CPAP will be applied to normal volunteers inorder to understand CPAP's effects on breathing and chest wall motion.
CPAP is a non-invasive ventilation technique that is commonly used to treat sleep apnea. Using a small air-pump, tubing and facemask, it provides a constant stream of pressurized air to the upper airways and lungs. Some of the physiological effects noted during CPAP are hyperinflation of the lungs, stabilizing and flattening of the diaphragm, and decrease in tidal volume. The effects on duration of breath hold are unknown. During radiation treatment, these effects are expected to reduce tumor and organ motion which reduces the volume of normal tissue being irradiated and also creates favorable treatment geometry by moving the heart away from the anterior chest wall. An important advantage of CPAP compared to other techniques is that active patient cooperation is not required. The potential exists to combine use of CPAP with other respiratory management techniques such as breath hold and improve overall effectiveness. When used in sleep apnea it is well tolerated and poses little risk to patients. There are no published reports of the use of CPAP in radiation therapy. In initial studies the Varian RPM system was used to assess respiratory motion with and without CPAP for patients receiving radiation therapy. This commercially available, non-invasive system works by directing an infrared beam onto an infrared motion detector that is placed on the patients' upper abdomen. The detector records the change in abdomen position that occurs with respiration as a change in amplitude of the detector position. Interventions that effect respiration will be recorded by an increase or decrease in the amplitude of the detector motion. When used in breath hold, the detector remains in a fixed position with a very narrow gating window. Based on initial experience with the RPM system, it has been found that approximately 1 hour of CPAP use is required to reduce diaphragm motion. Although early results are favorable using this approach, it is not certain that this is the best or most efficient method of use for all patients. The use of CPAP combined with breath hold techniques has not been studied. The objectives of this study are to use the RPM system in normal volunteers to: 1. Study the effects of CPAP on diaphragm motion to allow better optimization for the use of CPAP as a respiratory management technique during free breathing. 2. Determine the feasibility of use of CPAP as a respiratory aid for use in patients treated with breath hold techniques. Determine the effects of CPAP on duration; reproducibility and tolerance of the breath hold technique.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
HEALTH_SERVICES_RESEARCH
Masking
NONE
Enrollment
10
While subject is breathing normally, determine chest wall movement (via RPM waveform) with free breathing, over the course of half an hour.
While subject is breathing normally, subject will perform a moderate and a deep inspiratory breath hold. Duration, reproducibility and tolerance of deep inspiratory breath hold will be recorded.
While subject is breathing via CPAP machine, determine chest wall movement (via RPM waveform) with free breathing, over the course of half an hour.
Sheba Medical Center
Ramat Gan, Israel
RECRUITINGChest wall motion amplitude
Amplitude of chest wall motion, measured in centimeters.
Time frame: 2 hours
Duration of breath hold
Length (in seconds) that are subjects able to hold their breath.
Time frame: 2 hours
Reproducibility of breath hold depth
When 'breath hold' is performed three consecutive times, ascertain if it performed to the same depth each time. Measured in centimeters.
Time frame: 2 hours
Respiratory rate
Number of breaths per minute.
Time frame: 2 hours
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While subject is breathing via CPAP machine, subject will perform a moderate and a deep inspiratory breath hold. Duration, reproducibility and tolerance of deep inspiratory breath hold will be recorded.