Protective Face Masks and Cardiopulmonary Parameters at Rest and During Exercise in Children
NCT ID: NCT05193422
Last Updated: 2022-01-14
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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UNKNOWN
NA
40 participants
INTERVENTIONAL
2022-01-20
2022-03-20
Brief Summary
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The study will consist of two phases:
* Phase I: No face mask.
1. Measurement of peak nasal inspiratory flow
2. CPET with an ergometric bike at 30% of their predicted maximum workload (Wmax) for 4 minutes, 50% of Wmax for 2 minutes and 70% of Wmax for 1 minute, with continuous oxygen saturation (SpΟ2), heart rate (HR), end-tidal CO2 (EtCO2) and respiratory rate (RR) monitoring.
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment using a special scale
* Phase II: Face mask. Following nPIF measurement, participants will be asked to wear a standard surgical face mask. A temperature and humidity sensor will also be placed inside the mask. Will follow:
1. Resting phase, 6 minutes. SpO2, HR, EtCO2 and RR will be monitored.
2. CPET at 30% of Wmax for 4 minutes, 50% Wmax for 2 minutes and 70% Wmax for 1 minute. SpO2, HR, EtCO2 and RR will be continuously monitored.
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment.
Both phases will be performed on the same day with a recovery phase of 30 minutes between them. Participants will be randomized to begin with Phase I followed by Phase II or Phase II followed by Phase I.
At both phases, SpO2, HR, EtCO2 and RR (10 s average values) will be recorder at each 1 minute during CPET, and at minutes 0, 3 and 6 during the resting phase of Phase II. During Phase II, temperature and humidity will also be recorded at each 1 minute during CPET and at minutes 0, 3 and 6 during the resting phase.
The total duration of the protocol is estimated at 90 minutes per participant. The study sample will consist of 40 children stratified by age.
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Detailed Description
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The purpose of this study is to investigate the possible effects of protective surgical masks on the cardiorespiratory function of children aged 8-14 years at rest and during exercise.
METHODS
A. Population
Children aged 8-14 years (minimum height 135 cm) will be invited to participate. They will be recruited from the outpatient clinics of the Pediatric Allergy and Pediatric Endocrinology Departments of the University Hospital of Patras, Greece. Children should not suffer from conditions that are likely to affect cardiopulmonary exercise testing (CPET) outcomes, such as respiratory (asthma and chronic lung disease), cardiac (congenital heart disease, heart failure), neurologic and musculoskeletal disorders.
The parents of the children will be informed about the aims of the study and they will be asked to give written consent. The study has been approved by the local Research and Ethics Committee (Act no. 407/9.10.2020).
B. Protocol
The study will be performed at the Respiratory Functions and CPET Laboratory of the Pediatric Pulmonary Unit. Children will present to the laboratory with one of their parents.
After history taking and measurement of weight and height, baseline spirometry will follow using a Micro5000 device (Medisoft, Sorinnes, Belgium) to determine FEV1, FVC, FEV1/FVC, FEF25-75 and PEF. The study will consist of two phases:
* Phase I: No face mask. Participants will perform
1. Measurement of peak nasal inspiratory flow (nPIF) using the Micro5000 device and a specially modified nasal mask.
2. CPET using an ULTIMA CPX device (MGC Diagnostics, Saint Paul, MI, USA) with an ergometric bike (eBike, GE Healthcare, Wauwatosa, WI, USA). Participants will be asked to exercise (steady pedaling at 60 rpm) at 30% of their predicted maximum workload (Wmax) for 4 minutes, at 50% of Wmax for 2 minutes and at 70% of Wmax for 1 minute. Wmax will be calculated as 3 Watts/kg.
During CPET, oxygen saturation (SpΟ2) and heart rate (HR) will be continuously monitored using a Nonin 7500 pulse oximeter with a special ear sensor (Nonin Medical Inc, Plymouth, MN, USA). End-tidal CO2 (EtCO2) and respiratory rate (RR) will also be monitored using a Microstream device with special sampling (nasal) lines (Medtronic, Minneapolis, MN, USA).
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment using a special scale graded from 1 to 10.
* Phase II: Face mask. Following nPIF measurement, participants will be asked to wear a standard surgical face mask. A temperature and humidity sensor (RHT03, MaxDetect Technologies, Shenzhen, China) will also be placed inside the mask on the right cheek, at nose level. Subsequently will follow:
1. Resting phase, with the participants on the ergometric bike without pedaling and breathing normally for 6 minutes. SpO2, HR, EtCO2 and RR will be monitored during the resting phase.
2. CPET at 30% of Wmax for 4 minutes, 50% of Wmax for 2 minutes and 70% of Wmax for 1 minute. SpO2, HR, EtCO2 and RR will be continuously monitored.
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment.
Both phases will be performed on the same day with a recovery phase of 30 minutes between them. Participants will be randomized to begin with Phase I followed by Phase II or Phase II followed by Phase I.
At both phases, SpO2, HR, EtCO2 and RR (10 s average values) will be recorder at each 1 minute during CPET, and at minutes 0, 3 and 6 during the resting phase of Phase II. During Phase II, temperature and humidity will also be recorded at each 1 minute during CPET and at minutes 0, 3 and 6 during the resting phase.
The total duration of the protocol is estimated at 90 minutes per participant. The study sample will consist of 40 children stratified by age.
Conditions
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Study Design
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RANDOMIZED
CROSSOVER
OTHER
NONE
Study Groups
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Phase I: No mask
Participants, without wearing a face mask, will undergo the following:
1. Measurement of peak nasal inspiratory flow
2. Cardiopulmonary exercise testing (CPET) with an ergometric bike at 30% of their predicted maximum workload (Wmax) for 4 minutes, 50% of Wmax for 2 minutes and 70% of Wmax for 1 minute, with continuous oxygen saturation (SpΟ2), heart rate (HR), end-tidal CO2 (EtCO2) and respiratory rate (RR) monitoring.
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment using a special scale
Spirometry - baseline
Standard spirometry using a Micro5000 spirometer to determine baseline FEV1, FVC, FEV1/FVC, FEF25-75 and PEF.
Baseline spirometry will be performed before CPET in both study arms
Spirometry - post CPET
Standard spirometry using a Micro5000 spirometer to determine baseline % change in FEV1 after CPET and assess exercise-induced bronchoconstriction (defined as FEV1 decrease \>10% at 5 minutes after CPET) Post spirometry will be performed after CPET in both study arms
Nasal peak inspiratory flow - baseline
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured before CPET in both study arms
Nasal peak inspiratory flow - post CPET
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured after CPET in both study arms
Oxygen saturation
Continuous monitoring of SpO2 using a Nonin 7500 pulse oximeter, in both study arms
Heart Rate
Continuous monitoring of HR using a Nonin 7500 pulse oximeter, in both study arms
End-tidal CO2
Continuous monitoring of EtCO2 using a Microstream capnograph, in both study arms
Respiratory rate
Continuous monitoring of RR using a Microstream capnograph, in both study arms
Cardiopulmonary exercise testing
CPET using an ULTIMA CPX device (MGC Diagnostics, Saint Paul, MI, USA) with an ergometric bike (eBike, GE Healthcare, Wauwatosa, WI, USA). Participants will be asked to exercise (steady pedaling at 60 rpm) at 30% of their predicted maximum workload (Wmax) for 4 minutes, at 50% of Wmax for 2 minutes and at 70% of Wmax for 1 minute. Wmax will be calculated as 3 Watts/kg.
CPET will be performed in both study arms
Discomfort level
Discomfort assessment using a special scale graded from 1 to 10 (Fikenzer, 2020).
Both study arms, after CPET.
Phase II: Face mask
Following nPIF measurement, participants will be asked to wear a standard surgical face mask. A temperature and humidity sensor will also be placed inside the mask. Will follow:
1. Resting phase, 6 minutes. SpO2, HR, EtCO2 and RR will be monitored.
2. CPET at 30% of Wmax for 4 minutes, 50% Wmax for 2 minutes and 70% Wmax for 1 minute. SpO2, HR, EtCO2 and RR will be continuously monitored.
3. Spirometry and measurement of nPIF immediately after CPET.
4. Discomfort assessment.
Spirometry - post CPET
Standard spirometry using a Micro5000 spirometer to determine baseline % change in FEV1 after CPET and assess exercise-induced bronchoconstriction (defined as FEV1 decrease \>10% at 5 minutes after CPET) Post spirometry will be performed after CPET in both study arms
Nasal peak inspiratory flow - baseline
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured before CPET in both study arms
Nasal peak inspiratory flow - post CPET
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured after CPET in both study arms
Oxygen saturation
Continuous monitoring of SpO2 using a Nonin 7500 pulse oximeter, in both study arms
Heart Rate
Continuous monitoring of HR using a Nonin 7500 pulse oximeter, in both study arms
End-tidal CO2
Continuous monitoring of EtCO2 using a Microstream capnograph, in both study arms
Respiratory rate
Continuous monitoring of RR using a Microstream capnograph, in both study arms
Temperature
Continuous monitoring of Temp in the face mask using a RHT03 sensor, only in the experimental study arm
Humidity
Continuous monitoring of Hum in the face mask using a RHT03 sensor, only in the experimental study arm
Cardiopulmonary exercise testing
CPET using an ULTIMA CPX device (MGC Diagnostics, Saint Paul, MI, USA) with an ergometric bike (eBike, GE Healthcare, Wauwatosa, WI, USA). Participants will be asked to exercise (steady pedaling at 60 rpm) at 30% of their predicted maximum workload (Wmax) for 4 minutes, at 50% of Wmax for 2 minutes and at 70% of Wmax for 1 minute. Wmax will be calculated as 3 Watts/kg.
CPET will be performed in both study arms
Discomfort level
Discomfort assessment using a special scale graded from 1 to 10 (Fikenzer, 2020).
Both study arms, after CPET.
Interventions
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Spirometry - baseline
Standard spirometry using a Micro5000 spirometer to determine baseline FEV1, FVC, FEV1/FVC, FEF25-75 and PEF.
Baseline spirometry will be performed before CPET in both study arms
Spirometry - post CPET
Standard spirometry using a Micro5000 spirometer to determine baseline % change in FEV1 after CPET and assess exercise-induced bronchoconstriction (defined as FEV1 decrease \>10% at 5 minutes after CPET) Post spirometry will be performed after CPET in both study arms
Nasal peak inspiratory flow - baseline
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured before CPET in both study arms
Nasal peak inspiratory flow - post CPET
Measurement of peak nasal inspiratory flow (nPIF) using a Micro5000 spirometer and a specially modified nasal mask.
nPIF will be measured after CPET in both study arms
Oxygen saturation
Continuous monitoring of SpO2 using a Nonin 7500 pulse oximeter, in both study arms
Heart Rate
Continuous monitoring of HR using a Nonin 7500 pulse oximeter, in both study arms
End-tidal CO2
Continuous monitoring of EtCO2 using a Microstream capnograph, in both study arms
Respiratory rate
Continuous monitoring of RR using a Microstream capnograph, in both study arms
Temperature
Continuous monitoring of Temp in the face mask using a RHT03 sensor, only in the experimental study arm
Humidity
Continuous monitoring of Hum in the face mask using a RHT03 sensor, only in the experimental study arm
Cardiopulmonary exercise testing
CPET using an ULTIMA CPX device (MGC Diagnostics, Saint Paul, MI, USA) with an ergometric bike (eBike, GE Healthcare, Wauwatosa, WI, USA). Participants will be asked to exercise (steady pedaling at 60 rpm) at 30% of their predicted maximum workload (Wmax) for 4 minutes, at 50% of Wmax for 2 minutes and at 70% of Wmax for 1 minute. Wmax will be calculated as 3 Watts/kg.
CPET will be performed in both study arms
Discomfort level
Discomfort assessment using a special scale graded from 1 to 10 (Fikenzer, 2020).
Both study arms, after CPET.
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
2. Height \>135 cm
3. Parental written informed consent
Exclusion Criteria
2. Child not willing to participate (e.g. not willing to wear the sensors)
8 Years
14 Years
ALL
Yes
Sponsors
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University of Patras
OTHER
Responsible Party
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Fouzas Sotirios
Assistant Professor of Pediatrics
Principal Investigators
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Sotirios Fouzas, Prof.
Role: PRINCIPAL_INVESTIGATOR
Pediatric Respiratory Unit, University Hospital of Patras, Greece
Michael Anthracopoulos, Prof.
Role: STUDY_CHAIR
Pediatric Respiratory Unit, University Hospital of Patras, Greece
Central Contacts
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Other Identifiers
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10092020
Identifier Type: -
Identifier Source: org_study_id
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