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Impact of Acute Exercise Intensity and Pattern on Cytokine Function

Not Applicable
Completed
Conditions
Inflammation
Interventions
Other: Moderate intensity continuous exercise
Other: Resting (no exercise) control
Other: High intensity continuous exercise
Other: High intensity interval exercise
Registration Number
NCT05574413
Lead Sponsor
University of British Columbia
Brief Summary

The immune system helps prevent illness, fights off infections, and repairs damaged tissues following an injury. However, when immune cells remain active for prolonged periods of time - a state known as "chronic inflammation" - they can contribute to the development and progression of chronic diseases like heart disease and diabetes. Exercise can reduce the risk of developing many of these diseases and at least part of the health benefits of exercise are due to the ability of exercise to reduce "chronic inflammation". The inflammation-lowering effects of exercise are typically captured by measuring hormone-like molecules released from immune cells called "cytokines" in the blood. In addition to changes in circulating cytokine levels, exercise may also alter how immune cells respond to these cytokines. How exercise intensity (i.e., how hard you are working during exercise) and pattern (i.e., exercising as a long continuous bout or in short intervals) impact the ability of immune cells to respond to cytokines is not well understood. A better understanding of how exercise intensity and pattern of exercise for reducing chronic inflammation may help determine the best types of exercises for improving health and preventing chronic diseases.

Detailed Description

Not available

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
16
Inclusion Criteria
  • 18-35 years of age
  • Body mass index between 18.5-30 kg/m^2
  • Free of cardiometabolic and autoimmune/inflammatory disease
Exclusion Criteria
  • Competitive endurance athlete
  • Cigarette smoker
  • Currently taking immunomodulatory/anti-inflammatory medications
  • Currently pregnant

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
Moderate intensity continuous exercise (MICE)Moderate intensity continuous exerciseExperimental session involving an acute bout of moderate intensity continuous exercise (MICE; continous cycling expending 350 kcal at 70% of lactate threshold)
Resting (no exercise) controlResting (no exercise) controlResting (no exercise) control condition
High intensity continuous exercise (HICE)High intensity continuous exerciseExperimental session involving an acute bout of high intensity continuous exercise (HICE; continuous cycling expending 350 kcal at 10% of the difference between lactate threshold and VO2peak)
High intensity interval exercise (HIIT)High intensity interval exerciseExperimental session involving an acute bout of high intensity interval exercise (HIIT; cycling intervals expending 350 kcal at 10% of the difference between lactate threshold and VO2peak)
Primary Outcome Measures
NameTimeMethod
IL-10 mediated STAT3 phosphorylationChange from pre-exercise to immediately and 90-min post-exercise

Ex vivo leukocyte STAT3 phosphorylation in response to IL-10 treatment

Secondary Outcome Measures
NameTimeMethod
IL-6 mediated STAT3 phosphorylationChange from pre-exercise to immediately and 90-min post-exercise

Ex vivo leukocyte STAT3 phosphorylation in response to IL-6 treatment

Plasma TNF-alphaChange from pre-exercise to immediately, 30-, and 90-min post-exercise

Concentration of TNF-alpha in plasma samples

Hematology panelChange from pre-exercise to immediately, 30-, and 90-min post-exercise

Complete blood count

Plasma IL-10Change from pre-exercise to immediately, 30-, and 90-min post-exercise

Concentration of IL-10 in plasma samples

IL-10 mediated TNF-alpha inhibitionChange from pre-exercise to immediately and 90-min post-exercise

Ex vivo inhibition of TNF-alpha production in response to IL-10 treatment

Extracellular vesiclesChange from pre-exercise to immediately, 30-, and 90-min post-exercise

Concentration of extracellular vesicles in plasma

IL-6 mediated TNF-alpha inhibitionChange from pre-exercise to immediately and 90-min post-exercise

Ex vivo inhibition of TNF-alpha production in response to IL-6 treatment

Plasma IL-6Change from pre-exercise to immediately, 30-, and 90-min post-exercise

Concentration of IL-6 in plasma samples

Trial Locations

Locations (1)

UBC Okanagan

🇨🇦

Kelowna, British Columbia, Canada

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