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"Facemask Use During High-intensity Interval Exercise in Temperate and Hot Environments"

Primary Purpose

Hypoxemia, Physiological Stress

Status
Completed
Phase
Not Applicable
Locations
United States
Study Type
Interventional
Intervention
High-intensity interval exercise with surgical face mask in a temperate environment
High-intensity interval exercise with surgical face mask in a hot environment
High-intensity interval exercise without using a surgical face mask in a hot environment
High-intensity interval exercise without using a surgical face mask in a temperate environment
Sponsored by
University of New Mexico
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional health services research trial for Hypoxemia

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesAccepts Healthy Volunteers

Inclusion Criteria:

  • 18 years of age or older and, are able to both speak and read in English.
  • Physically active and used to high-intensity exercise.
  • No known serious medical conditions.

Exclusion Criteria:

  • Vulnerable populations such as children, minors, pregnant women, and intellectually challenged individuals.
  • Those with cardiovascular, renal, metabolic, or chronic respiratory disease, smokers or those who have quit smoking less than 6 months ago, and those who use an inhaler to control for exercise-induced asthma.
  • In addition, exclusion criteria include participants who show any signs or symptoms of COVID-19 and have had exposure to anyone with COVID-19 symptoms or any person that has tested positive for COVID-19.

Sites / Locations

  • University of New Mexico

Arms of the Study

Arm 1

Arm 2

Arm 3

Arm 4

Arm Type

Active Comparator

Experimental

Active Comparator

Experimental

Arm Label

No mask temperate

Mask temperate

No mask hot

Mask hot

Arm Description

Participant exercised in room temperature environment not wearing a surgical face mask

Participant exercised in room temperature environment while wearing a surgical face mask

Participant exercised in a hot environmental temperature not wearing a surgical face mask

Participant exercised in a hot environmental temperature while wearing a surgical face mask

Outcomes

Primary Outcome Measures

Average Heart Rate Over the Course of High-intensity Interval Exercise
Heart rate measured in beats per minute using a cardiograph impedance device (PhysioFlow)
Average Stroke Volume Over the Course of High-intensity Interval Exercise
Stroke volume measured in milliliters using a cardiograph impedance device (PhysioFlow)
Average Cardiac Output Over the Course of High-intensity Interval Exercise
Cardiac output measured in liters per minute using a cardiograph impedance device (PhysioFlow)
Peak Core Temperature
The highest core body temperature measured in degrees Celsius during high-intensity interval exercise
Change From Baseline (Rest) in Core Temperature to the End of Exercise
The difference in core temperature from rest prior to exercise and at the end of exercise
Sweat Rate During Exercise
Amount of fluid loss through sweat over the course of exercise reported in milliliters per hour. This was calculated by taking difference of pre- and post-exercise body weight in kilograms while accounting for fluid intake and urine volume.
Dehydration After Exercise
Percentage of body weight fluid loss represented as a percentage of change from baseline and after 20 minutes of exercise
Lactate at 5-minutes Post Exercise
Blood lactate measured in millimoles per liter. This measurement was taken at the earlobe using a sterile lancet to obtain a drop of blood for analysis.
Average Blood Oxygen Saturation Over the Course of High-intensity Interval Exercise
A pulse oximeter was placed on a finger and used to measure the percentage of oxygen saturated blood.
Average Muscle Tissue Oxygenation During the High-intensity Portions of the Exercise Session
A near-infra red spectroscopy device was placed over the vastus lateralis of the dominant leg. This device measured the percentage of oxygenated muscle tissue.
Average Muscle Tissue Oxygenation During the Active Rest Portions of the Exercise Session
A near-infra red spectroscopy device was placed over the vastus lateralis of the dominant leg. This device measured the percentage of oxygenated muscle tissue.
Average Change in Muscle Tissue Oxygenation Between the Active Rest and High Intensity Portions Over the Course of High-intensity Interval Exercise.
This value was calculated by subtracting the average percentage of muscle tissue oxygenation during active rest portion of the exercise from the average percentage of muscle tissue oxygenation during the high-intensity portion of the exercise.
Average Perceived Dyspnea Score Over the Course of High-intensity Interval Exercise
The participants were presented a vertical 200 millimeter long line with the top of the line labeled "No Difficulty" and the bottom of the line labeled "Most Difficult". The participants were then asked to indicated on this line how difficult it was to breath by pointing to a point along the line presented to them. Once the participant indicated along the line how difficult it was to breath the researcher then marked the spot on the line with a pen. To quantify the measurement, the distance, measured in millimeters, was taken from the "No Difficulty" end of the line (0 millimeters) to the indicated mark with the maximum difficulty recorded as 200 millimeters.
Peak Thermal Sensation Over the Course of High-intensity Interval Exercise
Participants were asked to indicate on a visual scale from 0 (very cold) to 8 (very hot) their perceived thermal sensation. The highest recorded value was reported.
Average Thermal Sensation Over the Course of High-intensity Interval Exercise
Participants were asked to indicate on a visual scale from 0 (very cold) to 8 (very hot) their perceived thermal sensation.
Peak Rating of Perceived Exertion Over the Course of High-intensity Interval Exercise
Participants were asked to indicate on a visual scale from 6 (no exertion) to 20 (maximal exertion) their perceived difficulty of exercise. The highest recorded value was reported.
Averaged Rating of Perceived Exertion Over the Course of High-intensity Interval Exercise
Participants were asked to indicate on a visual scale from 6 (no exertion) to 20 (maximal exertion) their perceived difficulty of exercise. The highest recorded value was reported.
Peak Heart Rate Over the Course of High-intensity Interval Exercise
Peak heart rate measured in beats per minute using a cardiograph impedance device (PhysioFlow)

Secondary Outcome Measures

Full Information

First Posted
October 24, 2021
Last Updated
March 25, 2022
Sponsor
University of New Mexico
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1. Study Identification

Unique Protocol Identification Number
NCT05143801
Brief Title
"Facemask Use During High-intensity Interval Exercise in Temperate and Hot Environments"
Official Title
"Facemask Use During High-intensity Interval Exercise in Temperate and Hot Environments"
Study Type
Interventional

2. Study Status

Record Verification Date
March 2022
Overall Recruitment Status
Completed
Study Start Date
November 25, 2020 (Actual)
Primary Completion Date
June 11, 2021 (Actual)
Study Completion Date
June 11, 2021 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
University of New Mexico

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
Yes
Data Monitoring Committee
No

5. Study Description

Brief Summary
To investigate surgical mask use and high-intensity interval exercise across different environmental conditions.
Detailed Description
Mask use in public settings is recommended to limit the spread of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) that causes the disease known as COVID-19 and endorsed by the Centers for Disease Control and Prevention (CDC) and the World Health Organization (WHO). Wearing a mask during exercise may have implications for recreational exercisers and athletes that train and compete at a high exercise intensities as it has been shown to limit ventilation (VE) and increase end-tidal CO2 compared to a no-mask control. For example, N95 masks are designed to fit more tightly around the nose and mouth than other types of masks and have been shown to reduce markers of maximal exercise performance compared to a no-mask control for individuals performing an incremental ramp protocol on a cycle ergometer. In contrast to N95 masks being reserved for health care workers, surgical masks certified by National Institute for Occupational Safety and Health are easily accessible to wear during exercise to reduce the risk of COVID-19 spread. Indeed, these masks fit more loosely than the N95, but did not reduce maximal power (Pmax), relative oxygen consumption (mL/kg/min), or test duration in two studies where participants performed a progressive maximal exercise test on a cycle ergometer. Further, surgical mask use during a progressive maximal cycling exercise protocol did not change cardiovascular, metabolic, and pulmonary measurements when compared to a no-mask condition in healthy individuals, with the exception of a decrease in maximal heart rate (HRmax). Another recent study using a progressive maximal cycling exercise protocol showed no change in (HRmax) using cycle ergometry when surgical mask use was compared to a no-mask condition. While this type of progressive maximal exercise test is frequently used for clinical and laboratory settings to assess cardiovascular, pulmonary, and metabolic markers, this type of exercise protocol is not often employed by athletes seeking to improve performance or recreational exercisers taking action to improve fitness. Because this exercise protocol is not used by athletes or recreational exercisers to train, it is difficult to translate the results of mask use during progressive maximal exercise tests to commonly practiced forms of exercise. In fact, a recent meta-analysis concludes that wearing a mask elicits a minimal impact on cardiovascular, respiratory, or metabolic variables across a wide array of exercise intensities and modalities, however, high intensity interval exercise (HIIE) was not included in this analysis, nor were hot environmental temperatures. Thus, the physiologic or metabolic responses while wearing a medical-grade surgical mask are not yet known with HIIE in both temperate and hot environments. High intensity interval exercise is a popular time-efficient training method that involves short high intensity bouts followed by either active (low/moderate intensity exercise) or passive (no exercise) rest bouts. High intensity interval exercise has been shown to be a safe and effective way to increase physical fitness or performance in a diverse population that include exercisers in recreational, competitive, and clinical settings. Further, as HIIE can be performed in either an indoor or outdoor environment and using a mask may increase the physiological and perceptual strain of the exercise depending on the temperature and humidity. In a hot environment (40°C and 20% humidity), no difference was found in skin temperature under or outside a KN95 mask in healthy males that performed 45-minutes of moderate intensity physical activity that mimicked movements required in occupational settings. Also, no difference was found in whole body thermal discomfort, and an increase in perceived breathlessness by 36% was observed. In addition, surgical mask use during 30 minutes of mild uphill treadmill exercise did not increase risk of heat stroke in a hot and humid environment. To date, no research study has investigated the effects of surgical mask use during HIIE in different environmental conditions. Therefore, the purpose of this study was to investigate the effects of surgical mask use during HIIE on cardiovascular, metabolic, thermoregulatory, and perceptual responses in temperate and hot environments. Methodsː In a randomized fashion, ten healthy participants completed two HIIE sessions in a 36°C hot (HIIE-HOT) and two HIIE sessions in a 23°C temperate environment (HIIE-TEMP) while wearing (MASK) and not wearing a surgical mask (CON). Procedures Anthropometrics and maximal Oxygen uptake measurements Before the experimental trials, participants visited the Exercise Physiology laboratories for anthropometrics and VO2max measurement. Body height was measured using a stadiometer (SECA, seca 216, Chino, CA, USA) and weight was measured using a digital scale (Cardinal DETECTO 758C, Webb City, MO). Then, participants completed a 5-minute warm-up at a self-selected exercise intensity prior to the VO2max test on an electrically braked cycle ergometer (Lode, Excalibur Sport, Groningen, The Netherlands). During the VO2max test, HR was measured using a Polar HR monitor (Polar, Polar H10, USA) with each test designed to last between 10 and 12 minutes. The starting resistance and the continuous increase in resistance (between 20-40 watts) throughout the test was based on the participants' self-reported fitness. Termination of the VO2max test occurred at volitional fatigue or when the participant could no longer maintain a cycling cadence of 60 revolutions per minute or higher. Gas-exchange was measured using a metabolic analyzer (Parvo Medics Inc, TrueOne 2400, Salt Lake City, UT) and data were analyzed using an 11-breath rolling average20. Primary criteria for a VO2max was categorized as an observed plateau that varied by less than 150 mlO2/min21. To determine a plateau using primary criteria, the mean of the absolute difference from each neighboring data point in the last 30 seconds of the 11-breath rolling average VO2 was compared against 150 mlO2/min21; if the average value was smaller, the test was categorized as a VO2max. In the absence of a plateau, a VO2max was confirmed if two of the three secondary criteria were met: 1) an RPE ≥17, 2) a respiratory exchange ratio (RER) of 1.1 or greater, and 3) a HR within 10 beats of estimated heart rate max using the Jones et al. equation (202 - 0.72 x age). The highest power output recorded from the VO2max test was used to calculate the high intensity and active recovery bouts for the HIIE sessions. High Intensity Interval Exercise Trials Before all HIIE sessions participant's hydration status was assessed measuring urine specific gravity (USG) using a handheld refractometer (Cole-Parmer, RSA-BR90A, Vernon Hills, IL). A USG measurement lower than 1.020 g/cc allowed participants to proceed to the HIIE sessions. If USG was greater than 1.020 g/cc, then participants consumed 500 ml of water, and were reassessed after 30 minutes. This water provision was only repeated twice if USG remained above 1.020 g/cc. A randomized cross over repeated measures design was used to compare cardiovascular, thermoregulatory, metabolic, and perceived responses before and during HIIE across four experimental trials performed during two visits. For each visit, which was separated by a minimum of 72 hours, the participants completed two HIIE sessions separated by 3 hours of rest. Each HIIE bout consisted of 10 bouts lasting 30 seconds performed at 85% Pmax followed by 90 seconds of active recovery at 30% Pmax. The HIIE sessions were performed in a temperate environment (23°C, 25% relative humidity) with (TEMP/MASK) and without a surgical mask (TEMP/CON), and in a hot environment (36°C, 14% relative humidity) with (HOT/MASK) and without a surgical mask (HOT/CON). During the exercise protocol participants were allowed to drink water. During HIIE sessions with a mask, all participants were instructed to wear the surgical mask snugly over their nose and mouth. The participants fitted the flexible metal plate within the surgical mask over the bridge of the nose and had the bottom of the mask cover underneath the chin. During the 3-hour rest period participants were provided a 350-calorie meal (7g of Fat; 64g Carbohydrate; 9g Protein) and water ad libitum. Cardiovascular Measurements Before every HIIE trial and after 5-minutes of seated rest, resting blood pressure was measured using a sphygmomanometer, and stethoscope. A cardiac impedance device (PhysioFlow®, NeuMeDex, Bristol, PA) calibrated per manufacturer guidelines was used to indirectly measure cardiac output (CO), stroke volume (SV), and HR. These measurements were taken continuously using 10-second averaging provided by the PhysioFlow® software during each HIIE session. Metabolic Measurements A near infra-red spectroscopy (NIRS) device (Moxy, Moxy Monitor System, MN, USA) was used to measure muscle tissue oxygenation every second during each HIIE session. The highest muscle tissue oxygenation value from each active rest period (MTO active rest %) was averaged for each HIIE session. Additionally, the lowest muscle tissue oxygenation (MTO during HIIE %) value per high intensity bout was recorded and averaged from each HIIE session. The difference of the average MTO active rest % and MTO during HIIE % was used to calculate the muscle tissue oxygenation difference (MTO difference %). All MTO measurements were taken on the dominant leg at a marked location on the vastus lateralis that would allow movement without interference from the NIRS device. A pulse oximeter (Caretaker, Caretaker Medical, USA) was used to measure SpO2 during HIIE. Blood lactate measurements (Lactate Plus, NOVA Biomedical, MA) were taken in duplicate at the ear lobe immediately before, and 5-minutes post HIIE. Perceptual Measurement before and during HIIE Borg's rating of perceived exertion (6 rest to 20 maximal effort) scale (RPE) and thermal sensation (0 very cold to 8 very hot) was measured immediately before and every four minutes into HIIE. A breathlessness scale (0 mm no breathlessness to 200 mm maximal breathlessness)was used immediately before, at 10-minutes, and immediately after exercise to record subjective change in difficulty breathing. The highest measurements for both RPE (peak RPE) and thermal sensation (peak thermal sensation) were recorded per HIIE session performed. Additionally, RPE (RPE avg) and dyspnea scores were averaged over time for every HIIE session. Thermal strain and hydration measurements During each HIIE exercise session continuous core temperature measurements were taken using rectal thermistors (Level 1 esophageal/rectal temperature probe, Smiths Medical, Minneapolis, MN, USA) connected to a thermometer (Precision 4000, YSI Incorporated, Yellow Springs, OH, USA) and monitored to ensure participant safety. Additionally, ∆ core temperature (i.e., the difference between peak core temperature and core temperature prior to starting exercise) and peak core temperature were recorded for each HIIE session. Sweat rate and dehydration were calculated from pre-exercise nude weight, post-exercise nude weight, water ingestion, and post-exercise urine output measurements27. Participants were asked to measure and report their pre-exercise and post-exercise nude weight using a digital scale (Cardinal DETECTO 758C, Webb City, MO) in a private room.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Hypoxemia, Physiological Stress

7. Study Design

Primary Purpose
Health Services Research
Study Phase
Not Applicable
Interventional Study Model
Sequential Assignment
Model Description
non-blinded randomized repeated measures crossover
Masking
None (Open Label)
Allocation
Randomized
Enrollment
10 (Actual)

8. Arms, Groups, and Interventions

Arm Title
No mask temperate
Arm Type
Active Comparator
Arm Description
Participant exercised in room temperature environment not wearing a surgical face mask
Arm Title
Mask temperate
Arm Type
Experimental
Arm Description
Participant exercised in room temperature environment while wearing a surgical face mask
Arm Title
No mask hot
Arm Type
Active Comparator
Arm Description
Participant exercised in a hot environmental temperature not wearing a surgical face mask
Arm Title
Mask hot
Arm Type
Experimental
Arm Description
Participant exercised in a hot environmental temperature while wearing a surgical face mask
Intervention Type
Device
Intervention Name(s)
High-intensity interval exercise with surgical face mask in a temperate environment
Intervention Description
Participants performed high-intensity interval exercise in a temperate environmental condition while wearing surgical face mask
Intervention Type
Device
Intervention Name(s)
High-intensity interval exercise with surgical face mask in a hot environment
Intervention Description
Participants performed high-intensity interval exercise in a hot environmental condition while wearing surgical face mask
Intervention Type
Other
Intervention Name(s)
High-intensity interval exercise without using a surgical face mask in a hot environment
Intervention Description
Participants performed high-intensity interval exercise in a hot environmental condition without wearing a surgical face mask
Intervention Type
Other
Intervention Name(s)
High-intensity interval exercise without using a surgical face mask in a temperate environment
Intervention Description
Participants performed high-intensity interval exercise in a temperate environmental condition without wearing a surgical face mask
Primary Outcome Measure Information:
Title
Average Heart Rate Over the Course of High-intensity Interval Exercise
Description
Heart rate measured in beats per minute using a cardiograph impedance device (PhysioFlow)
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Stroke Volume Over the Course of High-intensity Interval Exercise
Description
Stroke volume measured in milliliters using a cardiograph impedance device (PhysioFlow)
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Cardiac Output Over the Course of High-intensity Interval Exercise
Description
Cardiac output measured in liters per minute using a cardiograph impedance device (PhysioFlow)
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Peak Core Temperature
Description
The highest core body temperature measured in degrees Celsius during high-intensity interval exercise
Time Frame
The highest value recorded during a 20-minute high-intensity interval exercise session
Title
Change From Baseline (Rest) in Core Temperature to the End of Exercise
Description
The difference in core temperature from rest prior to exercise and at the end of exercise
Time Frame
Baseline (rest) prior to exercise and immediately after 20-minutes of exercise
Title
Sweat Rate During Exercise
Description
Amount of fluid loss through sweat over the course of exercise reported in milliliters per hour. This was calculated by taking difference of pre- and post-exercise body weight in kilograms while accounting for fluid intake and urine volume.
Time Frame
Change from Baseline (rest) prior to exercise and after 20-minutes of exercise
Title
Dehydration After Exercise
Description
Percentage of body weight fluid loss represented as a percentage of change from baseline and after 20 minutes of exercise
Time Frame
Change from baseline at rest and after 20-minutes of exercise
Title
Lactate at 5-minutes Post Exercise
Description
Blood lactate measured in millimoles per liter. This measurement was taken at the earlobe using a sterile lancet to obtain a drop of blood for analysis.
Time Frame
5-minutes post exercise
Title
Average Blood Oxygen Saturation Over the Course of High-intensity Interval Exercise
Description
A pulse oximeter was placed on a finger and used to measure the percentage of oxygen saturated blood.
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Muscle Tissue Oxygenation During the High-intensity Portions of the Exercise Session
Description
A near-infra red spectroscopy device was placed over the vastus lateralis of the dominant leg. This device measured the percentage of oxygenated muscle tissue.
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Muscle Tissue Oxygenation During the Active Rest Portions of the Exercise Session
Description
A near-infra red spectroscopy device was placed over the vastus lateralis of the dominant leg. This device measured the percentage of oxygenated muscle tissue.
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Change in Muscle Tissue Oxygenation Between the Active Rest and High Intensity Portions Over the Course of High-intensity Interval Exercise.
Description
This value was calculated by subtracting the average percentage of muscle tissue oxygenation during active rest portion of the exercise from the average percentage of muscle tissue oxygenation during the high-intensity portion of the exercise.
Time Frame
During a 20-minute high-intensity interval exercise session
Title
Average Perceived Dyspnea Score Over the Course of High-intensity Interval Exercise
Description
The participants were presented a vertical 200 millimeter long line with the top of the line labeled "No Difficulty" and the bottom of the line labeled "Most Difficult". The participants were then asked to indicated on this line how difficult it was to breath by pointing to a point along the line presented to them. Once the participant indicated along the line how difficult it was to breath the researcher then marked the spot on the line with a pen. To quantify the measurement, the distance, measured in millimeters, was taken from the "No Difficulty" end of the line (0 millimeters) to the indicated mark with the maximum difficulty recorded as 200 millimeters.
Time Frame
Measurements were taken prior to, 10 minutes into exercise, and immediately after exercise (at 20 minutes). These measurements were averaged to form a single value for the high-intensity interval exercise session.
Title
Peak Thermal Sensation Over the Course of High-intensity Interval Exercise
Description
Participants were asked to indicate on a visual scale from 0 (very cold) to 8 (very hot) their perceived thermal sensation. The highest recorded value was reported.
Time Frame
Baseline (rest) and every four minutes that was assessed up to 20 minutes into exercise. The highest value was recorded for each exercise session.
Title
Average Thermal Sensation Over the Course of High-intensity Interval Exercise
Description
Participants were asked to indicate on a visual scale from 0 (very cold) to 8 (very hot) their perceived thermal sensation.
Time Frame
Baseline (rest) and every four minutes that was assessed up to 20 minutes into exercise. These values were averaged into one value for each exercise session.
Title
Peak Rating of Perceived Exertion Over the Course of High-intensity Interval Exercise
Description
Participants were asked to indicate on a visual scale from 6 (no exertion) to 20 (maximal exertion) their perceived difficulty of exercise. The highest recorded value was reported.
Time Frame
Baseline (rest) and every four minutes that was assessed up to 20 minutes into exercise. The highest value was recorded for each exercise session.
Title
Averaged Rating of Perceived Exertion Over the Course of High-intensity Interval Exercise
Description
Participants were asked to indicate on a visual scale from 6 (no exertion) to 20 (maximal exertion) their perceived difficulty of exercise. The highest recorded value was reported.
Time Frame
Baseline (rest) and every four minutes that assessed up to 20 minutes into exercise. These values were averaged into one value for each exercise session.
Title
Peak Heart Rate Over the Course of High-intensity Interval Exercise
Description
Peak heart rate measured in beats per minute using a cardiograph impedance device (PhysioFlow)
Time Frame
During a 20-minute high-intensity interval exercise session

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
Accepts Healthy Volunteers
Eligibility Criteria
Inclusion Criteria: 18 years of age or older and, are able to both speak and read in English. Physically active and used to high-intensity exercise. No known serious medical conditions. Exclusion Criteria: Vulnerable populations such as children, minors, pregnant women, and intellectually challenged individuals. Those with cardiovascular, renal, metabolic, or chronic respiratory disease, smokers or those who have quit smoking less than 6 months ago, and those who use an inhaler to control for exercise-induced asthma. In addition, exclusion criteria include participants who show any signs or symptoms of COVID-19 and have had exposure to anyone with COVID-19 symptoms or any person that has tested positive for COVID-19.
Facility Information:
Facility Name
University of New Mexico
City
Albuquerque
State/Province
New Mexico
ZIP/Postal Code
87131
Country
United States

12. IPD Sharing Statement

Plan to Share IPD
Undecided
Citations:
PubMed Identifier
35608826
Citation
Wells A, Fennel Z, Ducharme J, Masoud A, Houck J, Bellovary B, Deyhle M, Hsiao YY, Amorim F, Mermier C. Facemask Use During High Intensity Interval Exercise in Temperate and Hot Environments. J Occup Environ Med. 2022 May 1;64(5):421-428. doi: 10.1097/JOM.0000000000002461. Epub 2021 Dec 16.
Results Reference
derived

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"Facemask Use During High-intensity Interval Exercise in Temperate and Hot Environments"

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