Investigating the Benefits of Using 3D Camera Technology to Improve Wound Measurements in a Tissue Viability Service: Outcomes of a Pilot Implementation Study

Abstract

Sub-optimal experience and outcomes for people with stalled wounds is common. Clinicians have limited methods for reliably and accurately measure wounds. Depth measurement is an important indicator of healing, and digital methods of imaging the wound may offer increased accuracy and enable clinical decision-making. This study aimed to implement a Panasonic FZ-M1 toughpad with WoundCareLite software version 1.5.0.0, to enable three-dimensional measurements in Tissue Viability (TV) service. Length, width, and depth measurement were compared with usual manual measurement using a paper ruler alongside a 2D photographic image. Statistical analysis included the comparison of wound dimension measures and a presentation of visual healing trajectories over 4 weeks using run-charts. 30 patients were recruited over five weeks (13 female and 17 male), representing 4% of the usual caseload. Manual measurement and 3D software automatic method demonstrated that the width and depth 3D auto measures were more accurate than manual measures but depth measures were often wrong thus making volumetric measures inaccurate. Consistent wound size measurement was feasible, and healing trajectories provide a useful means of continuous assessment. Technology guided measurement has potential benefits over manual measurement as a means of more accurately monitoring healing. In this case, depth measurement could not be accurately assessed in practice and further software innovation is indicated to enable outcome measurement in tissue viability services.