View clinical trials related to Basal Cell Carcinoma.
Filter by:Part I is designed as a study of P-MNA application in healthy human volunteers. The goal of Part I is to determine several factors possibly affecting the rate and extent of microneedle array dissolution, such as anatomic location; age; duration of array exposure to the skin; and the criticality of proper array application to the skin. Part II will be a randomized study in which doxorubicin-containing arrays will be applied to subjects demonstrated by biopsy to have basal cell cancer. A subject will be randomized to one of four dose groups: placebo microneedle array and 50 µg, 100 µg, and 200 µg doses of doxorubicin in a tip-loaded, dissolvable microneedle arrays (D-MNA).
One hundred patients will receive IFx-Hu2.0 on an outpatient basis at a single time point in a single lesion. These patients will be assessed for any immediate adverse reactions and at Week 4 (Day 28+/-5 days) for any delayed adverse events..
The goal of this study is to learn if giving cemiplimab and vidutolimod together could be effective in treating advanced cancer. The main questions it aims to answer are: - How many participants' cancers respond to vidutolimod together with cemiplimab? - Is vidutolimod together with cemiplimab safe and well-tolerated? - How well does vidutolimod together with cemiplimab treat participants' cancer? Participants will receive trial treatment for up to 2 years. 30 days after stopping treatment, participants will have a follow-up visit. After that visit, the trial staff will continue to follow up with participants about every 3 months, until the trial ends.
Rationale: Keratinocyte skin cancer is known to influence the HRQoL in a specific way. Derived utility values are required for cost-effectiveness analyses of new interventions. However there is no sensitive tool to capture HRQoL that translates into utilities available. Objective: To document the exact HRQoL in patients with in KC using the generic EQ-5D-5L questionnaire, as well as the TTO, 15D and the BaSQoL questionnaire, and to develop health utilities based on these tools. Study design: Longitudinal observational study (at time 0 and time 0 +12 months). Study population: Patients aged ≥18 years consulting a dermatologist or their GP for diagnosis, treatment or follow-up of a (pre)malignant skin lesion(s).
.During one year all the resected basal cell carcinomas (BCC) analyzed in Montpellier University Hospital Anatomopathology unit were included in this study. Localisation and histological characteristics were collected. All the recurrences of BCC were searched from the medical records (or histopathology request form). From 804 BCC, 48 were recurrent BCC with or without complete first resection. Patients with recurrent BCC were contacted to obtain agreement and more informations about the first resection and some clinical informations like sun exposure and phototype. The statistical analysis focused on the localisation of recurrent BCC (with a complete first resection) compared to localisations of primary BCC in this population. The goal was to identified localisations with an increased risk of recurrences.
Non-melanocytic skin cancers are the most common type of cancer worldwide. In the development of this cancer type, environmental factors such as UV and smoking are emphasized. Epigenetics are genetic conditions that develop due to environmental factors and can be inherited. Epigenetic modifications such as DNA methylation play an integral role in carcinogenesis, cancer progression and metastasis. The TGF-/ SMAD4 pathway plays a tumor suppressive role in cancer pathogenesis. Epigenetic changes in this pathway also lead to a decrease in expression level, leading to different types of cancer. However, there is no study showing the epigenetic relationship between non-melanocytic skin cancer and SMAD4 methylation. In this study we planned, it was aimed to show the change in SMAD4 methylation and SMAD4 RNA expression level in cancerous tissue. In addition, it is planned to measure the SMAD4 protein positivity rate in non-melanocytic cancers as an immunohistochemical marker. In this context, 60 patients who applied to Trakya University Dermatology and Venereal Diseases Outpatient Clinic and diagnosed with non-melanocytic skin cancer clinically and dermoscopically will be included in the study. Tissue materials obtained from both cancerous and intact skin of the patients will be examined in Trakya University Medical Biophysics and Medicine Pathology laboratories through various steps. Our project is the first study to be conducted on this subject in terms of handling all non-melanocytic skin cancers, using human tissue and having a large sample. In addition, with the data to be obtained; We think that better clarification of the role of SMAD4 in non-melanocytic cancers and the use of SMAD4 as both a prognostic factor and an immunohistochemical marker in future studies will prevent this study. Again, we anticipate that different treatment modalities will be developed and different functional studies can be designed through this pathway.
Optical coherence tomography guided laser treatment of basal cell carcinoma
The purpose of this study is to establish a standardized process for obtaining digital pathological image information of ocular tumors; use modern pathological techniques to obtain the co-expression information of multiple biomarkers in the pathological tissues of ocular tumors, and finally construct standardized digital ocular tumors with biomarkers Pathology image database.
The purpose of this clinical study is to evaluate if the DermaSense prototype EIS scanner can provide medical decision support which can complement dermoscopy-based identification of the disease at time of biopsy decision.
The purpose of this study is to evaluate the tumour response, safety and induction of immune response in patients with advanced BCC treated with a combination of anti-PD1 antibody and pulsed hedgehog inhibitor.