一种用于结合皮肤及皮下组织状况的解剖学和生理学评估的多模态成像与软件系统。

A Multimodality Imaging and Software System for Combining an Anatomical and Physiological Assessment of Skin and Underlying Tissue Conditions.

作者信息

Langemo Diane, Spahn James G

机构信息

Diane Langemo, PhD, RN, FAAN, is President, Langemo & Associates, and Adjunct Professor, University of North Dakota, Grand Forks, North Dakota. James G. Spahn, MD, FACS, is Founder, Chairman of the Board, and Chief Executive Officer, WoundVision LLC; and Founder, Chairman of the Board, EHOB Inc, Indianapolis, Indiana. Dr Langemo has disclosed that she is a consultatnt to WoundVision; received payment for manuscript writing from WoundVision; received payment for expert testimony from multiple US law firms; and has received grant money from DermaSciences. Dr Spahn has disclosed that he is the managing partner and owner of WoundVision, LLC, and Chief Executive Officer and board member and employee of EHOB, Inc; his brother, Tom Spahn, MD, is an employee of WoundVision, LLC; and his son, J. D. Spahn, is a partner and owner of WoundVision, LLC. Submitted May 27, 2015; accepted in revised form November 12, 2015.

出版信息

Adv Skin Wound Care. 2016 Apr;29(4):155-63. doi: 10.1097/01.ASW.0000481366.00695.88.

DOI:10.1097/01.ASW.0000481366.00695.88

PMID:26978799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4795093/

Abstract

OBJECTIVE

The timely and accurate assessment of skin and underlying tissue is crucial for making informed decisions relating to wound development and existing wounds. The study objective was to determine within- and between-reader agreement of Scout Visual-to-Thermal Overlay (WoundVision LLC, Indianapolis, Indiana) placement (moving the wound edge trace from the visual image onto the wound edge signature of the infrared image).

MATERIALS AND METHODS

For establishing within- and between-reader agreement of the Scout Visual-to-Thermal Overlay feature, 5 different readers overlaid a wound edge trace from the visual image and placed it onto the congruent thermal representation of the wound on a thermal image 3 independent times. Forty different wound image pairs were evaluated by each reader. All readers were trained by the same trainer on the operation of the Scout prior to using the software features. The Scout Visual-to-Thermal Overlay feature allows clinicians to use an anatomical measurement of the wound on the visual image (area and perimeter) to extract a congruent physiological measurement of the wound on the thermal image (thermal intensity variation data) by taking the wound edge trace from the visual image and overlaying it onto the corresponding thermal signature of the same wound edge.

RESULTS

The results are very similar both within- and between-readers. The coefficient of variation (CV) for the mean PV both within- and between-readers averages less than 1%, 0.89 and 0.77 respectively. When converted into degrees Celsius across all 5 readers and all 3 wound replicates, the average temperature differential is 0.28° C (). The largest difference observed was 0.63° C and the smallest difference observed was 0.04° C.

CONCLUSIONS

The Scout software's Visual-to-Thermal Overlay procedure, as implemented in this study, is very precise. This study demonstrates that the thermal signature of wounds may be delineated repeatedly by the same operator and reproducibly by different operators. Thus, clinicians can integrate a criterion standard visual (anatomical) assessment with a congruent physiological assessment to provide them with knowledge relating to the presence or absence of blood flow, perfusion, and metabolic activity in the wound, periwound, and wound site.

摘要

目的

及时、准确地评估皮肤及皮下组织对于就伤口发展和现有伤口做出明智决策至关重要。本研究的目的是确定读者内部和读者之间在使用Scout视觉到热覆盖技术（WoundVision LLC，印第安纳波利斯，印第安纳州）进行定位（将伤口边缘痕迹从视觉图像转移到红外图像的伤口边缘特征上）方面的一致性。

材料和方法

为了确定读者内部和读者之间在Scout视觉到热覆盖功能方面的一致性，5位不同的读者将视觉图像中的伤口边缘痕迹进行覆盖，并将其独立地放置在热图像上伤口的相应热图像上3次。每位读者评估40对不同的伤口图像。在使用软件功能之前，所有读者均由同一位培训师进行Scout操作培训。Scout视觉到热覆盖功能使临床医生能够通过从视觉图像中提取伤口边缘痕迹并将其覆盖在同一伤口边缘的相应热特征上，利用视觉图像上伤口的解剖学测量值（面积和周长）来提取热图像上伤口的相应生理学测量值（热强度变化数据）。