Mechanistic Study of Inspiratory Training in Childhood Asthma (MICA)

Sponsor

Duke University (Other)

Overall Status

Not yet recruiting

CT.gov ID

NCT05945355

Collaborator

National Institutes of Health (NIH) (NIH)

Enrollment

Locations

Arms

Anticipated Duration (Months)

Patients Per Site

2.9

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

This is single-center cross-sectional mechanistic study in lean and obese children with moderate-severe asthma, followed by a randomized, SHAM-controlled trial of Inspiratory Training (IT). The primary outcome is to describe the contributions of inspiratory muscle dysfunction (IMD) and Small Airway Dysfunction (SAD) to obesity-related versus non-obesity-related asthma. The study will involve training (IT) for 8 weeks at three intensity levels (SHAM, low and high). Target dose: 150 inspirations three times weekly. The population includes 6 to 17-year-old children with moderate to severe asthma and with a body mass index qualifying as normal habitus (BMI 5th to 84th CDC percentile) or obese habitus (≥95th percentile BMI and less than 170% of the 95th CDC percentile). Participants will be involved for 10 weeks. The investigators will use analysis of covariance (ANCOVA) to estimate and test the difference in mean values of baseline measures between obese and non-obese cohorts. Covariates will include age, sex (male/female), race/ethnicity, baseline asthma severity (NAEPP step 2 vs ≥3), and atopy status

Condition or Disease	Intervention/Treatment	Phase
Asthma in Children Obesity Pediatric Obesity Pediatric Asthma	Device: Pro2 - Low Dose - 40% of participant's MIP Device: Pro2 - High Dose - 75% of participant's MIP Device: Pro2 - SHAM - 15% of participant's MIP	N/A

Detailed Description

Cross-sectional analytic study of pulmonary mechanics comparing lean and obese children with asthma followed by a randomized, SHAM-controlled 3-arm intervention trial of inspiratory training on small airway dysfunction and inspiratory muscle function.

The central objective of the MICA (Mechanistic Study of Inspiratory Training in Childhood Asthma) study is to assess key respiratory mechanisms in 6-17 year olds with symptomatic asthma (with and without obesity) in response to IT. Our central hypothesis is that obesity promotes dyspnea and worse asthma control via inspiratory muscle fatigue/dysfunction (IMD) and small airway dysfunction (SAD), and that IT will improve inspiratory muscle function and small airway measures.

The sample size calculations and main analyses for the IT trial are designed as a traditional parallel arm intervention trial (any dose IT vs. SHAM control) with visits 1-2 serving as the baseline evaluation and the main IT endpoints being collected at the 8-week visit.

In depth phenotyping involving measures of respiratory mechanics and muscle functioning and a RCT involving inspiratory training will address these objectives.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

76 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Intervention Model Description:

This is single-center cross-sectional mechanistic study in lean and obese children with moderate-severe asthma, followed by a randomized, SHAM-controlled trial of Inspiratory Training (IT).This is single-center cross-sectional mechanistic study in lean and obese children with moderate-severe asthma, followed by a randomized, SHAM-controlled trial of Inspiratory Training (IT).

Masking:

Quadruple (Participant, Care Provider, Investigator, Outcomes Assessor)

Masking Description:

For every 1 participant allocated to sham, 2 will be active IT. Among them, half will be allocated low-dose and half high dose. To provide balance among treatment groups regarding sex/obesity-status, randomization will occur within four strata (males obese,females obese,males non-obese,females non-obese).Treatment assignment will be obtained using Duke REDCap enrollment/randomization system. All study staff and participants will be blinded to the treatment assignment at screening/enrollment and prior to treatment group allocation. Participants in the active IT and sham arms will use the same device. Participants may try to discern their device resistance. Although true masking of active IT versus sham may not be possible in all cases, participants will only be told that they are receiving 1 of 3 possible resistances. However, staff members who are assessing endpoints and performing statistical analyses will be blinded to treatment assignment until after the database is locked

Primary Purpose:

Treatment

Official Title:

Mechanistic Study of Inspiratory Training in Childhood Asthma (MICA)

Anticipated Study Start Date :

Sep 30, 2023

Anticipated Primary Completion Date :

Sep 30, 2024

Anticipated Study Completion Date :

Oct 30, 2024

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Active Low Dose inspiratory muscle rehabilitation (IMR) group Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. Participants will be instructed to inspire forcefully through PrO2™ until the device signals that the user has achieved the target resistance (via audible alarm and visible light signal). The research team will implement biofeedback signals at a specific inspiratory resistance to provide precise and individualized training target. Successful IMR repetitions will require that subjects achieve a pressure target that is 40% of their MIP (maximum inspiratory pressure).	Device: Pro2 - Low Dose - 40% of participant's MIP Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. The PrO2™ is a flow-resistive device that provides inspiratory resistance via a fixed 2mm orifice and has Bluetooth connectivity to most IOS/Android devices or Mac/Windows computers. The PrO2™ device and app allows for both 100% adherence monitoring and immediate user biofeedback. Successful IMR repetitions will require that subjects achieve a pressure target that is 40% of their MIP (maximum inspiratory pressure).
Experimental: Active High Dose inspiratory muscle rehabilitation (IMR) group Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. Participants will be instructed to inspire forcefully through PrO2™ until the device signals that the user has achieved the target resistance (via audible alarm and visible light signal). The research team will implement biofeedback signals at a specific inspiratory resistance to provide precise and individualized training target. Successful IMR repetitions will require that subjects achieve a pressure target that is 75% of their MIP (maximum inspiratory pressure).	Device: Pro2 - High Dose - 75% of participant's MIP Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. The PrO2™ is a flow-resistive device that provides inspiratory resistance via a fixed 2mm orifice and has Bluetooth connectivity to most IOS/Android devices or Mac/Windows computers. The PrO2™ device and app allows for both 100% adherence monitoring and immediate user biofeedback. Successful IMR repetitions will require that subjects achieve a pressure target that is 75% of their MIP (maximum inspiratory pressure).
Active Comparator: SHAM Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. Participants will be instructed to inspire forcefully through PrO2™ until the device signals that the user has achieved the target resistance (via audible alarm and visible light signal). The research team will implement biofeedback signals at a specific inspiratory resistance to provide precise and individualized training target. Successful IMR repetitions will require that subjects achieve a pressure target that is 15% of their MIP (maximum inspiratory pressure).	Device: Pro2 - SHAM - 15% of participant's MIP Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. The PrO2™ is a flow-resistive device that provides inspiratory resistance via a fixed 2mm orifice and has Bluetooth connectivity to most IOS/Android devices or Mac/Windows computers. The PrO2™ device and app allows for both 100% adherence monitoring and immediate user biofeedback. Successful IMR repetitions will require that participants achieve a pressure target that is 15% of their MIP (maximum inspiratory pressure).

Arm

Intervention/Treatment

Experimental: Active Low Dose inspiratory muscle rehabilitation (IMR) group

Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. Participants will be instructed to inspire forcefully through PrO2™ until the device signals that the user has achieved the target resistance (via audible alarm and visible light signal). The research team will implement biofeedback signals at a specific inspiratory resistance to provide precise and individualized training target. Successful IMR repetitions will require that subjects achieve a pressure target that is 40% of their MIP (maximum inspiratory pressure).

Device: Pro2 - Low Dose - 40% of participant's MIP

Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. The PrO2™ is a flow-resistive device that provides inspiratory resistance via a fixed 2mm orifice and has Bluetooth connectivity to most IOS/Android devices or Mac/Windows computers. The PrO2™ device and app allows for both 100% adherence monitoring and immediate user biofeedback. Successful IMR repetitions will require that subjects achieve a pressure target that is 40% of their MIP (maximum inspiratory pressure).

Experimental: Active High Dose inspiratory muscle rehabilitation (IMR) group

Device: Pro2 - High Dose - 75% of participant's MIP

Active Comparator: SHAM

Device: Pro2 - SHAM - 15% of participant's MIP

Each participant will be provided a PrO2™ device and trained on its use as well as its accompanying PrO2 Fit™ app. The PrO2™ is a flow-resistive device that provides inspiratory resistance via a fixed 2mm orifice and has Bluetooth connectivity to most IOS/Android devices or Mac/Windows computers. The PrO2™ device and app allows for both 100% adherence monitoring and immediate user biofeedback. Successful IMR repetitions will require that participants achieve a pressure target that is 15% of their MIP (maximum inspiratory pressure).

Outcome Measures

Primary Outcome Measures

Number of participants with inspiratory muscle dysfunction in obesity-related versus non-obesity-related asthma [10 weeks]
Number of participants with small airway dysfunction in obesity-related versus non-obesity-related asthma [10 weeks]

Secondary Outcome Measures

Inspiratory muscle endurance (sustained maximal inspiratory pressure) [10 weeks]

Other Outcome Measures

Small airway dysfunction as measured by impulse oscillometry [10 weeks]
Small airway dysfunction as measured by residual volume [10 weeks]

Eligibility Criteria

Criteria

Ages Eligible for Study:

6 Years to 17 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

6-17 years of age
Documented clinician-diagnosed asthma
Currently requiring 2 or more controller prescriptions to treat disease (i.e. moderate to severe persistent disease)
Either obese (≥95th percentile BMI and less than 170% of the 95th CDC percentile) or have a normal BMI (BMI 5th to 84th CDC percentile)

Exclusion Criteria:

ACT (asthma control test) score <17
Ever intubated for asthma
FEV1 < 50% of predicted at enrollment
Currently pregnant
Legal guardian unable to consent in English or Spanish
Any major chronic illness that, in the opinion of the PI, would interfere with participation
Younger than 6 years of age

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Duke Health Center Creekstone	Durham	North Carolina	United States	27703
2	Duke Healthy Lifestyles Clinic	Durham	North Carolina	United States	27704

Sponsors and Collaborators

Duke University
National Institutes of Health (NIH)

Investigators

Principal Investigator: Jason Lang, MD, Duke University

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

Duke University

ClinicalTrials.gov Identifier:

NCT05945355

Other Study ID Numbers:

Pro00112858

First Posted:

Jul 14, 2023

Last Update Posted:

Jul 14, 2023

Last Verified:

Jul 1, 2023

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Yes

Product Manufactured in and Exported from the U.S.:

Additional relevant MeSH terms:

Asthma

Obesity

Pediatric Obesity

Study Results

No Results Posted as of Jul 14, 2023