Utility of 3D Wound Assessment in Monitoring Granulation Tissue Velocity Following Negative-Pressure Wound Therapy in Diabetic Foot Ulcers.

IF 2.2 Foot & ankle international Pub Date : 2025-03-01 Epub Date: 2025-02-14 DOI:10.1177/10711007251314805

Jiyong Ahn, Alexandra Flaherty

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Abstract

Background: Wound healing in diabetic foot ulcers (DFUs) is challenging and often requires extensive debridement and in some cases leads to amputation. Negative-pressure wound therapy (NPWT) can be utilized for DFUs. The optimal time frame for successful NPWT lacks consensus. Advanced wound scanning with a three-dimensional (3D) camera can enhance accuracy of DFU area and volume calculations. This study aimed to investigate the utility of 3D wound assessment in monitoring granulation tissue filling velocity with NPWT in DFUs.

Methods: A retrospective case series study was performed for 101 DFUs (Wagner classification 3 or 4 lesions with significant necrotic tissue debridement failing to achieve primary closure, leading to open amputation) undergoing NPWT from September 2018 to June 2019. Demographic data and wound characteristics were recorded. Before application of NPWT, wounds were irrigated after extensive procedures, and digital photographs of the wound were captured using an infrared 3D camera. Wound area and volume were measured weekly from before the application of NPWT to 1 month after. Risk factors associated with wound healing in DFUs were also evaluated.

Results: NPWT resulted in significant area improvements for open DFUs. Postoperative 1-week area change velocity was 1.35 cm²/d, peaking at 2 weeks (1.84 cm²/d). Volume also showed significant improvement over time (P = .001), with a 1-week peak velocity of 1.20 cm³/d. All peak area and volume changes occurred within 2 weeks after NPWT application. Compared to the midfoot and hindfoot, the forefoot exhibited a lower velocity of volume (P = .001).

Conclusion: 3D wound assessment for the velocity of granulation tissue filled in an open DFU after NPWT can be useful for monitoring healing progression. Most wound healing following NPWT in DFUs was completed within the first 2 weeks.

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3D伤口评估在糖尿病足溃疡负压伤口治疗后肉芽组织速度监测中的应用。

背景：糖尿病足溃疡（DFUs）的伤口愈合具有挑战性，通常需要广泛的清创，在某些情况下导致截肢。负压创面治疗（NPWT）可用于DFUs。成功实现NPWT的最佳时间框架缺乏共识。利用三维相机对伤口进行高级扫描，可以提高DFU面积和体积计算的精度。本研究旨在探讨三维伤口评估在监测dfu中NPWT肉芽组织填充速度中的应用。方法：回顾性分析2018年9月至2019年6月101例DFUs （Wagner分类3或4级病变，明显坏死组织清创未能实现初步闭合，导致开放性截肢）接受NPWT的病例系列研究。记录人口学资料和伤口特征。在应用NPWT之前，经过广泛的程序后冲洗伤口，并使用红外3D相机拍摄伤口的数字照片。从应用NPWT前至应用后1个月，每周测量伤口面积和体积。我们还评估了与DFUs伤口愈合相关的危险因素。结果：NPWT显著改善了开放性dfu的面积。术后1周面积变化速度为1.35 cm2/d， 2周达到峰值（1.84 cm2/d）。随着时间的推移，体积也显示出显著的改善（P = .001）， 1周的峰值流速为1.20 cm3/d。所有峰值面积和体积变化都发生在NPWT应用后的2周内。与中足和后足相比，前足表现出较低的体积速度（P = .001）。结论：对NPWT后开放DFU内肉芽组织填充速度的三维伤口评估有助于监测愈合进展。大多数DFUs NPWT后的伤口愈合在前2周内完成。

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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Foot & ankle international

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