The aim of this study was to evaluate the clinical use of fluorine-18 fluorodeoxyglucose positron emission tomography (FDG-PET) in acute and chronic osteomyelitis and inflammatory spondylitis. The study population comprised 21 patients suspected of having acute or chronic osteomyelitis or inflammatory spondylitis. Fifteen of these patients subsequently underwent surgery. FDG-PET results were correlated with histopathological findings. The remaining six patients, who underwent conservative therapy, were excluded from any further evaluation due to the lack of histopathological data. The histopathological findings revealed osteomyelitis or inflammatory spondylitis in all 15 patients: seven patients had acute osteomyelitis and eight patients had chronic osteomyelitis or inflammatory spondylitis. FDG-PET yielded 15 true-positive results. The tracer uptake correlated with the histopathological findings in each case. Bone scintigraphy performed in 11 patients yielded ten true-positive results and one false-negative result. Follow-up carried out on two patients revealed normal or clearly reduced tracer uptake, which correlated with a normalisation of clinical data. In early postoperative follow-up it was impossible to differentiate between postsurgical reactive changes and further infection using FDG-PET. It is concluded that acute and chronic osteomyelitis of the peripheral as well as the central skeleton can be detected using FDG-PET. Osteomyelitis can be differentiated from soft tissue infection surrounding the bone. Unlike computed tomography and magnetic resonance imaging, FDG-PET is not affected by metal implants used for fixing fractures. FDG-PET demonstrated promising initial results with respect to treatment monitoring. Nevertheless, in the early postoperative phase FDG-PET seems to be of limited value owing to unspecific tracer uptake.
Radiotherapy can cause infertility in both men and women. However, few data are available concerning the effects of radioiodine therapy for thyroid carcinoma on testicular function. We investigated 25 men (age 23-73 years) with differentiated thyroid carcinoma in a longitudinal prospective trial. Follicle-stimulating hormone (FSH), inhibin B, luteinising hormone (LH) and testosterone were measured before (n = 25) and 3 months (n = 11), 6 months (n = 18), 12 months (n = 22), and 18 months (n = 18) after radioiodine therapy [radioiodine dose (mean +/- SEM): 9.8+/-0.89 GBq]. Before therapy, FSH was 5.4+/-0.77 IU/l; it increased significantly (P<0.001) to 21.3+/-2.4 IU/l after 6 months and fell to 7.4+/-1.3 IU/l after 18 months (normal range: 1.8-9.2 IU/l). Inhibin B was significantly decreased (P<0.001) from 178+/-25.3 pg/ml before therapy to 22.2+/-5.5 pg/ml after 3 and 29.4+/-5.7 pg/ml after 6 months and rose to 154+/-23.3 pg/ml after 18 months (normal range 75-350 pg/ml). LH and testosterone were within the normal range during the whole study (1.6-9.2 IU/l and 10.4-34.7 nmol/l, respectively). LH was significantly increased (P<0.001) from 2.8+/-0.33 IU/l before therapy to 5.9+/-0.69 IU/l 6 months after therapy and then fell slowly to 4.0+/-0.45 IU/l after 18 months. Total testosterone was significantly increased (P<0.01) from 12.8+/-0.99 nmol/l at baseline to 19.8+/-1.7 nmol/l after 12 months and 19.6+/-1.7 nmol/l after 18 months. The testosterone/LH ratio (normal range: 3.3-17.9 nmol/IU) fell from 5.8+/-0.66 nmol/IU to 3.0+/-0.36 nmol/IU after 3 months (P<0.01); it remained close to the latter value after 6 months (3.4+/-0.49 nmol/IU) and then rose to 5.5+/-0.6 nmol/IU after 18 months. In conclusion, 3 and 6 months after radioiodine therapy all patients showed elevated FSH and decreased inhibin B levels, reflecting severely impaired spermatogenesis. At the same time a compensated insufficiency of the Leydig cell function was observed. Eighteen months after the last radioiodine therapy, mean values of gonadal function had completely recovered.
PCNSLs demonstrate high FDG uptake and can be diagnosed by FDG-PET with high sensitivity. It seems that FDG-PET is suitable for early therapeutic monitoring after chemotherapy.
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