Abstract

The choice of treatment method for genitourinary malignancies is highly- dependent upon the local extent of the tumors. Aggressive surgical procedures with the potential for morbidity or mortality may be inappropriate if regional lymph node or more distant metastases are present. While current cross-sectional imaging methods such as CT or MRI are very good, they cannot detect small foci of metastatic tumor in lymph nodes with satisfactory sensitivity to avoid surgery. Since we have shown that several genitourinary cancers have increased glucose utilization and accumulate FDG avidly, this proposal evaluates the efficacy of PET scanning with 2-deoxy-2 [18F] fluoro-d-glucose (FDG) for the imaging of regional metastases of several genitourinary malignancies. Four different genitourinary tumors will be evaluated: Patients with newly diagnosed bladder cancer scheduled for radical cystectomy and nodal dissection will undergo FDG PET scans of the regional draining lymph nodes of the bladder preoperatively. Patients with newly diagnosed renal masses believed to represent renal cancer will have PET scans performed preoperatively to assess the local extent of disease. Patients with newly diagnosed prostate cancer scheduled for radical prostatectomy will similarly undergo FDG PET scanning prior to surgical excision of the primary tumor and lymph node sampling. Finally, patients with a history of nonseminomatous testicular cancers who have residual masses post-chemotherapy that are scheduled for resection will undergo FDG PET prior to surgical of the mass. Patients with all four tumor types will also receive an i.v. tracer FDG injection immediately prior to surgery so that the uptake of FDG can be assessed in the biopsy specimens containing tumor-involved and normal tissues.Routine cross-sectional imaging studies and PET scans will be compared to enhance the accuracy of the PET staging procedure. Tumor histology and FDG uptake in the resected tumors will be correlated. These studies should allow us to determine the role of FDG PET in the role of FDG PET scanning in the imaging management of patients with genitourinary malignancies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA053172-03
Application #
3197975
Study Section
Diagnostic Radiology Study Section (RNM)
Project Start
1991-03-01
Project End
1996-02-29
Budget Start
1993-03-01
Budget End
1994-02-28
Support Year
3
Fiscal Year
1993
Total Cost
Indirect Cost

  Institution

Name
University of Michigan Ann Arbor
Department
Type
Schools of Medicine
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109

  Publications

Minn, H; Clavo, A C; Fisher, S J et al. (2000) Effect of nitroimidazole sensitizers on in vitro glycolytic metabolism of hypoxic squamous cell carcinoma. Acta Oncol 39:199-205
Torizuka, T; Zasadny, K R; Kison, P V et al. (2000) Metabolic response of non-Hodgkin's lymphoma to 131I-anti-B1 radioimmunotherapy: evaluation with FDG PET. J Nucl Med 41:999-1005
Sugawara, Y; Zasadny, K R; Grossman, H B et al. (1999) Germ cell tumor: differentiation of viable tumor, mature teratoma, and necrotic tissue with FDG PET and kinetic modeling. Radiology 211:249-56
Sugawara, Y; Eisbruch, A; Kosuda, S et al. (1999) Evaluation of FDG PET in patients with cervical cancer. J Nucl Med 40:1125-31
Sugawara, Y; Gutowski, T D; Fisher, S J et al. (1999) Uptake of positron emission tomography tracers in experimental bacterial infections: a comparative biodistribution study of radiolabeled FDG, thymidine, L-methionine, 67Ga-citrate, and 125I-HSA. Eur J Nucl Med 26:333-41
Shreve, P D; Anzai, Y; Wahl, R L (1999) Pitfalls in oncologic diagnosis with FDG PET imaging: physiologic and benign variants. Radiographics 19:61-77;quiz 150-1
Brown, R S; Leung, J Y; Kison, P V et al. (1999) Glucose transporters and FDG uptake in untreated primary human non-small cell lung cancer. J Nucl Med 40:556-65
Sugawara, Y; Zasadny, K R; Neuhoff, A W et al. (1999) Reevaluation of the standardized uptake value for FDG: variations with body weight and methods for correction. Radiology 213:521-5
Anzai, Y; Minoshima, S; Wolf, G T et al. (1999) Head and neck cancer: detection of recurrence with three-dimensional principal components analysis at dynamic FDG PET. Radiology 212:285-90
Sugawara, Y; Fisher, S J; Zasadny, K R et al. (1998) Preclinical and clinical studies of bone marrow uptake of fluorine-1-fluorodeoxyglucose with or without granulocyte colony-stimulating factor during chemotherapy. J Clin Oncol 16:173-80

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