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Section Examination (section + examination)
Selected AbstractsA novel approach to the intraoperative assessment of the uncinate margin of the pancreaticoduodenectomy specimenHPB, Issue 2 2007MAHMOUD A. KHALIFA Abstract Background. Currently, there is no consensus regarding the pancreaticoduodenectomy (PD) margins examined intraoperatively or the technical protocol for frozen section examination. The aim of this work was to summarize our experience regarding the intraoperative examination of the uncinate margin and to compare it with the published literature. Materials and methods. Our local protocol for the intraoperative assessment of the uncinate margin of the PD specimen is described in this article. A PubMed® search limited to English language publications using terms along the theme of pancreaticoduodenectomy and margin was performed. Retrieved articles were categorized according to whether they discussed frozen section margin examination. Results. Ten articles published between 1981 and 2005 were retrieved which discussed the intraoperative examination of PD specimens. Of the 10 articles, 5 discussed the intraoperative consultation for diagnostic purposes only, 2 discussed the consultation for both diagnostic purposes and assessment of margins, and 3 discussed intraoperative assessment of margins only. Of the total of five articles that discussed the intraoperative assessment of margins, none detailed the technical protocol for examining the uncinate margin. Discussion. Our proposed protocol for the intraoperative assessment of the uncinate margin of PD specimens allows for its accurate evaluation and has not been described previously in the English literature. [source] Per-operative frozen section examination of pelvic nodes is unnecessary for the majority of clinically localized prostate cancers in the prostate-specific antigen eraINTERNATIONAL JOURNAL OF UROLOGY, Issue 8 2000Yoshiyuki Kakehi Abstract Background: The incidence of unsuspected lymph node metastasis seems to be decreasing in the prostate-specific antigen (PSA) era. It remains controversial as to whether routine pelvic lymph node dissection and per-operative frozen section examination should be performed. In addition, it is still unclear whether an aggressive approach to local disease by surgery or irradiation confers survival benefits on stage D1 patients. Methods: Eighty-eight consecutive patients with clinically localized prostate cancer who underwent pelvic lymph node dissection prior to radical prostatectomy during the period between 1985 and 1998 were analyzed. The incidence of lymph node metastases after 1992 was compared with that before 1992. Sensitivity and specificity of frozen section examination was assessed. Progression-free survival and cause-specific survival curves of node-positive patients who underwent radical prostatectomy were estimated by the Kaplan,Meier method. Results: Six of 17 patients (35.3%) treated before 1992 and five of 71 patients (7.0%) treated after 1992 showed unsuspected lymph node metastasis (P = 0.0059). Eight of 11 node-positive patients underwent radical prostatectomy and two have so far demonstrated clinical progression and cancer death with a median follow-up period of 63 months. The 5 year progression-free rate and the cause-specific survival rate for these patients were 71.4 and 85.7%, respectively. Sensitivity of frozen section examination for micrometastasis and gross-metastasis cases, respectively, was 3/6 (50%) and 4/4 (100%), while specificity was 85/85 (100%). Conclusions: The incidence of unsuspected lymph node metastases has been significantly decreased in the PSA era. Frozen section examination of pelvic nodes can be omitted and radical prostatectomy is an acceptable choice of treatment in patients without macroscopically apparent nodal metastases. [source] Squamous cell carcinoma arising from perineal lesion in a familial case of Hidradenitis suppurativaINTERNATIONAL WOUND JOURNAL, Issue 2 2009K Chandramohan ABSTRACT Hidradenitis suppurativa (HS) is a chronic dermatologic disorder characterised by multiple vesiculopustular cutaneous lesions in skin. It sometimes express autosomal dominant mode of inheritance. In some patients, it can give rise to squamous cell carcinoma of skin. Unlike the usual marjolin's ulcer which develops in chronic scars, this disease carries a grave prognosis with high recurrence rate and mortality. Here we are reporting the case of a 40-year-old gentle man with hidradenitis suppurativa, who presented with squamous cell carcinoma in the perianal region, and had multiple family members affected with HS. A short history and review of literature are discussed. Squamous cell carcinoma arising from HS is a major therapeutic challenge. This malignancy carries very high rates of recurrence and mortality. Careful surveillance of the lesions of HS, especially occurring in perineal region is very important to diagnose secondary malignancies. Similarly, meticulous surgical excision with careful resection of all sinus tracks and frozen section examination of margins are very important to eradicate the disease. [source] Sentinel lymph node as a new marker for therapeutic planning in breast cancer patientsJOURNAL OF SURGICAL ONCOLOGY, Issue 3 2004Marco Gipponi MD Abstract Background and Objectives Literature review suggests that the sentinel lymph node (sN) represents a reliable predictor of axillary lymph node status in breast cancer patients; however, some important issues, such as the optimisation of the technique for the intraoperative identification of the sN, the role of intraoperative frozen section examination of the sN, and the clinical implications of sN metastasis as regards the surgical management of the axilla, still require further confirmation. The authors aimed (1) to assess the feasibility of sN identification with a combined approach (vital blue dye lymphatic mapping and radioguided surgery, RGS) and the specific contribution of either techniques to the detection of the sN, (2) to determine the accuracy and usefulness of intraoperative frozen section examination of the sN in order to perform a one-stage surgical procedure, and (3) to define how the sN might modulate the therapeutic planning in different stages of disease. Materials and Methods From October 1997 to June 2001, 334 patients with early-stage (T1,2 N0 M0) invasive mammary carcinoma underwent sN biopsy; the average age of patients was 61.5 years (range, 39,75 years). In a subset of 153 patients, both vital blue dye (Patent Blue-V) lymphatic mapping and RGS were used to identify the sN, and the relative contribution of each of the two techniques was assessed. Results In the whole group, the sN was identified in 326 of 334 patients (97.6%), and 105 of 326 patients (37.3%) had positive axillary lymph nodes (pN+). In 9 of 105 pN+ patients, the definitive histologic examination of the sN did not show metastases but these were detected in non-sN, thus giving an 8.6% false-negative rate, a negative predictive value of 94.5% (156/165), and an accuracy of 96.5% (252/261). As regards the specific contribution of the two different techniques used in the identification of the sN, the detection rate was 73.8% (113/153) with Patent Blue-V alone, 94.1% (144/153) with RGS alone, and 98.7% (151/153) with Patent Blue-V combined with RGS (P,<,0.001). Noteworthy, whenever the sN was identified, the prediction of axillary lymph node status was remarkably similar (93,95% sensitivity; 100% specificity; 95,97% negative predictive value, and 97,98% accuracy) whichever of the three procedures was adopted (Patent Blue-V alone, RGS alone, or combined Patent Blue-V and RGS). Intraoperative frozen section examination was performed in 261 patients, who had at least one sN identified, out of 267 patients who underwent complete axillary dissection; 170 patients had histologically negative sN (i.o. sN,) and 91 patients histologically positive sN (i.o. sN+). All 91 i.o. sN+ were confirmed by definitive histology, whereas in 14 of 170 i.o. sN, patients (8.2%) metastases were detected at definitive histology. As regards the correlation between the size of sN metastasis, the primary tumour size, and the status of non-sN in the axilla, micrometastases were detected at final histology in 23 patients and macrometastases in 82 patients. When only micrometastases were detected, the sN was the exclusive site of nodal metastasis in 20 of 23 patients (86.9%) while in 3 patients with tumour size larger than 10 mm micrometastases were detected also in non-sN. Macrometastases were never detected in pT1a breast cancer patients; the sN was the exclusive site of these metastases in 30 patients (36.6%), while in 52 patients (63.4%) there were metastases both in sN and non-sN. Conclusions Sentinel lymphadenectomy can better be accomplished when both procedures (lymphatic mapping with vital blue dye and RGS) are used, because of the significantly higher sN detection rate, although the prediction of axillary lymph node status remains remarkably similar whichever method is used. The intraoperative frozen section examination proved to be rather accurate in predicting the actual pathologic status of the sN, with a negative predictive value of 91.8%; in 35% of patients it allowed sN biopsy and axillary dissection to be performed in a one-stage surgical procedure. Finally, specific clinical and histopathologic features of the primary tumour and sN might be used to tailor the loco-regional and systemic treatment in different clinical settings, such as in ductal carcinoma in-situ (DCIS), early-stage invasive breast cancer, and patients with large breast cancer undergoing neo-adjuvant CT for breast-saving surgery as well as elderly patients with operable breast cancer. J. Surg. Oncol. 2004;85:102,111. © 2004 Wiley-Liss, Inc. [source] Clinical Practice Guidelines for the Use of Axillary Sentinel Lymph Node Biopsy in Carcinoma of the Breast: Current UpdateTHE BREAST JOURNAL, Issue 2 2004Gordon F. Schwartz MD, MBAArticle first published online: 10 MAR 200 Abstract: Axillary sentinel lymph node biopsy (SLNB) has been adopted as a suitable alternative to traditional level I and II axillary dissection in the management of clinically node-negative (N0) breast cancers. There are two current techniques used to identify the sentinel node(s): radiopharmaceutical, technetium sulfur colloid, and isosulfan blue dye (used in the United States) and technetium-labeled albumin and patent blue dye (used in Europe). (The labeled albumin is not U.S. Food and Drug Administration [FDA] approved in the United States.) SLNB to replace axillary dissection should only be performed by surgeons and patient management teams with appropriate training and experience. Although both radiocolloid and blue dye are used together by most surgeons, and training should be in both techniques, some experienced surgeons use one or the other almost exclusively. In addition, surgical pathologists must recognize the need to examine these small specimens with great care, using a generally adopted protocol. Imprint cytology or frozen sections may be used, followed by additional sections for light microscopy. Immunochemical staining with cytokeratin or other techniques to identify "submicroscopic" metastasis is often used, but the results should not be used to influence clinical decisions with respect to adjuvant therapy. "Failed" SLNB implies the surgeon's failure to identify the sentinel nodes, in which case a complete dissection is performed. A "false-negative" SLNB implies the finding of metastasis in the excised sentinel nodes by light microscopy after a negative frozen section examination. Whether a false-negative SLNB mandates completion axillary dissection is controversial, with clinical trials currently under way to answer this question. Although SLNB was initiated to accompany breast-conserving treatment, it is equally useful in patients undergoing mastectomy. It is more difficult to perform with mastectomy. When using blue dye only, SLNB may require a separate incision because of time constraints between injection and identification of the blue-stained nodes; radiocolloid usually does not. Completion axillary dissection after false-negative SLNB is more difficult after mastectomy. SLNB is a useful procedure that may save 70% of women with clinically negative (N0) axillae and all of those with pathologically negative axillae from the morbidity of complete axillary dissection. Ideally the sentinel nodes should be able to identified in more than 95% of patients, with a false-negative rate of less than 5%. Until these rates can be achieved consistently, however, surgeons should not abandon traditional axillary dissection., [source] Intraoperative frozen section examination of axillary sentinel lymph nodes in breast cancer,APMIS, Issue 1 2005D. A. GRABAU The study presents the results from intraoperative frozen section assessment of axillary sentinel lymph nodes (SLNs) in breast cancer. Routine histological frozen sections from one level were used, two sections stained with haematoxylin and eosin. Immunohistochemistry for cytokeratins was applied to the permanent SLN paraffin sections only. Axillary dissection was performed on all SLN-positive cases regardless of the size of the metastatic deposits. With a detection rate of 83%, 272 patients entered the study over a period of 46 months. A total of 61 cases were SLN positive by frozen section analysis. The paraffin sections gave an additional 23 SLN-positive cases. The false-negative rate for frozen sections was then 27% (23/84). Micrometastases were found in 28 of 84 cases, and macrometastases in 56. The false-negative rate of frozen sections for micrometastases was 71% (20/28), and for macrometastases 5% (3/56). A total of 73% (61/84) of the patients underwent axillary surgery as a one-step procedure. [source] | ||||||||||