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EIMD Mechanisms Causing Force Loss

NCT02125643 · Status: TERMINATED · Phase: PHASE1 · Type: INTERVENTIONAL · Enrollment: 3

Last updated 2017-06-05

No results posted yet for this study

Summary

We have hypothesized: 1) Caffeine will increase maximal voluntary strength compared to placebo in undamaged muscle. 2) Caffeine will increase muscle activation compared to placebo in undamaged muscle. 3) Caffeine will enhance spinal excitability (indicated by an enhanced H-reflex) compared to placebo in undamaged muscle. 4) Caffeine will raise the pressure-pain threshold (indicating decreased pain sensitivity) in the calf muscle compared to placebo in undamaged muscle. 5) Caffeine will reduce the amount of low-frequency fatigue, indicated by an enhanced 20-100 hertz strength ratio, compared to placebo in undamaged muscle. 6) Caffeine will increase maximal voluntary strength compared to placebo in damaged muscle. 7) Caffeine will increase muscle activation compared to placebo in damaged muscle. 8) Caffeine will enhance spinal excitability (indicated by an enhanced H-reflex) compared to placebo in damaged muscle. 9) Caffeine will raise the pressure-pain threshold (indicating decreased pain sensitivity) in the calf muscle compared to placebo in damaged muscle. 10) Caffeine will reduce the amount of low-frequency fatigue, indicated by an enhanced 20-100 hertz strength ratio, compared to placebo in damaged muscle.

The proposed research will determine the effects of a 5mg/kg body weight dose of caffeine on muscular strength, activation, H-reflex function, and excitation-contraction coupling before and after exercise-induced muscle damage. The long term objectives are to gain a better understanding of caffeine and its affects following exercise-induced muscle damage allowing us to understand how caffeine is mechanistically interacting with functions of the body.

Conditions

  • Healthy

Interventions

DRUG

Caffeine

OTHER

Flour

Flour will be administered as the placebo.

Sponsors & Collaborators

  • University of Oklahoma

    lead OTHER

Principal Investigators

  • Christopher Black, PhD · University of Oklahoma

Study Design

Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Model
CROSSOVER

Eligibility

Min Age
18 Years
Max Age
35 Years
Sex
ALL
Healthy Volunteers
Yes

Timeline & Regulatory

Start
2014-08-31
Primary Completion
2015-05-31
Completion
2015-05-31

Countries

  • United States

Study Locations

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT02125643 on ClinicalTrials.gov