Background Sentinel-node biopsy, a minimally invasive procedure for regional melanoma staging, was evaluated in a phase 3 trial. Methods We evaluated outcomes in 2001 patients with primary cutaneous melanomas randomly assigned to undergo wide excision and nodal observation, with lymphadenectomy for nodal relapse (observation group), or wide excision and sentinel-node biopsy, with immediate lymphadenectomy for nodal metastases detected on biopsy (biopsy group). Results No significant treatment-related difference in the 10-year melanoma-specific survival rate was seen in the overall study population (20.8% with and 79.2% without nodal metastases). Mean (±SE) 10-year disease-free survival rates were significantly improved in the biopsy group, as compared with the observation group, among patients with intermediate-thickness melanomas, defined as 1.20 to 3.50 mm (71.3±1.8% vs. 64.7±2.3%; hazard ratio for recurrence or metastasis, 0.76; P = 0.01), and those with thick melanomas, defined as >3.50 mm (50.7±4.0% vs. 40.5±4.7%; hazard ratio, 0.70; P = 0.03). Among patients with intermediate-thickness melanomas, the 10-year melanoma-specific survival rate was 62.1±4.8% among those with metastasis versus 85.1±1.5% for those without metastasis (hazard ratio for death from melanoma, 3.09; P<0.001); among patients with thick melanomas, the respective rates were 48.0±7.0% and 64.6±4.9% (hazard ratio, 1.75; P = 0.03). Biopsy-based management improved the 10-year rate of distant disease–free survival (hazard ratio for distant metastasis, 0.62; P = 0.02) and the 10-year rate of melanoma-specific survival (hazard ratio for death from melanoma, 0.56; P = 0.006) for patients with intermediate-thickness melanomas and nodal metastases. Accelerated-failure-time latent-subgroup analysis was performed to account for the fact that nodal status was initially known only in the biopsy group, and a significant treatment benefit persisted. Conclusions Biopsy-based staging of intermediate-thickness or thick primary melanomas provides important prognostic information and identifies patients with nodal metastases who may benefit from immediate complete lymphadenectomy. Biopsy-based management prolongs disease-free survival for all patients and prolongs distant disease–free survival and melanoma-specific survival for patients with nodal metastases from intermediate-thickness melanomas. (Funded by the National Cancer Institute, National Institutes of Health, and the Australia and New Zealand Melanoma Trials Group; ClinicalTrials.gov number, NCT00275496.)
Although the prognostic significance of occult lymph node metastases in thyroid cancer remains controversial, identifying these patients may help direct therapy. The purpose of this study was to determine the feasibility and safety of sentinel lymph node biopsy (SLNBx) in thyroid nodular disease. Patients undergoing thyroid resection, with no evidence of clinical lymphadenopathy, were enrolled. The nodule was injected with isosulfan blue vital dye. Blue-stained lymphatic channels were traced within the central compartment to the SLN, which was excised. A total of 40 patients underwent SLNBx; lymphatics were seen in 31 patients, and SLNs were found in 26. In 11 patients the lymphatic vessels were traced through the central compartment into the lateral or mediastinal compartments, although a central SLN was retrieved in only 6. Of the 18 patients with benign neoplasms, 14 had benign SLNs, and no SLN was found in 4. A thyroid lymphoma patient had a true positive SLN. In the 12 patients with papillary thyroid cancer (PTC), 6 had true positive SLNs, and 2 had a true negative SLN. In one patient with metastatic PTC, the parathyroid stained blue. Another patient with PTC had lateral lymphatic channels, but no SLN was found. There were two false negatives, proven by a node dissection in one and lateral uptake on (131)I scanning in the other. There were no postoperative complications. SLNBx for thyroid disease is feasible and safe. Potential staining of the parathyroids makes their identification before injection mandatory. The variable lymphatic drainage patterns and the two false-negative nodes indicate that further investigation is required before the procedure can be recommended for patients with thyroid disease.
This large, single-center study confirms that patients with a negative SNB have a significantly better prognosis than those with positive SNs. In those with a negative SNB, primary tumor thickness and ulceration are independent predictors of survival. Incorrect pathologic diagnosis contributed to only a minority of the false-negative results in this study.
Introduction Survival in uveal melanoma has remained unchanged since the early 1970s. Because outcomes are
An FN SN can occur because of deficiencies in nuclear medicine, surgery, or pathology. qRT can detect "occult" metastatic melanoma in SNs that have been identified as negative by histopathology.
A sentinel lymph node (SLN) that is melanoma negative by pathologic examination implies absence of melanoma metastasis to that regional lymph node field. However, a small proportion of patients develop regional node field recurrence after a negative SLN biopsy. In this study, we reviewed the histopathology of negative SLNs from such patients to determine whether occult melanoma cells were present in the SLNs, to characterize the pathologic features of false-negative SLNs, and to provide recommendations for the histopathologic examination of these specimens. Between March 1992 and June 2001, of 1152 patients who had undergone SLN biopsy for primary melanomas at the Sydney Melanoma Unit, 976 were diagnosed with negative SLNs by initial pathologic examination (using 2 hematoxylin and eosin stained sections, and 2 immunostained sections for S-100 protein and HMB45), and follow-up was available in 957. Of these, 26 (2.7%) developed regional lymph node recurrence during a median follow-up period of 35.7 months. For 22 of them, the original slides and tissue blocks were available for reexamination. The original slides of each block were reviewed. Multiple further sections were cut from each block and stained with hematoxylin and eosin, for S-100, HMB45, and Melan A. Deposits of occult melanoma cells were detected in 7 of the 22 cases (31.8%). In 5 of the 7 cases, deposits of melanoma cells were present only in the recut sections. There were no significant differences in clinical and pathologic variables for those patients in whom occult melanoma cells were found by pathologic reexamination of their SLNs, compared with those in whom no melanoma cells were detected. The detection of melanoma cell deposits in only 7 of 22 false-negative SLNs suggests that mechanisms other than failure of histopathologic examination may contribute to the failure of the SLN biopsy technique in some patients. The failure rate for melanoma detection in SLNs by our routine pathologic examination, using the current protocol at our institution, was <1% (7 of 957 patients). Routinely performing more intensive histopathologic examination of SLNs is difficult to justify from a cost benefit perspective; we therefore recommend examining two hematoxylin and eosin stained sections and two immunostained sections (for S-100 and HMB45) routinely on SLNs from melanoma patients.
A suggested objective definition for arm lymphedema after axillary dissection is an arm volume increase of greater than 16% of the volume of the control arm.
The incidence of perioperative stroke in this study is significantly lower than that previously stated in the literature. This suggests that preoperative screening and/or intervention for carotid artery disease may not be necessary in this patient population.
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