---
title: Does Biological Sex Influence the Cardiac Output Response to Sprint Interval Exercise Training in Humans?
nct_id: NCT05205538
overall_status: COMPLETED
phase: NA
sponsor: McMaster University
study_type: INTERVENTIONAL
primary_condition: Exercise
countries: Canada
canonical_url: "https://parkinsonspathways.com/agent/trials/NCT05205538.md"
clinicaltrials_gov: "https://clinicaltrials.gov/study/NCT05205538"
ct_last_update_post_date: 2023-04-06
last_seen_at: "2026-05-12T07:31:16.185Z"
source: ClinicalTrials.gov (mirrored, no enrichment)
---
# Does Biological Sex Influence the Cardiac Output Response to Sprint Interval Exercise Training in Humans?

**NCT ID:** [NCT05205538](https://clinicaltrials.gov/study/NCT05205538)

## Key Facts

- **Status:** COMPLETED
- **Phase:** NA
- **Study Type:** INTERVENTIONAL
- **Target Enrollment:** 21
- **Lead Sponsor:** McMaster University
- **Conditions:** Exercise
- **Start Date:** 2022-01-25
- **Completion Date:** 2023-02-28
- **CT.gov Last Update:** 2023-04-06

## Brief Summary

Sprint interval exercise training refers to brief repeated bouts of vigorous effort that are separated by short periods of recovery. Cardiac output refers to the amount of blood that is pumped out of the heart each minute. Research has shown that sprint interval exercise training can increase peak cardiac output - or the highest cardiac output that is achieved during strenuous exercise - but this response may be influenced by biological sex. The primary goal of this study is to determine whether the peak cardiac output response to 12 weeks of sprint interval exercise training differs between males and females. Cardiac output will be estimated using a non-invasive technique that involves breathing in a mixture of standardized gases. This research will help to determine whether biological sex influences the response of the heart to brief vigorous cycle exercise training.

## Detailed Description

The primary purpose of this study is to determine whether biological sex influences the peak cardiac output response to 12 weeks of sprint interval exercise training. Peak cardiac output will be determined non-invasively using an inert gas rebreathing technique. Each session of sprint interval exercise training will involve a 10-minute period of cycling on a stationary ergometer. The protocol will consist of a two-minute warm-up; three, 20-second 'all out' efforts that are separated by two minutes of recovery; and a three-minute cool down. Three sessions of training will be performed each week for a total of 12 weeks. Groups of male and female participants will be recruited and tested using best practice guidelines for sex-based comparisons of exercise responses. The study will advance knowledge regarding the potential for biological sex to influence the cardiovascular response to brief vigorous cycle exercise training.

## Eligibility

- **Minimum age:** 18 Years
- **Maximum age:** 35 Years
- **Sex:** ALL
- **Healthy Volunteers:** Yes

```
Inclusion Criteria:

* Being untrained based on a self-report of engaging in \< 1 h of weekly moderate to vigorous physical activity based on the Canadian Society for Exercise Physiology Get Active Questionnaire.
* Having an estimated cardiorespiratory fitness in the lower 50% of adults in the specified age range based on the online fitness calculator available at: www.worldfitnesslevel.org.
* Females who are naturally cycling (i.e., not using any form of hormonal contraceptive) or are using a 2nd generation oral contraceptive.

Exclusion Criteria:

* Experiencing a condition that might preclude safe participation in physical activity and exercise, as determined by answering "Yes" to any question on Page 1 of the Canadian Society for Exercise Physiology Get Active Questionnaire.
* Females with a positive pregnancy test.
```

## Arms

- **Females** (EXPERIMENTAL) — Female participant group
- **Males** (EXPERIMENTAL) — Male participant group

## Interventions

- **Sprint interval exercise training** (OTHER) — A 10-minute sprint interval exercise training protocol that is performed three times per week for a total of 12 weeks.

## Primary Outcomes

- **Peak cardiac output** _(time frame: Change from baseline after 12 weeks of sprint interval exercise training)_ — Peak cardiac output measured during exercise

## Secondary Outcomes

- **Peak oxygen uptake** _(time frame: Change from baseline after 12 weeks of sprint interval exercise training)_
- **Flow mediated dilation** _(time frame: Change from baseline after 4 and 12 weeks of sprint interval exercise training)_
- **Pulse wave velocity** _(time frame: Change from baseline after 4 and 12 weeks of sprint interval exercise training)_

## Locations (1)

- McMaster University, Hamilton, Ontario, Canada

## Recent Field Changes (last 30 days)

- `status.overallStatus` — added _(2026-05-12)_
- `status.primaryCompletionDate` — added _(2026-05-12)_
- `status.completionDate` — added _(2026-05-12)_
- `status.lastUpdatePostDate` — added _(2026-05-12)_
- `design.phases` — added _(2026-05-12)_
- `design.enrollmentCount` — added _(2026-05-12)_
- `eligibility.criteria` — added _(2026-05-12)_
- `eligibility.minAge` — added _(2026-05-12)_
- `eligibility.maxAge` — added _(2026-05-12)_
- `eligibility.sex` — added _(2026-05-12)_
- `outcomes.primary` — added _(2026-05-12)_
- `outcomes.secondary` — added _(2026-05-12)_
- `armsInterventions.arms` — added _(2026-05-12)_
- `armsInterventions.interventions` — added _(2026-05-12)_
- `sponsor.lead` — added _(2026-05-12)_
- `results.hasResults` — added _(2026-05-12)_
- `locations.mcmaster university|hamilton|ontario|canada` — added _(2026-05-12)_

---

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*Source data (authoritative): https://clinicaltrials.gov/study/NCT05205538*  
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