hematocrit

Trial Locations

Locations (1)

McMaster University Vascular Dynamics Lab; 🇨🇦 Hamilton, Ontario, Canada