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Study had a high screen fail rate, enrollment was open over a year, only 3 completed.
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| Name | Class |
|---|---|
| University of Pittsburgh Medical Center | OTHER |
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Chronic Obstructive Pulmonary Disease (COPD) is a major cause of chronic morbidity and mortality throughout the world, being the fourth leading cause of death in the world.
This study is designed to detect COPD participants with Expiratory Flow Limitation. EFL occurs when the airways become compressed which usually results when a pressure outside the airway exceeds the pressure inside the airway.
Participants will undergo study eligibility procedures at visit 1. At visit 2 participants will undergo a baseline auto-EPAP (Expiratory Positive Airway Pressure) measurement. Then the order will be randomized to three different treatment methods. Between each treatment there will be at least a 10 minute washout period in order for CO2 to stabilize and return to baseline.
Chronic Obstructive Pulmonary Disease (COPD) is a major cause of chronic morbidity and mortality throughout the world, being the fourth leading cause of death in the world.
COPD is a disease that results in varying degrees of dyspnea, or shortness of breath. Spirometry is a method of diagnosing COPD with the presence of a post bronchodilator FEV1 <80% of the predicted value in combination with an FEV1 / FVC <70%. This would confirm that there is a presence of airflow limitation that is not fully reversible.
The presence of airflow limitation has been identified as one of the main causes of dyspnea in patients with chronic obstructive pulmonary disease (1). Expiratory Flow Limitation (EFL) occurs when the airways become compressed which usually results when a pressure outside the airway exceeds the pressure inside the airway. As an airflow obstruction worsens, EFL appears at much lower flows for a given lung volume and it becomes present at rest or at least develops early during exercise (2).
Early detection of EFL consisted of either invasive balloon catheterization or relatively complex plethysmographic techniques. An alternative approach, and one that will be used in this study, involves utilizing the Forced Oscillation Technique (FOT).
Alternatively High Frequency Oscillations (HFO) has shown to effectively lower CO2 levels, but traditionally require intubation or a trans tracheal catheter. Treatment with a specialized noninvasive ventilator is possible and it is proposed that therapy can be augmented by the application of an optimized EPAP to splint open the lower airways in order to increase the diffusive capabilities of the high frequency oscillations into lower alveolar regions. There are approximately 25 million hypercapnic patients with EFL that could benefit from this therapy. High frequency oscillations integrated into a specialized noninvasive ventilator has the advantages of lower cost than other solutions and significantly lower medical risks. In addition, high frequency oscillation uses lower pressures to achieve effective therapy which means less chance of barotrauma and greater patient acceptance.
This study will enroll subjects at a screening visit. Screening will include a physical exam and vital signs, pregnancy test (if applicable), questionnaires, pulse oximetry, measure of carbon dioxide levels, determination of EFL by an auto- Expiratory Positive Airway Pressure (EPAP) ventilator, and spirometry.
If the patient is eligible and tolerates the above procedures, they will be asked to complete an in home-based sleep study prior to visit 2. Alice Night One/ Alice PDX are portable home sleep testing devices that record information about breathing.
At visit 2 participants will be monitored continuously via a 3 lead EKG, oxygen saturation by pulse oximetry (SPO2), Carbon Dioxide concentration(TcCO2) monitor, RespiTrace belt and ventilator data.
During Visit 2, participants will first undergo a repeat optimal EPAP determination and then trial 3 different sessions of High Frequency Oscillation (HFO) therapy for 20 minutes with at least a 10 minute wash out period between each session to allow the participant's CO2 to stabilize or return to baseline. The order of the sessions will be randomized for each patient. Participants will be placed in a semi-recumbent position and wear a nasal CPAP mask for each session. A TcCO2 monitor patch will be placed on the skin (forehead area) to collect carbon dioxide measurements during each session. A RespiTrace belt will placed on the participants' chest wall to measure chest wall and diaphragmatic excursion during each session. A 3 lead EKG will also be used to monitor cardiac activity during each session.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| optimal EPAP determination | Active Comparator | On the BiPAP Synchrony ventilator the EPAP (and IPAP) will be automatically adjusted by the ventilator to find optimal EPAP that abolishes EFL. Peak-to-Peak pressure oscillations will be set at 2.5 cmH2O (centimeters of water) |
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| Optimized EPAP w/ no peak-to-peak | Experimental | On the BiPAP Synchrony ventilator the EPAP (and IPAP) will be set at optimal pressure as determined by the Auto EPAP. Peak-to-Peak pressure oscillations will be set at 0 cmH2O (centimeters of water) |
|
| Optimized EPAP w/ max peak-to-peak | Experimental | On the BiPAP Synchrony ventilator EPAP (and IPAP) will be set at optimal pressure as determined by the Auto EPAP. Peak-to-Peak pressure oscillations will be set at 5 cmH2O (centimeters of water) |
|
| non-optimized EPAP w/ no peak-to-peak | Experimental | On the BiPAP Synchrony ventilator EPAP will be set at 4 cmH2O and IPAP will be set at 10 cmH2O (centimeters of water). Peak-to-Peak pressure oscillations will be set at 0 cmH2O (centimeters of water). |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| BiPAP Synchrony ventilator | Device | The BiPAP Synchrony ventilator will be used to determine Expiratory Positive Airway Pressure (EPAP). The ventilator will be used with varying pressure supports and oscillations depending on what arm of the study the participant is in. |
| Measure | Description | Time Frame |
|---|---|---|
| Carbon Dioxide Levels | Transcutaneous carbon dioxide (TcCO2) monitoring is a non-invasive alternative to arterial blood sampling. Carbon Dioxide Levels will be measured for each participant as they complete each arm. | Baseline and 20 minutes |
| Measure | Description | Time Frame |
|---|---|---|
| Respiratory Rate | Minute ventilation in regards to respiratory rate and volume of gas exchanged will be measured for each participant as they complete each arm. | 20 minutes |
| Tidal Volume | Minute ventilation in regards to volume of gas exchanged will be measured for each participant as they complete each arm. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Frank Sciurba, MD | University of Pittsburgh Medical Center | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| University of Pittsburgh Medical Center | Pittsburgh | Pennsylvania | 15213 | United States |
There are no plans to share individual participant data (IPD), only aggregate data.
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Participants were in enrolled from a single site in Pittsburgh PA. The study opened Mid 2015 with first enrollment November 2015 and continued into August 2016.
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| ID | Title | Description |
|---|---|---|
| FG000 | Screening Period | All study participants that were consented to the study. |
| FG001 | Optimal, Optimized P2P, Non-Optimized NP2P, Optimized NP2P | Optimal - optimal EPAP determination first, Optimized P2P - Optimized EPAP w/ max peak-to-peak second, Non-Optimized NP2P - non-optimized EPAP w/ no peak-to-peak third, and Optimized NP2P - Optimized EPAP w/ no peak-to-peak last |
| FG002 | Optimal, Optimized NP2P, Non-Optimized NP2P, Optimized NP2P | Optimal - optimal EPAP determination first, Optimized P2P - Optimized EPAP w/ max peak-to-peak second, Non-Optimized NP2P - Non-Optimized EPAP w/ no peak-to-peak third, and Optimized NP2P - optimized EPAP w/ no peak-to-peak last |
| Title | Milestones | Reasons Not Completed | ||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Screening Period |
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| ||||||||||||||||||
| High Frequency Oscillation (HFO) Therapy |
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| ID | Title | Description |
|---|---|---|
| BG000 | All Participants | All participants that signed consent. |
| Units | Counts |
|---|---|
| Participants |
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| Title | Description | Population Description | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Denominator Units Selected | Denominators | Classes |
|---|---|---|---|---|---|---|---|---|---|
| Age, Continuous | Mean |
| Type | Title | Description | Population Description | Reporting Status | Anticipated Posting Date | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Time Frame | Units Analyzed | Denominator Units Selected | Arm/Group Information | Denominators | Classes | Analyses | ||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Primary | Carbon Dioxide Levels | Transcutaneous carbon dioxide (TcCO2) monitoring is a non-invasive alternative to arterial blood sampling. Carbon Dioxide Levels will be measured for each participant as they complete each arm. | Posted | Mean | Standard Deviation | mmHg | Baseline and 20 minutes |
|
10 days
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| ID | Title | Description | Deaths (Affected) | Deaths (At Risk) | Serious Events (Affected) | Serious Events (At Risk) | Other Events (Affected) | Other Events (At Risk) |
|---|---|---|---|---|---|---|---|---|
| EG000 | Screening Period | All study participants that were consented to the study. | 0 |
| Term | Organ System | Source Vocabulary | Assessment Type | Notes | Statistical Information |
|---|---|---|---|---|---|
| Atrial Fibrillation | Cardiac disorders | Non-systematic Assessment |
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Study terminated due to low enrollment.
Washout period between sessions of 20-30 minutes was not sufficient for CO2 to return to baseline.
| Title | Organization | Phone | Extension | |
|---|---|---|---|---|
| Senior Clinical Development Scientist | Philips | (724) 733-5835 | chuck.cain@philips.com |
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| ID | Term |
|---|---|
| D029424 | Pulmonary Disease, Chronic Obstructive |
| ID | Term |
|---|---|
| D008173 | Lung Diseases, Obstructive |
| D008171 | Lung Diseases |
| D012140 | Respiratory Tract Diseases |
| D002908 | Chronic Disease |
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| 20 minutes |
| Minute Ventilation for Carbon Dioxide | Minute Ventilation in regards to the diffusion state of the lungs and carbon dioxide will be measured for each participant as they complete each arm. | 20 minutes |
| NOT COMPLETED |
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| years |
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| Sex: Female, Male | Count of Participants | Participants |
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| Ethnicity (NIH/OMB) | Count of Participants | Participants |
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| Race (NIH/OMB) | Count of Participants | Participants |
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| Region of Enrollment | Number | participants |
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| Optimized EPAP w/ no Peak-to-peak |
On the BiPAP Synchrony ventilator the EPAP (and IPAP) will be set at optimal pressure as determined by the Auto EPAP. Peak-to-Peak pressure oscillations will be set at 0 cmH2O (centimeters of water) BiPAP Synchrony ventilator: The BiPAP Synchrony ventilator will be used to determine Expiratory Positive Airway Pressure (EPAP). The ventilator will be used with varying pressure supports and oscillations depending on what arm of the study the participant is in. |
| OG002 | Optimized EPAP w/ Max Peak-to-peak | On the BiPAP Synchrony ventilator EPAP (and IPAP) will be set at optimal pressure as determined by the Auto EPAP. Peak-to-Peak pressure oscillations will be set at 5 cmH2O (centimeters of water) BiPAP Synchrony ventilator: The BiPAP Synchrony ventilator will be used to determine Expiratory Positive Airway Pressure (EPAP). The ventilator will be used with varying pressure supports and oscillations depending on what arm of the study the participant is in. |
| OG003 | Non-optimized EPAP w/ no Peak-to-peak | On the BiPAP Synchrony ventilator EPAP will be set at 4cmH2O and IPAP will be set at 10cmH2O (centimeters of water). Peak-to-Peak pressure oscillations will be set at 0 cmH2O (centimeters of water). BiPAP Synchrony ventilator: The BiPAP Synchrony ventilator will be used to determine Expiratory Positive Airway Pressure (EPAP). The ventilator will be used with varying pressure supports and oscillations depending on what arm of the study the participant is in. |
|
|
| Secondary | Respiratory Rate | Minute ventilation in regards to respiratory rate and volume of gas exchanged will be measured for each participant as they complete each arm. | Respiratory rate was not able to be obtained for one participant. | Posted | Mean | Standard Deviation | breaths per minute | 20 minutes |
|
|
|
| Secondary | Tidal Volume | Minute ventilation in regards to volume of gas exchanged will be measured for each participant as they complete each arm. | Tidal volume was not able to be obtained for one participant. | Posted | Mean | Standard Deviation | mL | 20 minutes |
|
|
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| Secondary | Minute Ventilation for Carbon Dioxide | Minute Ventilation in regards to the diffusion state of the lungs and carbon dioxide will be measured for each participant as they complete each arm. | Respiratory rate and Tidal volume were not able to be obtained for one participant. Therefore minute ventilation was not able to be calculated. | Posted | Mean | Standard Deviation | mL/min | 20 minutes |
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| 10 |
| 1 |
| 10 |
| 0 |
| 10 |
| EG001 | Optimal, Optimized P2P, Non-Optimized NP2P, Optimized NP2P | Optimal - optimal EPAP determination first, Optimized P2P - Optimized EPAP w/ max peak-to-peak second, Non-Optimized NP2P - non-optimized EPAP w/ no peak-to-peak third, and Optimized NP2P - Optimized EPAP w/ no peak-to-peak last | 0 | 2 | 0 | 2 | 0 | 2 |
| EG002 | Optimal, Optimized NP2P, Non-Optimized NP2P, Optimized P2P | Optimal - optimal EPAP determination first, Optimized P2P - Optimized EPAP w/ max peak-to-peak second, Non-Optimized NP2P - Non-Optimized EPAP w/ no peak-to-pea third, and Optimized P2P - optimized EPAP w/ peak-to-peak last | 0 | 1 | 0 | 1 | 0 | 1 |
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| D020969 |
| Disease Attributes |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |