Sentinel lymph node detection by combined dye-isotope technique and its predictive value for cervical lymph node metastasis in patients with lingual carcinoma.
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OBJECTIVES: To investigate the clinical value of combined dye-isotope technique in detecting sentinel lymph node (SLN) and to examine whether the characteristics of SLN accurately predict cervical lymph node metastasis in lingual carcinoma. METHODS: Thirty patients with lingual carcinoma without lymph metastasis were injected with a dose of about 18.5 MBq of (99m)Tc-SC (sulfur colloid), around the tumor tissues before surgery, and lymphoscintigraphy was performed 5, 10, 30, 60 minutes, and 6 hours after injection. In the following day, all patients were injected with isosulfan blue dye around the primary tumor during surgery to trace SLN and underwent standard cervical lymph node dissection after SLN dissection. The pathological results of SLN were compared with standard lymph node dissection for their ability to accurately predict the final pathological status of the cervical lymph nodes. RESULTS: SLN was successfully identified in 100% of the patients. Both positive and negative predictive values of SLN were 100%. The accuracy rate was 100%, and there were no false negatives. CONCLUSIONS: The detection of SLN using combined dye-isotope technique could accurately predict cervical lymph node metastasis in lingual carcinoma. (+info)
Factors affecting visualization rates of internal mammary sentinel nodes during lymphoscintigraphy.
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There is great variation in the reported frequency of internal mammary (IM) sentinel node (SN) visualization. We observed a marked increase in our IM SN detection rate after 2 factors were changed simultaneously: depth of perilesional injection and dose. METHODS: A retrospective review of 82 consecutive patients (group 1) was compared with 61 consecutive patients (group 2) after changing the depth of perilesional injections and dose. Both groups had perilesional injections of (99m)Tc-sulfur colloid followed by intradermal injections at the areolar cutaneous junction. For group 2, activity was increased in all patients scheduled for next-day surgery. Group 2 had perilesional injections on top of, beside, and just below the estimated level of the tumor in an infiltrative manner, versus injections just on top of and beside the tumor as performed for group 1. RESULTS: The rates of IM SN visualization were 4.9% (4/82) for group 1 and 23.0% (14/61) for group 2 (P < 0.003). IM SNs were hotter in group 2 than in group 1. The total number of IM SNs detected per patient was also higher for group 2 than for group 1: 2.1 and 1.2, respectively. In group 2, patients with small breasts had an IM SN visualization rate of 46.2%; those with medium breasts, 21.1%; and those with large breasts, 0% (P < 0.017). In group 2, primary lesions located medially had a higher rate of IM SN visualization than did lesions located laterally: 38.9% (7/18) and 16.2% (6/37), respectively (P = 0.066). Dose was not a statistically significant factor within group 2 or group 1 when comparing IM SN visualization rate for doses above or below the mean or median. CONCLUSION: Modification of just these 2 factors resulted in a striking change in our IM SN detection rates. The injection depth was the most important factor. Breast size had a marked effect on the probability of detecting IM SNs. This suggests that the variation in detection rates reported in the literature could be at least partly dependent on variations in these factors, among others. Many surgeons do not routinely harvest IM SNs, but information about their presence can potentially alter treatment decisions. (+info)
Lymphatic drainage routes of the gastric cardia visualized by lymphoscintigraphy.
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This study was undertaken to assess the feasibility of lymphoscintigraphy of the gastric cardia and to identify the incidence of paraesophageal lymphatic drainage, precluding total gastrectomy with esophagojejunostomy as a potentially curative therapy for gastric cardia cancer. METHODS: Ten patients scheduled for esophagectomy with high-grade dysplasia or with esophageal cancer at least 3 cm above the esophagogastric junction were enrolled in this study. Preoperatively, 111 MBq of(99m)Tc-labeled nanocolloid (n = 5) or sulfur colloid (n = 5) were injected into the submucosa of the tumor-free cardia. Subsequently, lymphoscintigraphy in combination with CT was obtained. Locoregional lymph node stations were measured for radioactivity by a gamma-probe intraoperatively and ex vivo in the resection specimen. RESULTS: In each patient, at least 1 radioactive lymph node station was detected. In total, 42 radioactive lymph node stations were detected by gamma-probe. Of those 42 areas, 38 (90%) were visible at preoperative lymphoscintigraphy. In the group of 5 patients in whom nanocolloid was used, a median of 2 (range, 1-4) node stations per patient was identified, whereas when sulfur colloid was administered a median of 6 (range, 4-8) active lymph node stations per patient could be detected (P < 0.002). Paraesophageal drainage was identified in 1 patient. CONCLUSION: Lymphoscintigraphy of the gastric cardia is feasible and can accurately determine the location of radioactive lymph nodes. Early paraesophageal lymphatic drainage is rare. (+info)
Standardization and quantification of radionuclide solid gastric-emptying studies.
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The purposes of this investigation were to standardize and validate a simple quantitative method for performing radionuclide solid gastric emptying that can be used for any dual-head gamma-camera and to establish reference values. METHODS: After eating a solid meal (egg sandwich) labeled with a radionuclide, 20 healthy volunteers (9 male, 11 female) underwent a 90-min gastric-emptying study performed with a triple-head gamma-camera. Two sets of 3 simultaneous projections were acquired sequentially for 30 s each: anterior, right posterior oblique (RPO), left posterior oblique (LPO), posterior, left anterior oblique (LAO), and right anterior oblique (RAO), and this sequence was repeated continuously for 90 min. Time-activity curves were generated using a gastric region of interest for each of the views as well as the conjugate-view geometric mean (GM) data for the anterior/posterior, LAO/RPO, and RAO/LPO combinations. Quantitative parameters were determined: percentage gastric emptying (%GE) at 90 min, half-time (min) based on an exponential fit, and clearance rate (%/min) based on a linear fit. Reference values were determined on the basis of a 95% confidence interval of the t distribution. The results were statistically analyzed and compared. RESULTS: The %GE reference values were greater for the anterior/posterior GM (>or=33%) than for the LAO (>or=31%) and anterior (>or=30%) GMs. The 3 %GE GM methods, the 3 exponential-fit GM methods, and the 3 linear-fit GM methods had high correlation coefficients (r >or= 0.874), and with only a single exception, there was no statistical difference among them. The LAO method and LAO/RPO GM mean method correlated strongly (r = 0.900) and had similar mean values (52% vs. 51%) and reference values (29% vs. 30%). All 3 methods of GM quantification also correlated strongly, and there was no significant difference among them. CONCLUSION: We have described and validated a simple method for radionuclide solid gastric emptying that can be used with a dual-head gamma-camera. We recommend the anterior/posterior GM method and have established reference values (>or=33%). (+info)
A prospective evaluation of radiocolloid and immunohistochemical staining in colon carcinoma lymphatic mapping.
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BACKGROUND: Although the utility of lymphatic mapping (LM) and sentinel lymph node (SLN) biopsy in patients with melanoma and breast carcinoma has been well documented, this same is not true for patients with colon carcinoma. The authors previously reported a high false-negative rate for SLN biopsy in patients with colon carcinoma using isosulfan blue dye alone. The objective of the current study was to determine whether radiocolloid would increase the sensitivity of LM/SLN biopsy in patients with colon carcinoma. METHODS: The authors performed LM on 57 patients with colon carcinoma using both isosulfan blue dye and radiocolloid. The SLN(s) were identified by either their blue color or by increased radioactivity. The SLNs then underwent both routine histologic sectioning and immunohistochemical (IHC) staining for cytokeratins. RESULTS: An SLN was identified in 56 patients (98%). Radiocolloid was able to identify only 1 additional positive SLN (9%). Overall, it was found that the disease had metastasized to the lymph nodes in 22 patients, even though there was no evidence of disease in the SLN(s) in 11 of those 22 patients on routine histologic sectioning (false-negative rate, 50%; sensitivity, 50%). In five patients, IHC of the SLN was the only indicator of metastatic disease. The inclusion of IHC-positive SLNs in these calculations would decrease the false-negative rate to 17% and would increase the sensitivity of SLN biopsy to 83%. CONCLUSIONS: In the current study, the addition of radiocolloid did not increase the sensitivity of detection of positive SLN(s) compared with the use of isosulfan blue dye alone. IHC of the SLN potentially may increase the sensitivity of LM and reduce the false-negative rate. However, the long-term prognostic significance of IHC in patients with colon carcinoma remains controversial. (+info)
OBJECTIVE: To determine the identification of sentinel lymph node biopsy (SLNB) in breast cancer patients after intraoperative injection of unfiltered technetium-99m sulfur colloid (Tc-99) and blue dye. BACKGROUND: SLNB guided by a combination of radioisotope and blue dye injection yields the best identification rates in breast cancer patients. Radioisotope is given preoperatively, without local anesthesia, whereas blue dye is given intraoperatively. We hypothesized that, because of the rapid drainage noted with the subareolar injection technique of radioisotope, intraoperative injection would be feasible and less painful for SLN localization in breast cancer patients. METHODS: Intraoperative injection of Tc-99 and confirmation blue dye was performed using the subareolar technique for SLNB in patients with operable breast cancer. The time lapse between injection and axillary incision, the background count, the preincision and ex vivo counts of the hot nodes, and the axillary bed counts were documented. The identification rate was recorded. RESULTS: Ninety-six SLNB procedures were done in 88 patients with breast cancer employing intraoperative subareolar injection technique for both radioisotope (all 96 procedures) and blue dye (93 procedures) injections. Ninety-three (97%) procedures had successful identification; all SLNs were hot; 91 (of 93 procedures with blue dye) were blue and hot. The mean time from radioisotope injection to incision was 19.9 minutes (SD 8.5 minutes). The mean highest 10 second count was 88,544 (SD 55,954). Three of 96 (3%) patients with failure of localization had previous excisional biopsies: 1 circumareolar and 2 upper outer quadrant incisions that may have disrupted the lymphatic flow. CONCLUSION: Intraoperative subareolar injection of radioisotope rapidly drains to the SLNs and allows immediate staging of the axilla, avoiding the need to coordinate diagnostic services and a painful preoperative procedure. (+info)
Sentinel lymph node biopsy in breast cancer patients after overnight migration of radiolabelled sulphur colloid.
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OBJECTIVE: To evaluate the performance and feasibility of sentinel lymph node biopsy in breast cancer patients using technetium-99m (99mTc) sulphur colloid and gamma probe. METHODS: From May 2000 to March 2001, 70 patients with a tumour less than 5 cm with clinically negative axillary lymph nodes underwent sentinel node biopsy followed by standard axillary dissection. 99mTc sulphur colloid was injected around the primary tumour the day before surgery and a gamma probe was used to detect the sentinel lymph node during the surgical procedure. Sentinel lymph node biopsy was compared with standard axillary dissection for its ability to accurately reflect the final pathological status of the axillary nodes. RESULTS: The sentinel lymph node was successfully identified in 67 of 70 patients (95.71%). The number of sentinel lymph nodes ranged from 1-5 (mean 1.5) and non-sentinel nodes ranged from 5-22 (mean 13.3). Of the 67 patients with successfully identified sentinel lymph nodes, 43.28% (29/67) were histologically positive. Sensitivity of the sentinel lymph node to predict axilla was 82.75%; specificity was 100%. Positive and negative predictive values were 100% and 88.3% respectively. The sentinel lymph node was falsely negative in five patients, yielding an accuracy of 92.53%. Sentinel lymph node biopsy was more accurate for T1 tumours than for T2 tumours. CONCLUSIONS: The gamma probe guided method after overnight migration of 99mTc sulphur colloid is technically feasible for detecting sentinel lymph nodes in most breast cancer patients, accurately predicting the axillary lymph node status, and appears more accurate for T1 lesions than for larger lesions. This minimally invasive axillary staging procedure represents a major advance in the surgical treatment of breast cancer. (+info)
Diagnosing infection in the failed joint replacement: a comparison of coincidence detection 18F-FDG and 111In-labeled leukocyte/99mTc-sulfur colloid marrow imaging.
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The objectives of this study were to investigate (18)F-FDG imaging, using a coincidence detection system, for diagnosing prosthetic joint infection and to compare it with combined (111)In-labeled leukocyte/(99m)Tc-sulfur colloid marrow imaging in patients with failed lower extremity joint replacements. METHODS: Fifty-nine patients--with painful, failed, lower extremity joint prostheses, 40 hip and 19 knee--who underwent (18)F-FDG, labeled leukocyte, and bone marrow imaging, and had histopathologic and microbiologic confirmation of the final diagnosis, formed the basis of this investigation. (18)F-FDG images were interpreted as positive for infection using 4 different criteria: criterion 1: any periprosthetic activity, regardless of location or intensity; criterion 2: periprosthetic activity on the (18)F-FDG image, without corresponding activity on the marrow image; criterion 3: only bone-prosthesis interface activity, regardless of intensity; criterion 4: semiquantitative analysis--a lesion-to-background ratio was generated, and the cutoff value yielding the highest accuracy for determining the presence of infection was determined. Labeled leukocyte/marrow images were interpreted as positive for infection when periprosthetic activity was present on the labeled leukocyte image without corresponding activity on the marrow image. RESULTS: Twenty-five (42%) prostheses, 14 hip and 11 knee, were infected. The sensitivity, specificity, and accuracy of (18)F-FDG, by criterion, were as follows: criterion 1: 100%, 9%, 47%; criterion 2: 96%, 35%, 61%; criterion 3: 52%, 44%, 47%; criterion 4: 36%, 97%, 71%. The sensitivity, specificity, and accuracy of labeled leukocyte/marrow imaging were 100%, 91%, and 95%, respectively. WBC/marrow imaging, which was more accurate than any of the (18)F-FDG criteria for all prostheses, as well as for hips and knees separately, was significantly more sensitive than criterion 3 (P < 0.001) and criterion 4 (P < 0.001) and was significantly more specific than criterion 1 (P < 0.001), criterion 2 (P < 0.001), and criterion 3 (P < 0.001). CONCLUSION: Regardless of how the images are interpreted, coincidence detection-based (18)F-FDG imaging is less accurate than, and cannot replace, labeled leukocyte/marrow imaging for diagnosing infection of the failed prosthetic joint. (+info)