Active clinical trials for "Melanoma"

The objective of this study is to collect disease status and overall survival information for all Subjects in MDX-010 studies.

Sentinel node biopsy is a surgical procedure used to find melanoma lymph node metastasis (i.e. groin/axilla) in very early stages. This study aims to add a new technology over the standard procedure - a fluorescent contrast (indocyanine green) using special light (near infra-red) - looking for more precise diagnosis of the presence of the lymph node metastasis.

Despite recent advances in cancer treatment, little impact has been made on curing as opposed to controlling cancers over the last several decades. Part of the problem is that investigators have an incomplete understanding of how tumours behave as they evolve and in response to treatment. In this trial, the investigators hope to better understand the evolution of BRAF melanoma in response to drugs a patient may have received such as vemurafenib or dabrafenib. Importantly, the investigators want to understand how the tumours evolve resistance to these drugs and whether this can be predicted through blood tests, in particular of the circulating tumour DNA.

To identify and describe long-term quality of life (QOL) issues in patients with metastatic melanoma treated with checkpoint inhibitors who achieved cancer control for a minimum of 12 months and remain on maintenance checkpoint inhibitor therapy.

This study uses molecular imaging and novel immune monitoring to identify a biomarker of response for melanoma patients receiving immunotherapy with anti-PD-1 immunotherapy. Prior to treatment, FDG and FLT PET/CT will be obtained, together with blood and tumor biopsies from each patient. A follow-up FDG and FLT PET/CT will be obtained, together with blood and tumor biopsies, 10-12 weeks after starting treatment with anti-PD-1 antibody. Additional tumor biopsies and blood samples for immune monitoring will be obtained 4-6 weeks after starting treatment with anti-PD-1 antibody as well as 16-18 weeks after starting anti-PD-1 treatment for patients still receiving anti-PD-1 antibody at that time.

The purpose of this study is to find out what patients consider when deciding whether or not to receive adjuvant treatment, and how patients feel about their decision after one year.

The research questions to be addressed by this study are as follows: What is the prevalence of ipilimumab use among adults with a history of autoimmune disease that received treatment with ipilimumab for advanced melanoma? Do melanoma patients with a history of autoimmune disease experience complications that require hospitalization related to their underlying autoimmune disease following treatment with ipilimumab?

Cutaneous melanomas represent 4 to 11% of cutaneous cancers, but is responsible for 75% of the deaths reported for these pathologies. The incidence rate double every 10 years. Fourteen thousand cases and 1700 deaths were reported in France in 2015. The local staging of the cancer is represented by the Breslow index, which is measured on histological analysis, corresponding to the maximum depth of the cancer. Breslow index is a good pronostic value, and is used to choose for the best treatment for the patient. Having access to the Breslow index before the first resection of the tumor would allow dermatologists to make a complete resection with the best treatment, and the analysis of the sentinel lymph node, all during the same surgical time. Currently, patients need 2 surgeries : one before the Breslow index, and a second one after. The depth of cutaneous melanoma was already evaluated with High-Frequency Ultrasound (HF-US), but gave disappointing results, with Breslow index not being accurately measured. Only 50% of tumors less than 2mm depth were efficiently measured. Results were even worst for bigger tumors. Ultrasound biomicroscopy (UBM) is a new approach, depending on the use of ultra high frequency and large-band transducer. Nice's CHU acquired the only ultrasound device capable of applying such ultra high frequency ultrasound (UHF-US) to human tissues. The device is a VEVO MD (Vevo MD, Toronto, Canada) and equip the Ultrasound Department since June 2018. The images investigators can assess with this device have an axial resolution of 30µm, for a maximum emission frequency of 70MHz, which was not attainable until this day in human care. Furthermore, when compared to some of the mono-frequency devices investigators experimented before, this device allow investigators to attain a maximum depth of analysis up to 8mm. In consequence, this device seems to be able to realize an extremely precise analysis of the skin, and of the cutaneous melanomas, for a structural analysis, as well as a precise depth measurement, and should be evaluated in the measurement of the Breslow Index. The objective of the study is to analyze the interest of ultrasound biomicroscopy in the pre-therapeutic evaluation of the Breslow index of cutaneous melanoma, compared to histological findings. The study will include 60 patients with cutaneous melanomas, recently diagnosed in the Dermatology Department of the Nice University Hospital (Pr Bahadoran, Pr Passeron, Pr Lacour). Each patient will beneficiate from complete Ultrasound biomicroscopy analysis of the tumor The examination will be made blindly by 2 operator, both with experience in Ultra High frequency Ultrasound examinations (Dr Azulay, Dr Raffaelli). The maximum depth of the melanoma (Breslow index) will be recorded in µm. After surgical resection, the histologic analysis (Dr Long, Pr Hofman, Clinical and Experimental AnatomoPathologic laboratory, Nice's University Hospital) will measure the gold-standard Breslow Index. The comparison will analyze the capacity of Ultrasound biomicroscopy for a precise measurement of the Breslow Index, as well as the inter and intra-operator concordance. If the results of this study are positives and suggest a modification of the therapeutic strategy, a larger multicentric study would be launched in the near future.

Aim of study: To collect data for a new image-guided diagnostic algoritm, enabling the investigators to differentiate more precisely between benign and malignant pigmented tumours at the bedside. This study will include 60 patients with four different pigmented tumours: seborrheic keratosis (n=15), dermal nevi (n=15), pigmented basal cell carcinomas (n=15), and malignant melanomas (n=15), these four types of tumours are depicted in Fig.1, and all lesions will be scanned by four imaging technologies, recruiting patients from Sept 2019 to May 2020. In vivo reflectance confocal microscopy (CM) will be used to diagnose pigmented tumours at a cellular level and provide micromorphological information5;6. Flourescent CM will be applied to enhance contrast in surrounding tissue/tumours. Optical coherence tomography (OCT), doppler high-frequency ultrasound (HIFU) and photoacustic imaging (also termed MSOT, multispectral optoacustic tomography) will be used to measure tumour thickness, to delineate tumours and analyze blood flow in blood vessels. Potential diagnostic features from each lesion type will be tested. Diagnostic accuracy will be statistically evaluated by comparison to gold standard histopathology

This is the first study which evaluates the different staging modalities 18F-2-fluoro-2-deoxy-D-glucose PET/CT (PET/CT) and diagnostic ultrasound (US) in a single patient cohort with malignant melanoma (MM). Previous analyses are ambivalent regarding the modality of choice. These analyses, however, compared separate patient cohorts for each modality. Inclusion criteria were a primary staging or re-staging of suspected or confirmed MM with one or more PET/CT and/or one or more US. Exclusion criteria were the non-existence of a malignancy or a malignancy other than MM, alone or in combination with an MM. The analysis includes the calculation of sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV) and accuracy in a per-patient (PPA), per-examination (PEA) and per-lesion analysis (PLA). This was done individually for PET/CT and US, and in PLA also for the combination of these two radiological modalities. Furthermore, US was divided into US as a whole (wUS), peripheral lymph nodes (pUS) and/or abdomen (aUS). The principle equivalence of the two imaging modalities is set up as a null hypothesis H0 in all three analyses. As a further null hypothesis H0, the equivalence of the combined application compared to the sole applications of the two imaging modalities is asserted. The aim is the refutation of the null hypothesis H0 by significant differences in sensitivity and specificity.