Chest wall strapping in a porcine model: Dynamic dysanapsis dilates airways for optimized function of the “oversized” lung

JHLT Open Pub Date : 2025-06-10 DOI:10.1016/j.jhlto.2025.100317

Eric Abston , Michael Eberlein

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Abstract

Chest-Wall-Strapping (CWS), a technique forcing the lung to operate at low volumes, is a model for an oversized lung allograft. Dynamic-dysanapsis describes airway dilation mediated by increased elastic recoil from CWS. We hypothesized that Dynamic-dysanapsis can be quantified via the Dysanapsis-Ratio, defined as the airway-size to lung-volume ratio.

Farm-raised pigs (n=3) were mechanically ventilated. Stepwise CT-images throughout the lung deflation limb in control and CWS conditions were analyzed quantifying airway dimensions and lung volume.

CWS (30%-reduction in lung-volume) was associated with a significant increase in the Dysanapsis-Ratio (p<0.001). CWS increased airway distensibility at the 6th major branch of the right lower airway (27±7% vs. 39±5%, p=0.04).

The dysanapsis-ratio allows quantification of dynamic-dysanapsis with CWS. Dynamic-dysanapsis appears to be a compensatory mechanism to preserve pulmonary gas exchange by airway dilation when the lung is forced to operate at lower lung volumes. Dynamic-dysanapsis furthers the understanding of oversized allografts in lung transplantation.

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猪模型胸壁绑扎：动态功能障碍扩张气道，优化“超大”肺的功能

胸壁捆扎术（CWS）是一种迫使肺在小体积下运行的技术，是一种超大型同种异体肺移植的模型。动态功能障碍描述由CWS的弹性后坐力增加介导的气道扩张。我们假设动态功能障碍可以通过功能障碍比来量化，该比率定义为气道大小与肺容量的比值。农场养猪（n=3）采用机械通气。在对照组和CWS条件下，逐步分析整个肺收缩肢体的ct图像，量化气道尺寸和肺体积。CWS（肺容量减少30%）与Dysanapsis-Ratio显著增加相关（p<0.001）。CWS增加右下气道第6大支气道扩张率（27±7% vs. 39±5%,p=0.04）。功能失调比可以量化CWS的动态功能失调。动态功能失调似乎是一种代偿机制，当肺被迫在低肺容量下工作时，通过气道扩张来保持肺气体交换。动态功能障碍进一步加深了对肺移植中超大异体移植物的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JHLT Open

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