Ex-PALM: a negative pressure ventilation system for air leak evaluation in ex vivo lungs
Mark Vartazarmian, Alexandre Abid, Rodin Chermat, Maxime Têtu, Luciano Bulgarelli Maqueda, Arman Sarshoghi, Saman Naghieh, Delphine Périé, Moishe Liberman

TL;DR
Ex-PALM is a new system for testing air leaks in lungs outside the body, offering precise control and measurement for better understanding and treatment of post-surgery complications.
Contribution
Ex-PALM introduces a novel ex vivo system for evaluating air leaks with dynamic ventilation control and biomechanical parameter extraction.
Findings
Ex-PALM enables accurate ventilation control with standard deviations of ±0.08 cm H2O and ±2.1 mL for moderate air leaks.
Leak quantification in Ex-PALM is comparable to the Thopaz+ system, with no significant differences in lower leak ranges.
The system replicates coughing with peak pressure targets and matches theoretical pressure predictions with high accuracy (R2 > 0.95).
Abstract
Prolonged air leaks (PAL) are considered to be one of the leading causes of postoperative complications following lung surgery. There are currently no clinically relevant methods for efficiently and systematically evaluating the underlying causes of PAL. Here, we introduce a new intuitive, physiologically-representative system for ex vivo negative pressure ventilation of lungs, equipped with PAL-oriented features. Reproducibility and system capabilities were assessed using a lung simulation model capable of controlling the effective area of the defect, then validated with ex vivo specimens. Our system enables dynamic control of ventilation using either pressure (PCV) or volume (VCV) targets, with respective standard deviations of ±0.08 cm H2O and ±2.1 mL with moderate air leaks (<1,000 mL/min) and respective standard deviations of ±0.18 cm H2O and ±11 mL with severe air leaks (>1,000…
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Taxonomy
TopicsPleural and Pulmonary Diseases · Lung Cancer Diagnosis and Treatment · Respiratory Support and Mechanisms
