Does recombinant human thyrotropin-stimulated positron emission tomography with [18F]fluoro-2-deoxy-D-glucose improve detection of recurrence of well-differentiated thyroid carcinoma in patients with low serum thyroglobulin?

BACKGROUND: Thyrotropin (TSH) stimulates thyrocyte metabolism, glucose transport, and glycolysis. The interest in using recombinant human TSH (rhTSH) stimulation of fluoro-2-deoxy-D-glucose (FDG) with positron emission tomography (PET) has been shown, but mainly for patients with high serum thyroglobulin (Tg) concentration. We evaluated the use of rhTSH-stimulated PET-FDG in patients with low serum Tg concentration. METHODS: Sixty-one PET/computed tomography (CT)-FDG (Biograph Sensation 16; Siemens Medical Solutions, Knoxville, TN) were performed in 44 patients (28 women and 16 men; 51 +/- 16 years) with positive Tg levels, negative or no contributive iodine-131 whole-body scintigraphy results, and no contributive morphological imaging results (ultrasound, magnetic resonance imaging, and CT). Thirty-eight patients had papillary carcinoma and six had follicular thyroid carcinoma. All patients had previously undergone total thyroidectomy and postoperative iodine ablation of thyroid bed remnant tissue. The rhTSH-stimulated PET/CT-FDG (5 MBq/kg) was performed after two 0.9 mg intramuscular doses of rhTSH (Thyrogen; Genzyme) which were administered 48 and 24 hours before imaging, while patients continued levothyroxine (LT(4)). Blood sampling was performed immediately before FDG injection for measurement of serum TSH and Tg concentrations (TSH(1) and Tg(1)) and after 48 hours (TSH(2) and Tg(2)). PET/CT-FDG findings were compared with the Tg: (i) at the initial iodine treatment during T(4) withdrawal (Tg(ini)), (ii) under T(4) (Tg(T4)) within 3 months before the PET/CT-FDG, (iii) with Tg(1), and (iv) with Tg(2). PET/CT-FDG findings were correlated with the findings of histology, iodine-131 whole-body scintigraphy, morphological imaging, or clinical follow-up. RESULTS: The mean Tg(ini) was 785 +/- 2707 microg/L for a TSH of 73 +/- 64 mU/L. The mean Tg(T4) was 7 +/- 15 microg/L (T(4) = 195 +/- 59 microg/day; mean TSH of 0.24 +/- 0.57 mU/L). Among the 44 patients, PET/CT-FDG findings were positive in 20 and negative in 24. Among the 61 PET/CT-FDG, 25 PET/CT-FDG were positive (41%). Among the 25 positive PET, the Tg(T4) values were less than 10 microg/L for 19, including 9 true-positive patients (20% of the 44 patients). There was no difference of PET/CT-FDG results (positive vs. negative) as related to the serum Tg concentrations (p = 0.99 for Tg(ini), p = 0.95 for Tg(T4), p = 0.07 for Tg(1), and p = 0.42 for Tg(2)). No relation was observed with PET/CT-FDG results and initial tumor size (p = 0.52) or node metastasis (p = 0.14). CONCLUSION: In the diagnosis of recurrent disease in patients with differentiated thyroid carcinoma and low Tg level, the sensitivity of rhTSH-stimulated PET/CT-FDG seems to be low and no correlation was observed between PET/CT-FDG findings and Tg level. However, positive PET-FDG results have been found in 9/44 (20%) patients with serum Tg levels lower than 10 microg/L. Therefore, this series shows that a cutoff value of 10 microg/L for the Tg under T(4) is probably not the best criteria to select patient candidates for PET/CT-FDG examination to detect the recurrence of differentiated thyroid carcinoma.

[Standards, Options and Recommendations 2000: non metastatic endometrial cancer]. / Standards, Options et Recommendations 2000: cancer de l'endomètre, stades non métastatiques (rapport abrégé).

CONTEXT: The "Standards, Options and Recommendations" (SOR) project, started in 1993, is a collaboration between the Federation of French Cancer Centers (FNCLCC), the 20 French Cancer Centers, and specialists from French Public Universities, General Hospitals and Private Clinics, and some specialists learned societies. The main objective is the development of clinical practice guidelines to improve the quality of health care and the outcome of cancer patients. The SORs are developed using a methodology based on a literature review and critical appraisal by a multidisciplinary group of experts, with feedback from specialists in cancer care delivery. OBJECTIVES: To develop clinical practice guidelines for the management of patients with carcinoma of the endometrium according to the definitions of the Standards, Options and Recommendations project. METHODS: Data were identified by searching Medline , web sites, and using the personal reference lists of members of the expert groups. Once the guidelines were defined, the document was submitted for review to 63 independent reviewers. RESULTS: The main recommendations for the management of carcinoma of the endometrium are: 1) The diagnosis of carcinoma of the endometrium is based on biopsy and histological examination. However, as first intention, the first elements for diagnosis can be obtain from a hysterography, or particularly, a endovaginal ultrasound examination. Ultrasound allows locoregional metastases to be detected, the CT scan allows the lymph node involvement to be assessed and magnetic resonance imaging allows the myometrium invasion to be evaluated. 2) For the majority of patients, surgery is the initial treatment, both for localised and advanced-stage carcinomas. The excised sample can be used for pathological analysis and tumour staging, using the FIGO (Fédération internationale de gynécologie obstétrique) classification. Surgery for patients with stage I and II carcinomas involves total extrafascial hysterectomy with bilateral salpingo-oophorectomy., In patients with stage III and IV carcinomas radical surgery should be performed, when possible. If this is not possible, then surgery should be as complete as possible and be associated with a complementary treatment. In patients with the most advanced carcinomas, tumour reduction by surgery should be performed. 3) Complementary treatment includes external-beam radiotherapy and brachytherapy. The decision concerning the extent and type of irradiation should be taken taking into consideration the stage and the prognostic factors present. For patients with stage I and II carcinoma, complementary treatment with brachytherapy can be performed, if the myometrium invasion is not deep, or if the carcinoma is grade 2 or 3. Patients with stage III carcinomas can be treated with pelvic or abdominal-pelvic complementary irradiation. In patients that cannot undergo surgery, exclusive radiotherapy can be performed. 4) In the absence of any symptoms, surveillance should include a general clinical and gynaecological examination. All patients with symptoms should undergo an additional work-up.