Stereophotogrammetric 3D photography is an accurate and precise planimetric method for the clinical visualization and quantification of HPV-induced skin lesions.

Background The quantification of human papilloma virus (HPV)-induced skin lesions is essential for the clinical assessment of the course of disease and the response to treatment. However, clinical assessments that measure dimensions of lesions using a caliper do not provide complete insight into three-dimensional (3D) lesions, and its inter-rater variability is often poor. Objective The aim of this study was to validate a stereophotogrammetric 3D camera system for the quantification of HPV-induced lesions. Methods The camera system was validated for accuracy, precision and interoperator and inter-rater variability. Subsequently, 3D photographs were quantified and compared to caliper measurements for clinical validation by Bland-Altman modelling, based on data from 80 patients with cutaneous warts (CW), 24 with anogenital warts (AGW) patients and 12 with high-grade squamous intraepithelial lesions of the vulva (vulvar HSIL) with a total lesion count of 220 CW, 74 AGW and 31 vulvar HSIL. Results Technical validation showed excellent accuracy [coefficients of variation (CV) <= 0.68%] and reproducibility (CVs <= 2%), a good to excellent agreement between operators (CVs <= 8.7%) and a good to excellent agreement between different raters for all three lesion types (ICCs >= 0.86). When comparing 3D with caliper measurements, excellent biases were found for diameter of AGW (long diameter 5%), good biases were found for diameter of AGW (short diameter 10%) and height of CW (8%), and acceptable biases were found for the diameter of CW (11%) and vulvar HSIL (short diameter 14%, long diameter 16%). An unfavourable difference between these methods (bias 25%) was found for the assessment of height of AGWs. Conclusion Stereophotogrammetric 3D imaging is an accurate and reliable method for the clinical visualization and quantification of HPV-induced skin lesions.