The proposed study is to gauge the early feasibility and acceptance of the SonoHeal device. The study will evaluate the usability of the SonoHeal prototype using well-established Human Factors Engineering methods recommended by the FDA. The investigators will also obtain a preliminary comparison with the standard of care ACT device, High Frequency Chest Wall Oscillation (HFCWO).
The proposed study is to gauge the early feasibility and acceptance of the SonoHeal device. The study will evaluate the usability of the SonoHeal prototype using well-established Human Factors Engineering methods recommended by the FDA. The investigators will also obtain preliminary comparison with the standard of care ACT device High Frequency Chest Wall Oscillation (HFCWO). The study will be an iterative preliminary non-randomized pilot test to assess the translation of the SA1 RL algorithm from in-vitro models (3D lung and animal) to diseased human lungs. The subjects will use and provide feedback on the user interface and ease of operability of the prototype device. The software algorithm will be fine-tuned based on the clinical outcomes of the study. Participants have already had ≥2 ACT recent clinic sessions with the VEST device in the past 6 months to provide an estimate of the therapy outcomes, and the metrics will be compared against those obtained for the SonoHeal device. The primary outcomes will be qualitative; subjects will be interviewed and encouraged to verbalize their experience using the FDA-recommended Cognitive Walk-Through evaluation, and responses will be recorded for review and design improvements in the next stage. The quantitative outcome variables will be wet sputum weight and pre-post changes in resistance and FEV1 for preliminary comparison with the VEST for assessing algorithm performance. The sample size required is determined from the goal of identifying \>90% of initial issues with the prototype device. Initially, N = 3 subjects in 3 sessions will be enrolled to evaluate and identify \>90% of algorithmic, operational, and usability difficulties (problem discovery rate 70%, total n=9 sessions). Subsequently, N= 12 will be enrolled. The subjects will also undergo the personalization training session to optimize the algorithm parameters for each subject's unique response to airway clearance therapy. Based on the results of Stage I experiments, the improved prototype device will be used for more extensive usability testing in the future.
Study Type
OBSERVATIONAL
Enrollment
15
The investigational intervention is the SonoHeal device, an adaptive airway clearance therapy (ACT) system designed to enhance mucus mobilization through individualized pressure/acoustic oscillations. The device utilizes the Forced Oscillation Technique (FOT) to continuously measure respiratory impedance, including airway resistance and reactance, during therapy. During each treatment session, patients use the SonoHeal device for a defined duration consistent with standard ACT practices. The device delivers high-frequency pressure oscillations intended to loosen and mobilize mucus within the airways, facilitating expectoration. Outcome measures associated with the intervention include changes in lung function parameters (e.g., resistance and reactance), sputum production during therapy, and overall treatment response.
Ventura County Medical Center
Santa Ana, California, United States
Qualitative assessment
The patients will describe their experience during the therapy using the Cognitive Walk Through Evaluation
Time frame: Day 1: Baseline (pre-treatment), during treatment (up to 60 minutes), and immediately post-treatment (within 1 hour).
Time taken for training session
The time taken during the first training session will be measured.
Time frame: Day 1 during treatment (up to 60 minutes), and immediately post-treatment (within 1 hour).
Time taken for therapy duration
The time taken for therapy during each session will be recoded.
Time frame: Day 1 during treatment (up to 60 minutes), and immediately post-treatment (within 1 hour).
System Usability Questionnaire Assessment
The subject will answer a 10-question system usability questionnaire to assess the ease of use of the system after each ACT session.
Time frame: Day1 Post-treatment (within 1 hour).
Wet weight of sputum
The wet weight of sputum expectorated by the subject during and post ACT.
Time frame: Day 1 during treatment (up to 60 minutes), and immediately post-treatment (within 1 hour).
Spirometry
Spirometry parameters of FEV1, PEF, FVC, FEV6. The nurse or respiratory therapist will conduct the spirometry test.
Time frame: Day 1: Baseline (pre-treatment), and 20 minutes post-treatment
Airway impedance
Airway impedance parameters as measured by Forced Oscillation Technique: 1. Impedance parameters at multiple frequencies from 5-30 Hz: R5, R10, R15, R20, R25, R30 and X5, X10, X15, X20, X25, X30. 2. Difference of resistances: R5-R20 (small airway resistance) 3. fres = Frequency at which Reactance, X, is 0 (zero-crossing) 4. AX = Area under the Reactance -X curve 5. Rinsp, Rexp, Xinsp, Xexp - Inspiratory and Expiratory resistance and reactance, within breath analysis. The nurse or respiratory therapist will conduct the FOT test.
Time frame: Day 1: Baseline (pre-treatment), and 20 minutes post-treatment
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