View clinical trials related to Skin Neoplasms.
Filter by:In this study an artificial intelligence (AI) tool for skin cancer diagnosis is implemented in a teleldermatoscopy platform. The aim is to study the effects on clinician diagnostic accuracy, management decisions, and confidence. Furthermore, this prospective randomized study investigates the role of human factors in determining clinician reliance on AI tools and the consequent accuracy in a real-world setting.
Skin cancer screening may help find melanoma sooner, when it may be easier to treat. If found early melanoma and other types of skin cancer may be curable. Multi-component education may be an effective method to help primary care physicians (PCPs) learn about skin cancer screening. This clinical trial examines whether a clinician-focused educational intervention can improve PCP's knowledge and clinical performance to identify and triage skin cancer. This intervention may increase the PCP's ability to diagnose, treat and/or triage early-stage melanoma.
The purpose of this retrospective-prospective study is to evaluate lesions after treatment for BCC or SCC NMSC in order to gain a better understanding of the durability of the treatment, and risk of late toxicities for this patient population.
Background: The worldwide incidence of skin cancer has been rising for 50 years, in particular the incidence of malignant melanoma has increased approx. 2-7% annually and is the most common cancer amongst Danes aged 15-34. Currently there is a significant amount of misdiagnosis of skin cancer and mole cancer, and most excised skin lesions are benign. Previous studies have shown that there is no significant increase in doctors diagnostic accuracy during the first 6 years of clinical work. The resources spend on healthy people could be put to better use, if the Benign-Malignant Ratio could be lowered. This could potentially be done by better educating the doctors during their everyday clinical practice. Aim: The aim of this study is to investigate the dose/response effect of an AI augmented training and clinical feedback on the diagnostic accuracy of skin cancer and clinical decisions among doctors from specialized skin cancer centers. Research question: How much specialized doctors need to train before their diagnostic accuracy and clinical decisions change?
The purpose of this study is to evaluate the use of locally injected tranexamic acid (TXA) under the skin during Mohs micrographic surgery for removal of skin cancers in patients on anticoagulation. TXA may be helpful in reducing bleeding and pain during surgery, and may also lead to fewer post-operative complications following surgery such as graft loss, specifically in patients on blood-thinners.
The purpose of this study is to evaluate patient satisfaction and quality of life as it relates to skin cancer surgery. This research study involves taking a one-time survey online.
The purpose of the study is to evaluate the ability and efficacy of using a polarization-enhanced reflectance and fluorescence imaging device, PERFIS, (see the Device Brochure) for demarcation of nonmelanoma skin cancer margins prior to surgery. PERFIS is a harmless and non-invasive device that has been used to image biological tissue both in vitro and in vivo. In this study it will be used to image nonmelanoma skin cancer lesions prior to surgery. The use of PERFIS will not affect patient care or treatment decisions in any way. No extra tissue will be used for imaging.
The purpose of this study is to determine whether a skin cancer prevention website is effective at reduce female teenagers' desire to use indoor tanning and ultimately their use of indoor tanning over an 18 month period.