While tremendous progress has been made against HIV, both in preventing the infection and in treating AIDS, the disease it causes, AIDS-related malignancies like Kaposi sarcoma (KS) remain a significant health burden, in both the U.S. and especially the developing world. In many cases, multiple KS lesions develop simultaneously, and may progress and regress independently. Photographs are an essential part of the evaluation for KS, as reflected in their formal usage described in the KS Tumor Assessment Manual of Procedures. However, acquiring a clear, informative photo is not trivial, since anatomy is 3D and conventional imaging is 2D. The importance of accurate, quantitative 3D information is especially pronounced for the treatment of KS because when a tumor responds positively to treatment, the initial change is usually a flattening of the lesion, without any significant change in the projected 2D area. To evaluate the vertical space, along with other characteristics of a KS lesion, we have created an innovative imaging system, SkinScan3D, utilizing new commercial liquid lens technologies and AI based image analysis software, with strategies borrowed from astronomical imaging techniques previously used on NASA space telescopes. In this study, the investigators will develop and demonstrate a protocol for recording measurable 3D parameters, which may be used in a longitudinal study to rigorously monitor therapeutic responses of KS and statistically compare with that of the conventional AMC criteria.
Kaposi Sarcoma
While tremendous progress has been made against HIV, both in preventing the infection and in treating AIDS, the disease it causes, AIDS-related malignancies like Kaposi sarcoma (KS) remain a significant health burden, in both the U.S. and especially the developing world. In many cases, multiple KS lesions develop simultaneously, and may progress and regress independently. Photographs are an essential part of the evaluation for KS, as reflected in their formal usage described in the KS Tumor Assessment Manual of Procedures. However, acquiring a clear, informative photo is not trivial, since anatomy is 3D and conventional imaging is 2D. The importance of accurate, quantitative 3D information is especially pronounced for the treatment of KS because when a tumor responds positively to treatment, the initial change is usually a flattening of the lesion, without any significant change in the projected 2D area. To evaluate the vertical space, along with other characteristics of a KS lesion, we have created an innovative imaging system, SkinScan3D, utilizing new commercial liquid lens technologies and AI based image analysis software, with strategies borrowed from astronomical imaging techniques previously used on NASA space telescopes. In this study, the investigators will develop and demonstrate a protocol for recording measurable 3D parameters, which may be used in a longitudinal study to rigorously monitor therapeutic responses of KS and statistically compare with that of the conventional AMC criteria.
Precision Imaging to Evaluate Kaposi Sarcoma (PRIME-KS): A Device Feasibility Trial
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Washington University School of Medicine, Saint Louis, Missouri, United States, 63110
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
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18 Years to
ALL
No
Washington University School of Medicine,
Lee Ratner, M.D., Ph.D., PRINCIPAL_INVESTIGATOR, Washington University School of Medicine
2026-05-31