Clinical Trials Directory

Trials / Completed

CompletedNCT01848665

The Influence of Cerebral Blood Flow and PETCO2 on Neuromuscular Function During Passive Heat Stress

Status
Completed
Phase
Phase 4
Study type
Interventional
Enrollment
8 (actual)
Sponsor
Brock University · Academic / Other
Sex
Male
Age
18 Years – 45 Years
Healthy volunteers
Accepted

Summary

Increased core temperature (hyperthermia) has been associated with impaired neuromuscular performance; however, the mechanisms associated with these performance decrements and their potential synergies remain unclear. While the majority of research suggests that the observed fatigue is related to the central nervous system, the influence of changes in cerebral blood flow (CBF) and associated changes in cerebral alkalosis (estimated by end-tidal partial pressure of carbon dioxide; PETCO2) remains unexamined. In response to hyperthermia, humans hyperventilate as means of heat dissipation, resulting in a hypocapnia (reduced PETCO2) mediated decrease in CBF and consequently, cerebral alkalosis (increased cerebral pH). Previous research suggests that hyperventilation induces changes in neural excitability and synaptic transmission; however, it remains unclear if these changes are related to hypocapnia mediated decrease in CBF or decreased PETCO2 or both. The purpose of the proposed research program is to examine the influence of changes in CBF and cerebral alkalosis on neuromuscular function during passive heat stress. The research project will consist of 3 separate experimental trials: (a) poikilocapnic hyperthermia (increased core temperature; decrease CBF; decrease PETCO2), (b) isocapnic hyperthermia (increased core temperature; no change CBF; no change PETCO2) and (c) isocapnic hyperthermia + indomethacin (increased core temperature; decrease CBF; no change PETCO2). During each manipulation, neuromuscular function will be evaluated and compared to baseline (normothermic) conditions using a repeated measures design. It is hypothesized that changes in PETCO2 and therefore, changes in cerebral alkalosis will contribute to neuromuscular fatigue independent of changes in CBF or increases in core temperature.

Conditions

Interventions

TypeNameDescription
DRUGIndomethacin
DRUGPlacebo

Timeline

Start date
2013-05-01
Primary completion
2015-06-01
Completion
2016-12-01
First posted
2013-05-07
Last updated
2018-01-29

Locations

1 site across 1 country: Canada

Source: ClinicalTrials.gov record NCT01848665. Inclusion in this directory is not an endorsement.