View clinical trials related to Lentigo Maligna.
Filter by:Reflectance confocal microscopy (RCM) is the reference in vivo imaging technique for identifying malignant melanocytic tumors prior to surgical excision. However, it is not widely used due to its high cost and highly technical and time-consuming nature. In addition to RCM, we currently use 2 less expensive dermatoscopes that also allow in vivo diagnosis: super-high magnification dermoscopy (D400) and Fluorescence-Advanced videodermatoscopy (FAV).
Mohs micro-graphic surgery (Mohs) is a tissue-sparing, surgical treatment for different types of skin cancer (e.g. basal cell carcinoma, squamous cell carcinoma, lentigo maligna (melanoma). It is a procedure performed with frozen sections. Slow Mohs, a variant of micro-graphic surgery, is performed by formalin fixation and paraffin-embedded sections. Both in Mohs and Slow Mohs tumor margins are assessed to achieve complete removal. This study aims to investigate the clinical presentation and outcomes (i.e. complications and recurrence rates) in patients treated with Mohs or Slow Mohs in the dermatology department of the Maastricht University Medical Center+ in Maastricht, the Netherlands.
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.
A reflectance confocal microscope is a machine which is able to examine the upper layers of the skin painlessly and without the need for taking a biopsy. We would like to examine the images taken by the confocal microscope to see if it can help more accurately identify lesions which are worrying rather than a benign mole. We are performing this study in patients in whom we have recommended excising a mole to exclude a cancer. If the results of the study show that the confocal microscope can help more accurately diagnose Melanomas then this would reduce the number of biopsies that are taken that turn out not to be cancerous (ie unnecessary biopsies).
Non-invasive lentigo maligna (LM) is characterized by an in situ proliferation of melanoma cells, limited to the epidermis. It is found most commonly on the head and neck of elderly persons, with a peak incidence in the seventh or eighth decade. If untreated, it may develop into invasive melanoma. The gold standard treatment for LM is surgery using a 5-10 mm margin. However, the lesions can be large, and conventional surgery can be difficult, particularly on the face. Then, there is a need for a topical non-surgical treatment of LM. Ingenol mebutate (IM)/Picato® is able to induce cell apoptosis and an inflammatory reaction in the epidermis and superficial dermis. Thus, the investigators hypothesize that the topical use of Picato® could induce the cure or a prolonged remission of non-invasive LM. Because of the exploratory phase of this study (no case report and no clinical trial at the early phase of designing this study, only one case report at the time of submission of this form) the investigators will conduct an open label study limited to patients who are not eligible to, or who refuse surgical treatment of their LM. The main objective of this study is to determine the proportion of patients with complete response (CR) obtained 2 months after one or two cycles (for patients who did not respond to the first cycle) of topical treatment by IM 150 µg/g for non-invasive LM of the face (head and neck).
This study investigates the efficacy of photodynamic therapy (PDT) in the treatment of lentigo maligna (LM). Hyperspectral imaging system (HIS) will be used to determine the margins of LM and to rule out possible invasion. Participants will receive photodynamic therapy three times consecutively with intervals of two weeks using 5-aminolevulinic acid nanoemulsion (BF-200 ALA, Ameluz®) as a light sensitizing cream. Four weeks after last photodynamic therapy the lentigo maligna lesion will be excised surgically from the skin. Result of the treatment is assessed with histopathological examination and immunohistochemical staining of removed tissue specimen.
The purpose of this study is to investigate the effectiveness of using either radiotherapy (RT) or Imiquimod (ImiQ) to treat the Lentigo Maligna (LM), when surgery is not possible, is refused, or fails.
The purpose of this study is to determine if immunofluorescence (IF) can effectively identify features of malignant melanoma in situ, on sun-damaged skin, in the setting of Mohs Micrographic Surgery.
The purpose of this study is to determine if topical imiquimod is effective in the pathological complete regression of lentigo maligna.
This is a prospective, longitudinal, uncontrolled study with follow-up for 5 years.Patients having undergone surgical excision of lentigo maligna (LM) or lentigo maligna melanoma (LMM) will be invited to this study. Eligible patients will start treatment with imiquimod 6 weeks after the excision, the treatment will last for up to 12 weeks. Inflammatory reactions and the occurrence of residual lesions will be documented. The healing effect will be determined (initial clearance rate) 20 weeks after start of treatment with imiquimod. All patients who were enrolled (=exposed to imiquimod in this study) will be followed up for 5 years or until recurrence of the LM or LMM