Effect of Head and Neck Positioning on Lung Sliding in Healthy Volunteers

This is a prospective, low-risk, non-drug interventional clinical study designed to evaluate the effect of head-of-bed elevation on lung sliding movement in healthy adult volunteers. Lung sliding is a dynamic ultrasound finding that reflects the movement between the visceral and parietal pleura during respiration and provides information about lung aeration and respiratory mechanics.

The primary objective of the study is to quantitatively assess changes in lung sliding amplitude across three standardized head-of-bed positions: zero degrees (supine), twenty degrees, and forty degrees. Measurements will be obtained using bedside lung ultrasonography at four predefined anatomical locations: right apical, right basal, left apical, and left basal lung regions.

Secondary objectives include evaluating potential differences in lung sliding between the right and left lungs, comparing apical and basal lung regions, and assessing whether positional changes have region-specific effects on lung movement.

The study population will consist of thirty-one healthy adult volunteers aged eighteen to sixty years. Individuals with known respiratory disease, significant cardiopulmonary conditions, pregnancy, prior thoracic surgery, or inability to tolerate position changes will be excluded. All participants will provide written informed consent prior to enrollment.

Each participant will undergo lung ultrasound measurements in all three positions in a repeated-measures design. Lung sliding will be recorded using high-frequency linear ultrasound probes. Quantitative assessment will be performed using M-mode imaging, measuring pleural line displacement in millimeters. Mean values will be calculated for each position and anatomical region.

No investigational drugs, medical devices, or invasive procedures will be used. The only intervention is controlled head-of-bed positioning. The study is considered minimal risk. Potential discomfort related to short-term position changes, such as mild dizziness or transient shortness of breath, will be monitored, and measurements will be discontinued if symptoms occur.

Data will be analyzed using repeated measures statistical methods to compare lung sliding values across positions and regions. The findings are expected to improve understanding of the positional sensitivity of lung ultrasound measurements and may contribute to evidence-based recommendations for patient positioning in emergency and critical care settings.