View clinical trials related to Sentinel Node.
Filter by:The aim of this study is to evaluate the Sentimag/Sienna+ System (Sentimag®) in clinical routine practice. On the one hand this allows evaluation of the equivalence of the two techniques. On the other hand this ensures that patients do not experience any possible disadvantages by participating. The hypothesis behind this evaluation is that Sentimag is as efficient as conventional sentinel node mapping. The programme will compare the Sentimag® with the conventional sentinel lymph node detection with radioactive tracer combined with blue dye (in centres using the combined technique) and thereby determine whether the new technique is equivalent to the standard technique for SLNB.
The initial treatment for most people with melanoma involves wide excision of the skin and sentinel node biopsy. As with other cancers, the status of the sentinel node provides important prognostic information to the patient and physician. Sentinel node biopsy was first developed using only a blue dye. Technetium99, a radioactive protein, was added later and provides the ability to image the patient and identify relevant lymph node basins. For the last 15 years or so, the standard method of SLN localization includes both tech99 and blue dye. While the rates of localization overall are excellent, these methods each have drawbacks. We are investigating a new method of finding sentinel nodes that uses a green dye that has an infrared signal. Our hypothesis is that indocyanine green (ICG) and real time lymphangiography is equivalent to technetium99 and methylene blue in identifying sentinel nodes (SLN) in patients with melanoma.
As most cancers, ovarian cancer also spreads to regional lymph nodes. The concept of sentinel lymph node surgery is to see whether the cancer has spread to the very first lymph node or sentinel node (SN). If the sentinel node does not contain cancer, there is a high likelihood that the cancer has not spread to other lymph nodes. This means that, at least theoretically, a radical lymphadenectomy could be omitted and thus the associated morbidity. The sentinel node technique has been proven to be effective in different cancers such as breast cancer and malignant melanoma. In gynaecological tumors it has been shown to be effective in vulvar cancer. Currently sentinel node studies are done for cervix and uterine cancer. The present study determines whether or not a sentinel node procedure in patients with ovarian cancer is feasible when the tracers are injected in the ovarian ligaments.
Rationale: Like in primary breast cancer, prognosis in recurrent breast cancer is correlated with regional lymph node status. Therefore, axillary staging may be warranted in patients with recurrent disease and intact axillary nodes, although this has not been described in guidelines yet. The lymphatic drainage pathways in the breast and/or axilla could have been changed due to prior surgery and/or radiotherapy. These aberrant drainage pathways could be detected with lymphatic mapping and sentinel node biopsy (SNB), leading to a more accurate staging. Objective: To assess the technical feasibility of lymphoscintigraphy after prior breast surgery. A second goal is to investigate whether or not previous breast surgery (with or without radiotherapy) significantly changes the lymphatic drainage pathways of the breast.