Our primary hypothesis is that airway clearance therapy with sine waveform HFCWO using higher inflation pressures combined with both low and high oscillator frequencies will result in greater sputum production compared to sine waveform HFCWO with lower inflation pressures and mid-frequency oscillations.
Patients with cystic fibrosis (CF) perform daily airway clearance therapy to facilitate removal of secretions from their airways. Many different techniques are available to achieve this and there is currently no consensus as to which form of therapy is most effective. High frequency chest wall oscillation (HFCWO) is used by CF patients throughout the United States and abroad. To perform this therapy, the patient wears a vest which fits over the entire torso and is connected to an air compressor. The compressor generates oscillating air pulses that are transmitted to the lungs, thereby mobilizing secretions. The most commonly used device is The Vest™ Airway Clearance System, (Hill-Rom Inc, St Paul, MN). Adjustment of the inflation pressure and frequency of oscillations affects the volume of displaced air and flow of air measured at the mouth of the patient. Previous studies indicate this form of therapy is as effective as more traditional and cumbersome forms of therapy. However, it is unclear which inflation pressures and oscillator frequencies provide optimal airway clearance. Some studies of sine waveform HFCWO reported the largest volume of air displacement and highest air flow measured at the mouth when using a combination of high inflation pressures with either low (7 - 10 Hz) or high frequencies (18 - 20 Hz), but most CF centers in the United States use HFCWO with lower pressures combined with mid-range frequencies (10 - 14 Hz). Furthermore, there are no previous studies assessing the affect of sine waveform HFCWO settings on sputum production. As a result, there is no consensus on which pressure and frequency settings are most efficacious for CF patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
17
Randomized crossover trial of airway clearance therapy comparing sine wave HFCWO with high pressures and variable frequency (pressure 10, frequencies 8,9,10 and pressure 6, frequencies 18,19,20) to low pressure and mid frequency (pressure 5, frequency 12). Subjects will have 2-day washout between airway clearance sessions. All sputum collected during sessions.
Subjects will perform pulmonary function tests prior to and following each airway clearance therapy. All sputum produced during, and for 15 minutes following airway clearance therapy will be collected. Subjects will complete a questionnaire addressing the comfort of therapy upon completion of the session.
University of Minnesota Medical Center
Minneapolis, Minnesota, United States
Sputum Wet and Dry Weight
All sputum expectorated during all HFCWC sessions was collected in a pre-weighed specimen container and immediately sealed. Half the subjects used higher pressure/mixed frequency on day 1 followed by lower pressure/mid-frequency on day 4. Half the patients performed lower pressure/mid-frequency on day 1 followed by higher pressure/mixed frequency on day 4. All specimens were immediately centrifuged at 21,150 g for 15 min at 4°C, and the supernatant was completely removed to eliminate saliva. The sputum "wet weight" was calculated after re-weighing the container with the sputum pellet. The container was then left open in an oven with the temperature set at 65°C for a minimum of 3 days to allow for complete desiccation. The sputum "dry weight" was calculated after re-weighing the container.
Time frame: Produced during each airway clearance therapy session on days 1 and 4
Pre vs. Post Therapy Spirometry
Spirometry was performed prior to, and immediately following, all HCWC sessions on Day 1. Spirometry was performed immediately prior to, and immediately following, all HFCWC sessions on Day 4. Spirometry was performed according to American Thoracic Society/European Respiratory Society standards.
Time frame: Prior to and following each airway clearance therapy session on days 1 and 4
Rheology and in Vitro Cough Transportability of Sputum Produced Immediately Following Airway Clearance Therapy Session
Sputum was collected during the 15 minutes immediately following HFCWC sessions on day 1 and day 4. Half the subjects performed higher-pressure/mixed frequency HFCWC on Day 1 followed by lower pressure/mid-frequency HFCWC on Day 4. The other half of subjects performed lower pressure/mid-frequency on Day 1 followed by higer pressure/mixed-frequency on Day 4. Samples were studied with a rheometer (AR1000, TA Instruments, New Castle, Delaware) to assess the dynamic frequency range of stress-strain of a 20 microliter sputum sample over driving frequencies of 1-100 rad/s. Shear storage modulus (G') and shear loss modulus (G") were determined from these curves after nondestructive creep transformation. G' (or dynamic elasticity) measures stored energy and is a property of ideal solids. G" is directly proportional to viscosity (viscosity x frequency) and is a property of ideal liquids.
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Time frame: Sputum produced during the 15 minutes immediately following airway clearance therapy sessions on day 1 and day 4
Patients' Perceived Comfort Using the Different Settings for the Vest Device
Following each HFCWC session on day 1 and day 4, subjects completed a questionnaire that rated the comfort and efficacy of each HFCWC session using a 5-point scale. The questionnaire was entitled "Post-Therapy Questionnaire". Scale range for comfort ranged from 1 (very uncomfortable) to 3 (neutral) to 5 (very comfortable). Scale range for how "effective" the HFCWC session was ranged from 1 (minimally effective) to 3 (neutral) to 5 (very effective).
Time frame: Immediately following each airway clearance therapy on day 1 and day 4