In vivo identification of sentinel lymph nodes for clinical stage I non-small cell lung cancer for abbreviation of mediastinal lymph node dissection

BACKGROUND: We previously reported that an identification of sentinel lymph node (SN) with a techenetium-99m (99mTc) tin colloid by ex vivo counting, i.e. the radio-activity of dissected lymph nodes, was a reliable method of establishing the first site of nodal metastasis in non-small cell lung cancer [J. Thorac. Cardiovasc. Surg. 124(2002)486]. However, for SN navigation surgery, SN should be identified before lymph node dissection (in vivo) but not after that (ex vivo). In order to reduce mediastinal lymph node dissection for clinical stage I non-small cell lung cancer (NSCLC) by SN navigation surgery, the SN identifications for hilar lymph nodes by ex vivo counting, and for mediastinal lymph nodes by in vivo, were evaluated. METHODS: Intra-operative SN identification using 99mTc tin colloid was conducted on 104 patients with clinical stage I NSCLC who had had major lung resections with mediastinal lymph node dissections. The hilar SNs were identified by ex vivo counting (after lung resection) and the mediastinal SNs were identified by in vivo counting (before lymph node dissection). To evaluate the accuracy of mediastinal SN identification by in vivo counting, it was compared with the data by ex vivo counting. RESULTS: SNs were identified in 84 patients (81%). SNs were identified at the hilum by ex vivo counting in 78 patients (93%) and at the mediastinum by in vivo counting in 40 patients (48%). While 15 patients had lymph node metastases, i.e. N1 in six and N2 in nine, the SNs could be found to have metastases during operation in 13 of the 15 patients (87%). The in vivo counting of the mediastinum missed out the mediastinal SNs identified by ex vivo counting in four of the 84 patients (5%). CONCLUSION: If the hilar SNs identified by ex vivo counting and the mediastinal SNs identified by in vivo counting had no metastases, then mediastinal lymph node dissection could be abbreviated for patients with clinical stage I NSCLC.     

Lymphatic mapping for upper gastrointestinal malignancies

Recent studies on lymphatic mapping of upper gastrointestinal (GI) malignancies have provided new insights with regard to the sentinel node (SN) concept in solid tumors. At present, the SN concept seems to be valid not only for breast cancer, but also for esophageal and gastric cancers, which have multidirectional and complicated lymphatic flows. In addition to the staging merits, individualized surgical management has been proposed for upper GI cancer based on the SN concept. Gastric cancer is now a suitable target of SN-guided surgery after breast cancer because of its anatomical situation. Laparoscopic local resection is theoretically feasible for curative treatment of SN-negative early gastric cancer. Because SNs in esophageal cancer are multiple and widespread, complete sampling of SNs is not a minimally invasive procedure, as it is in breast cancer. However, selective and modified lymphadenectomy targeting SNs for clinically N0 esophageal cancer instead of three-field lymph node dissection should become not only feasible but also clinically important. When performing chemoradiotherapy as curative treatment for cT1N0 esophageal cancer, lymphoscintigrams revealing the distribution of SNs in each individual case are useful to tailor the field of irradiation to control occult micrometastases. Although there are several issues to be resolved, this novel procedure has the potential to improve quality control in upper GI cancer.     

Detection of sentinel nodes by lymphoscintigraphy and gamma probe guided surgery in vulvar neoplasia

BACKGROUND: Pathologic lymph node status is the most important prognostic factor in vulvar cancer; however, complete inguinofemoral node dissection is associated with significant morbidity. Intraoperative lymphoscintigraphy associated with gamma detecting probe-guided surgery has proved to be reliable in the detection of sentinel node (SN) involvement in melanoma and breast cancer patients. The present study evaluates the feasibility of the surgical identification of inguinal sentinel nodes using lymphoscintigraphy and a gamma detecting probe in patients with early vulvar cancer. METHODS: Technetium-99-labeled colloid human albumin was administered perilesionally in 44 patients. Twenty patients had T1 and 23 had T2 invasive epidermoid vulvar cancer; one patient had a lower-third vaginal cancer. An intraoperative gamma detecting probe was used to identify SNs during surgery. Complete inguinofemoral node dissection was subsequently performed. SNs underwent separate pathologic evaluation. RESULTS: A total of 77 groins were dissected in 44 patients. SNs were identified in all the studied groins. Thirteen cases had positive nodes: the SN was positive in all of them; in 10 cases the SN was the only positive node. Thirty-one patients showed negative SNs: all of them were negative for lymph node metastasis. CONCLUSIONS: Lymphoscintigraphy and SN biopsy under gamma detecting probe guidance proved to be an easy and reliable method for detection of SNs in early vulvar cancer. If these preliminary data will be confirmed, the technique would represent a real progress towards less aggressive treatment in patients with vulvar cancer.     

进展期远端胃癌行扩大淋巴结清扫术的研究进展

淋巴结清扫范围一直是胃癌外科的热点问题。D2根治术作为进展期胃癌标准手术已达成共识,然而扩大淋巴结清扫的价值依然存在争议。进展期远端胃癌第14v组淋巴结转移率较高,D2+14v组淋巴结清扫有可能改善第6组淋巴结明显转移患者预后;尽管胃癌腹主动脉旁淋巴结转移视为M1,但D2+16a2/b1淋巴结清扫对局限性第16组淋巴结转移患者可能获益;而D2+13组淋巴结清扫有可能提高伴有十二指肠浸润胃癌患者生存率。本文旨在探讨扩大淋巴结清扫在胃癌中的价值,以期为临床提供依据,现就进展期远端胃癌扩大淋巴结清扫的研究进展进行综述。      

Validity of modified gastrectomy combined with sentinel node navigation surgery for early gastric cancer

Background The present study examined the clinical validity of modified gastrectomy for early gastric cancer, in terms of the results of sentinel node navigation surgery (SNNS), using infrared ray electronic endoscopy (IREE) plus indocyanine green (ICG) staining. Methods One-hundred and sixty-one patients with fT1N0 gastric cancer were enrolled in the study. ICG (0.5 ml, 5 mg/ml) was injected endoscopically into four quadrants of the submucosa surrounding the cancer. Twenty minutes after the injection, sentinel lymph nodes (SNs) stained with ICG were observed intraperitoneally around the serosa and surrounding fat tissue. IREE was used to illuminate regional lymph nodes from the serosal side. Results Group 2 lymph nodes were judged as SNs in 52 patients (32%). The most common locations of the SNs were stations No. 7 in each of the upper-, middle-, and lower-thirds of the stomach. In two patients, lymph node metastasis was positive. One of these patients, with cancer in the middle one-third of the stomach, had SNs in stations No. 3, 4sb, 4d, 7, and No. 11p, and had metastatic lymph nodes in No. 3 and No. 7 (all SNs). The other patient, with cancer in the lower one-third of the stomach, had SNs in No. 1, 3, 4d, and 6, and had a metastatic lymph node in No. 4d (SN). Skip metastasis was not observed in this study, and metastatic lymph nodes were judged to have been dissected by the D1+a procedure. Conclusion For T1N0 gastric cancer, modified gastrectomy (D1+a dissection) combined with SNNS is suitable; however, for those whose Group 2 lymph nodes are judged to be SNs, additional dissection of lymphatic basins detected by SNNS should be performed to confirm the absence of lymph node metastasis.     

Sentinel Node Evaluation in Prostate Cancer

ObjectivesProvide an overview of the use of the sentinel node (SN) technique in prostate carcinoma. The relevance of nodal staging in the several stages of prostate carcinoma, technical aspects of the SN technique, indications, and lessons learned from it are discussed.IntroductionThe lymph node status is relevant in all M0 tumour stages. In early prostate cancer the changes of nodal involvement are so low that invasive diagnostics are superfluous. However, the definition of this early stage is narrowing since the results of extensive node dissection have shown that previously assumed low-risk patients may harbour positive lymph nodes. On the other hand, in locally advanced cases, if the decision for external-beam radiation on the lymph node basins in combination with radiation of the prostate and 3 yr of hormonal therapy has been made, a lymph node dissection seems superfluous.MethodsSN dissection may be performed in open surgery or as a laparoscopic technique. A radioactive tracer is injected into the prostate and on γ-camera imaging it is decided which lymph nodes are the possible first landing zones for the prostate tumour. During the radioguided surgery, the excision of the SNs, a handheld γ probe is used to identify the radioactive nodes. On introducing the method in a clinic, it is important to do a conformal extensive pelvic lymph node dissection as well to ensure that logistics and the performance are reliable.ResultsSN dissection is as reliable as a diagnostic tool as extended pelvic lymph node dissection. Because it may show cancer-bearing nodes outside of the region of the extended lymph node dissection, such as the presacral area, it may on occasion be even more sensitive.DiscussionThe SN technique is likely to have fewer complications compared to the extended lymph node dissection. On the other hand, an extended lymph node dissection may still be indicated when the SN procedure yields only a few positive lymph nodes and definite cure is still the aim. Weighing the advantages and disadvantages of the laparoscopic versus the open SN technique is not different than in any other procedure. In the near future, sophisticated imaging techniques will identify nodes that are suspicious for micrometastases. This will make minimal invasive methods to confirm the nodal status not superfluous, but more in demand.ConclusionWhen the nodal stage is important for treatment decisions, only extended dissections or the SN method will provide accurate staging. The SN procedure is less invasive and will avoid an extensive node dissection in the majority of cases.     

Observational study of blue dye-assisted four-node sampling for axillary staging in early breast cancer

Background

The use of radioisotopes (RIs) is regulated and not all institutions have nuclear medicine facilities for sentinel node biopsy (SNB). We previously reported blue dye-assisted four-node axillary sampling (4NAS/dye) to be a suitable method for detecting sentinel nodes (SNs) without RIs. Here, we present an interim report on an observational study of this technique.

Methods

From May 2003 to June 2008, 234 early breast cancer patients underwent SNB with 4NAS/dye. Lymphatic mapping was performed by injection of patent blue, and axillary sampling was performed until 4 SNs were detected. Patients with metastatic SNs underwent axillary lymph node dissection (ALND) at levels I and II, while SN-negative patients did not undergo further axillary procedures.

Results

The SN identification rate was 99%. In total, 44 patients were diagnosed with metastatic disease by using the 4NAS/dye technique and underwent ALND; the remaining 189 patients did not undergo ALND (the SNB group). After a median follow-up period of 54 months, only 1 patient (0.5%) in the SNB group developed axillary recurrence. For the 4NAS/dye procedure, blue SNs were harvested in 220 patients (94%) and only unstained SNs were harvested in 13 patients (6%). Among the 44 patients with SN metastases, foci were found in blue SNs in 37 patients (84%), while they were found in only unstained SNs in 7 patients (16%).

Conclusions

SNB with 4NAS/dye is a safe and reliable technique for treatment of early breast cancer patients. This technique may be particularly useful for surgeons who do not have access to radioisotope facilities.     

Detection of sentinel lymph nodes in gastric cancers based on immunohistochemical analysis of micrometastases

BACKGROUND AND OBJECTIVES: The sentinel lymph node (SN) theory has the potential to change the trend of surgery for gastric cancer that is based on wide resection of the stomach with dissection of regional lymph nodes. However, feasibility tests of SN mapping procedures in gastric cancers with analysis of micrometastasis are rare. This study aimed to estimate the clinical usefulness of SN mapping using a dual procedure with dye- and gamma probe-guided techniques for gastric cancers, based on immunohistochemical staining (IHC) analysis. METHODS: SN mapping procedures were performed on 41 patients with T1-T2 gastric cancer, and gastrectomy with D2 lymphadenectomy followed. All SNs and non-SNs obtained from the patients were tested by IHC analysis using anti-cytokeratin antibodies. RESULTS: Using the dual mapping procedure, SNs were detected in all patients (100%). SN was positive in all patients with lymph node metastasis except in one with non-solid type poorly differentiated adenocarcinoma with marked lymphatic permeation, thus achieving an accuracy rate of 98%. CONCLUSIONS: The method was accurate in predicting nodal status and could be an indicator for less invasive treatment in patients with gastric cancer.     

Role of sentinel lymphadenectomy in thin invasive cutaneous melanomas.

PURPOSE: Regional lymph node status is the strongest prognostic determinant in early-stage melanoma. Lymphatic mapping and sentinel lymphadenectomy (LM/SL) is standard to stage regional nodes because it is accurate and minimally morbid, yet its role for thin (相似文献   

How can sentinel navigation surgery abbreviate mediastinal lymph node dissection for lung cancer?

Sentinel nodes (SNs) were examined for 101 patients who had peripheral type non-small cell lung cancer less than 5 cm and had undergone systemic mediastinal lymph node dissection. The surgical procedure was lobectomy in 91, pneumonectomy in 3, and segmentectomy with lymph node dissection in 7. In the CT room, the site for RI injection was marked on the skin, and the angle and depth of the needle required to reach the peritumoral region was determined. The RI was then injected in the RI room. The radioactivity in the lymph nodes was counted before dissection (in vivo counting), and after dissection that (ex vivo counting). SNs were defined as any node for which the count was > or = 10 times than the background count. SN identification was finally based on ex vivo data. Of the 101 patients, SNs could be identified in 80 patients (80%). Patients whose SNs could not be identified had a significantly lower FEV1/FVC than those with identifiable SNs (p=0.025). Twenty six patients (33%) had SN in the mediastinum, the distribution of which depended on the lobe, ie the #4 lymph node station in the right upper lobe, the #4 in the right middle lobe, the #4 and 7 in the right lower lobe, the #5 in the left upper lobe, and the #7 in the left lower lobe. One false negative SN was detected in 25 patients with N 1 or N 2 disease (4%). In vivo and ex vivo counting showed 73% concurrence for the identification of SNs in mediastinal lymph node stations, of which rate was significantly higher than 40% in hilar lymph node stations (p<0.001). Conclusion: The SNs were identifiable in 80% of lung cancer patients, with 4% false negative by using a Tc-99 m tin-colloid. SNs were difficult to identify in patients with a low level of FEV1/FVC, such as those with chronic obstructive pulmonary disease. The in vivo identification of mediastinal SNs was reliable as much as the ex vivo. Therefore, the in vivo identification of SNs in the mediastinum could be useful approach to guide mediastinal lymph node sampling or dissection.     

Detection of sentinel lymphatic region with activated carbon particles in lymph node dissection for colorectal cancer

Sentinel node navigation surgery (SNNS) for gastrointestinal cancer has been examined using various methods, but the SN concept has not been established. For 18 patients who had colorectal cancer without macroscopic nodal metastases, we had attempted to detect sentinel lymph nodes (SNs) with activated carbon particles and investigate the existence of nodal metastases histologically. SNs were detected in 17 of 18 patients. Thus activated carbon particles are a useful tracer for SN detection. Three patients had microscopic nodal metastases, and two had nodal metastases in SNs. Although the remaining patient was a false negative case which had nodal metastases in non-SNs only, the nodal metastases were within the sentinel lymphatic region (SLR) which includes SNs. It is considered possible to safely perform minimally invasive lymphadenectomy for colorectal cancer without macroscopic nodal metastases, by means of SLR dissection using activated carbon particles.     

Clinical significance of the anterosuperior lymph nodes along the common hepatic artery identified by sentinel node mapping in patients with gastric cancer

Background

The sentinel node (SN) concept is safely applied and validated in early gastric cancer. Gastric lymph nodes are divided into five basins with the main gastric arteries, and the anterosuperior lymph nodes with the common hepatic artery (No. 8a) are classified in the right gastric artery (r-GA) basin. Although No. 8a are considered to have lymphatic flow from the r-GA basin, there might be additional multiple lymphatic flows into No. 8a. The aim of this study is to analyze the lymphatic flows to No. 8a and to investigate the clinical significance of No. 8a as a sentinel node (SN No. 8a).

Methods

Four hundred and twenty-nine patients with cT1N0 or cT2N0 gastric cancer underwent SN mapping. We used technetium-99 tin colloid solution and blue dye as a tracer.

Results

We detected SN No. 8a in 35 (8.2 %) patients. In these patients, we detected SN No. 8a with SNs that belonged to the left gastric artery (l-GA) basin (66 %), right gastroepiploic artery (r-GEA) basin (54 %), and right gastric artery (r-GA) basin (46 %). In addition, celiac artery lymph nodes were detected as SNs significantly more frequently. Function-preserving surgery was performed significantly less often in patients with SN No. 8a (p =0.018).

Conclusions

We found that SN No. 8a seemed to have lymphatic flow not only from the r-GA basin, but also from the l-GA basin or r-GEA basin. When SN No. 8a are detected, we should be careful to perform function-preserving surgery, even in SN-negative cases.

     

Lymphoscintigraphy and gamma probe tracing in detecting breast cancer lymph node involvement: can they replace axillary lymph node dissection?

BACKGROUND: Axillary lymph node status is the most important pathological determinant of prognosis in early breast cancer. However, axillary lymph node dissection (ALND) performed for pathological assessment is not without costs and morbidity. Recently, radioisotope-guided sentinel node biopsy (SNB) has been proposed as a promising technique for staging breast cancer patients. AIM OF THE STUDY: In this study we report our experience (76 patients) in radioguided sentinel node (SN) biopsy in breast cancer. The study was divided into two phases: the first represents our learning curve, necessary to establish our guidelines for its use in clinical practice, while the second phase was aimed at assessing the feasibility of SN localization using preoperative lymphoscintigraphy and intraoperative gamma probe (GP) detection. METHODS: All patients underwent lymphoscintigraphy (LS) up to two hours after tracer delivery (99mTc-micro-nanocolloid, four i.d. injections of 200 microCi/200 miccroL around the primary lesion) 24 hours before surgery and GP tracing during surgery. Subsequently ALND was performed for pathological assessment. RESULTS: SNs were identified in 73/76 patients using LS and in 72/76 using GP. In one case the SN was detected by GP alone while in two cases GP was not able to locate the SN although it had been identified by means of LS. Thirty-three of these 73 patients had axillary node involvement. In 31/33 cases the SN was the only positive node. No positive nodes were found in the remaining 40 ALNDs where SNs were identified. Thus, according to our experience 40/73 ALNDs could have been avoided. SNB seems to be a very interesting technique but further experience in lymph node radioisotope tracing is needed.     

Laparoscopic sentinel lymph node procedure using a combination of patent blue and radioisotope in women with cervical carcinoma

BACKGROUND: The authors evaluated the feasibility of a laparoscopic sentinel lymph node (SN) procedure with combined radioisotopic and patent blue labeling in patients with cervical carcinoma. METHODS: Thirteen women (median age, 52.5 years) with cervical carcinoma (Stage Ia2 in 1 patient, Stage Ib1 in 10 patients, Stage Ib2 in 1 patient, and Stage IIa in 1 patient) underwent a laparoscopic SN procedure using an endoscopic gamma probe after both radioactive isotope and patent blue injections. After the procedure, all patients underwent complete laparoscopic pelvic lymphadenectomy and either laparoscopic radical hysterectomy (eight patients) or the Schauta-Amreich operation (five patients). RESULTS: SNs (mean, 1.7 SNs per patient; range, 1-3 SNs per patient) were identified in 12 of 13 patients. A median of 10.5 pelvic lymph nodes per patient (range, 4-17 pelvic lymph nodes per patient) were removed. No lymph node involvement was detected in SNs with hematoxylin and eosin staining. Immunohistochemical studies identified four metastatic SNs in two patients, with micrometastases in two SNs from the first patient and isolated tumor cells in two SNs from the second patient. No false-negative SN results were obtained. CONCLUSIONS: The results of this study suggest that SN detection with a combination of radiocolloid and patent blue is feasible in patients with cervical carcinoma. The combination of laparoscopy and the SN procedure permitted minimally invasive management of early-stage disease.     

Localization of the sentinel lymph node in breast cancer by combined lymphoscintigraphy, blue dye and intraoperative gamma probe

Axillary lymph node status represents the most important prognostic factor in patients with operable breast cancer. A severe limitation of this technique is the relatively high rate of false negative sentinel lymph nodes (>5%). We studied 284 patients suffering from breast cancer; 264 had T1 tumors (16 T1a, 37 T1b and 211 T1c), while 20 had T2 tumors. All patients underwent lymphoscintigraphy 18-h before surgery. At surgery, 0.5 mL of patent blue violet was injected subdermally, and the sentinel lymph node (SN) was searched by gamma probe and by the dye method. The surgically isolated SN was processed for intraoperative and delayed examinations. The SN was successfully identified by the combined radioisotopic procedure and patent blue dye technique in 278/284 cases (97.9%). Analysis of the predictive value of the SN in relation to the status of the axillary lymph nodes was limited to 191 patients undergoing standard axillary dissection irrespective of the SN status. Overall, 63/191 (33%) identified SNs were metastatic, the SN alone being involved in 37/63 (58.7%) patients; a positive axillary status with negative SN was found in 10/73 (13.7%) patients with metastatic involvement. In T1a-T1b patients the SN turned out to be metastatic in 9/53 patients (17.0%). In 7/9 patients the SN was the only site of metastasis, while in 2/9 patients other axillary lymph nodes were found to be metastatic in addition to the SN. None of the 44 patients in whom the SN proved to be non-metastatic showed any metastatic involvement of other axillary lymph nodes. Our results demonstrate a good predictive value of SN biopsy in patients with breast cancer; the predictive value was excellent in those subjects with nodules smaller than 1 cm.     

Axillary lymph-node dissection for positive sentinel nodes in breast cancer patients.

AIM: The aim was to identify a subset of breast cancer patient with positive sentinel nodes (SNs) for whom secondary axillary clearance would be unnecessary.METHODS: Between March 1999 and May 2001, 288 patients with T0-T2 breast cancer less than 3cm in diameter had SN detection either by a colorimetric method or using a combined technique. SNs were stained with haematoxylin and eosin (H&E). For all negative SNs, serial sections and immunochemistry (IHC) were performed. All patients with positive SNs underwent a complete axillary lymph node dissection. One hundred and twenty patients were SN positve.RESULTS: Non-sentinel node positivity (NSNP) was closely associated with the size of the tumour (14.3%, 54.1% and 51.8% for pT1a-b, pT1c and pT2 tumours respectively) and with the size of the SN metastasis: 15.9% IHC detected micrometastasis, 33.3% and 78.8% micro- and macrometastasis detected with H&E staining respectively. NSNP was found in 24.0% and 42.8% of patients with pT1c breast cancer and with micrometastasis detected by IHC and H&E staining. The node positivity rate reached 81.1% for pT1c lesions with macrometastasis in the SN. For the patients with pT2 breast cancer, these rates were 12.5% (IHC), 28.5% (H&E) 91.1% (macrometastasis).CONCLUSIONS: We are unable to isolate precisely a subset of patients for whom total axillary lymph node dissection would be unnecessary. A subset of 14 small tumours (<1cm diameter) demonstrated micrometastases in the SN without NSNP.     

Mapping the sentinel lymph node in malignant melanoma by blue dye, lymphoscintigraphy and intraoperative gamma probe

Eighty-eight consecutive patients (48 men and 40 women; mean age, 58.9 years; range, 16-84 years) with clinically localized cutaneous melanoma involving the trunk, extremities or head and neck underwent lymphatic mapping at our institution. The primary melanoma had a mean thickness of 2.74 mm (range, 0.95 to 9 mm). Patients were divided into two groups: group A (39 patients) underwent only vital blue dye (VBD) mapping, while group B (49 patients) underwent lymphatic mapping with VBD and radio-guided surgery (RGS) combined. In all patients 1-1.5 mL of VBD was injected subdermally around the biopsy scar 10-20 min before surgery. In group B 37 MBq in 150 microL of 99mTc-HSA nanocolloid was additionally injected intradermally 18 h before surgery (3-6 aliquots injected perilesionally). In all lymphatic basins where drainage was noted the sentinel lymph nodes (SNs) were identified and marked with a cutaneous marker. Final identification of the SN was then performed externally by a hand-held gamma probe. After the induction of anesthesia 0.5-1-0 mL of patent blue V dye was injected intradermally with a 25-gauge needle around the site of the primary melanoma. SNs were examined by routine hematoxylin and eosin (H&E) staining and immunohistochemistry. Patients with histologically positive SN(s) underwent standard lymph node dissection (SLND) in the involved lymph node basin. The SN was identified in 37/39 patients (94.9%) of group A and in 48/49 patients (98.0%) of group B. Blue dye mapping failed to identify the SN in 5 of the 88 patients (5.8%), while the radioisotope method failed in only 1 of 49 patients (2.0%). Similar results were obtained with the combined use of the two probes. The average number of SNs harvested was 1.9 per basin sampled, which does not differ significantly from the numbers reported by other authors. The SN was histologically positive in 18 patients (20.5%). None of the 12 patients with a Breslow thickness less than 1.5 mm had positive SNs, whereas 18 of the 77 patients (23.4%) with a Breslow index exceeding 1.5 mm showed metastatic SNs with H&E or immunohistochemistry. The latter all underwent SLND of the affected basin. In 10 patients (55.6%) the SN was the only site of tumor invasion; eight patients (44.4%) with positive SNs had one or more metastatic lymph nodes in the draining basin.     

Identification of sentinel node in breast cancer: comparison between peritumoral and periareolar injection of the radiopharmaceutical contrast medium

Axillary node status is the most important prognostic factor for patients with primary breast carcinoma. The sentinel node biopsy (SN) technique has received much attention as a possible alternative to axillary lymph node dissection. The aim of this study is to identify the sentinel node by periareolar and subdermal injection of the radiopharmaceutical in four points, independent of tumor topography and the presence of biopsies and/or previous surgery. The peritumoral injection technique was carried out for comparison purposes. This study was performed on 115 patients, divided into 2 groups: Group A (25 patients, peritumoral injection) and Group B (90 patients, injection in four points). All the SN biopsies were studied by both imprint cytology and H&E staining. Control axillary lymph-node dissection was followed in all patients from Group A and in these positive cases from Group B. Twenty-two out of the twenty-five (88%) SNs were identified in Group A. There was no false negative; the sensitivity and specificity were 100%. Eighty-two of the ninety (91.1%) SNs were identified in Group B. Lymphoscintigraphy showed radiopharmaceutical migration to axilla in 93.7% of the cases. Hotspot area was 10 to 100 times the intensity of the background radiation. Among the 92 cases with negative sentinel nodes at intraoperative examination (TP), the SN histopathology confirmed the absence of cancer cells in 89 patients, whereas 3 were positive for metastatic cells. This study shows that periareolar injection in four points seems to be a good lymphatic mapping method for SN identification. We suggest standardizing this site of injection to identify the SNs. More studies to confirm these findings are ongoing.     

Omitting axillary lymph node dissection in sentinel node negative breast cancer patients is safe: a long term follow-up analysis

PURPOSE: To evaluate the rate of axillary recurrences in sentinel node (SN) negative breast cancer patients without further axillary lymph node dissection (ALND). PATIENTS AND METHODS: Between October 1994 and November 1999, all SN negative breast cancer patients who did not underwent complete ALND were enrolled in this prospective study. SN biopsy was performed by using the triple technique which combines preoperative lymphoscintigraphy, intraoperative use of blue dye, and a handheld gamma probe to visualize and localize the SN. SNs were examined by standard hematoxylin and eosin (H&E) staining and immunohistochemistry (IHC). During the first year after surgery all patients underwent clinical examination at 3 monthly intervals. This follow-up interval was prolonged to 6 month after the first year. RESULTS: From the 104 patients, 93 (89%) underwent breast-conserving therapy; all remaining patients were treated by modified radical mastectomy. In 91 cases a ductal carcinoma and in 13 cases a lobular carcinoma was diagnosed. One SN was removed in 80, two SNs in 18, and three SNs in 2 patients. Twenty patients received systemic therapy based on age and primary tumor characteristics. After a median follow-up of 57 month only one axillary recurrence was observed. During follow-up three patients developed distant metastases. One of these patient with metastases to the bone is alive with evidence of disease. The remaining two patients died 9 and 19 month after surgery. CONCLUSIONS: Our long term follow-up results indicate that survival is excellent (98%) and local axillary control is adequate (99%) after omitting ALND in a group of 104 SN negative breast cancer patients.