Introduction. The purpose of this study was to evaluate the feasibility of using 99mTc-TG SPECT in the detection and staging of malignant lymphoma.Materials and methods.Fifteen patients with newly diagnosed malignant lymphoma underwent 99mTc-TG SPECT. Six patients had Hodgkin’s lymphoma and 9 patients had aggressive forms of non-Hodgkin’s lymphoma (NHL): diffuse large B-cell lymphoma (7 cases), B-cell follicular lymphoma (1 case), and lymphoma from B cells in the marginal zone (1 case). Stage IIA was diagnosed in 5 patients, stage IIB in 1, stage IIIA in 1, stage IVA in 4 and stage IVB in 4 patients.Results.Pathological 99mTc-TG uptake in lymph nodes was observed in 14 (93 %) of the 15 patients. In one patient, the enlarged submandibular lymph node (16 mm in size) detected by CT was not visualized by 99mTc-TG SPECT. This false-negative result was likely to be associated with increased accumulation of 99mTc-TG in the oropharyngeal region. There were difficulties in the visualization of paratracheal, para-aortic and paracardial lymph nodes. These difficulties were associated with a high blood background activity, which persisted even 4 hours after intravenous injection of 99mTc-TG. Software-based SPECT and CT image fusion allowed visualization of these lymph nodes. The pathological 99mTc-TG accumulation in axillary, supraclavicular, infraclavicular and cervical lymph nodes was observed most often. Extranodal involvement was seen in 9 patients. 99mTc-TG SPECT identified extranodal hypermetabolic lesions in 7 (78 %) of these patients. In one patient, hypermetabolic lesion in the lung detected by 99mTc-TG SPECT was not detected on CT image. CT identified bone marrow involvement in the pelvic and scapula in 1 patient. The use of 99mTc-TG SPECT allowed the visualization of hypermetabolic bone tissue lesions in this patient (Figure 4). In addition, in a patient with intact bone tissue on CT, 99mTc-TG SPECT detected hypermetabolic lesions in the iliac bone.Conclusion.99mTc-1-Thio-D-glucose demonstrated increased uptake in nodal and extranodal sites of lymphoma. The results indicate that SPECT with 99mTc-1-Thio-D-glucose is a feasible and useful tool in the detection and staging malignant lymphoma.
Despite the high efficiency of the use of 18F-FDG PET in the diagnosis, staging, monitoring and prognosis of treatment of lymphomas, the use of this method in our country is limited due to the high cost and the insufficient number of PET-centers. In this regard, it seems relevant to conduct research aimed at using known and developing original radiopharmaceuticals for lymphoma imaging with single-photon emission computed tomography (SPECT). In this review, the main radiopharmaceuticals (67Ga-citrate, 201Tl, 199Tl, 99mTc-methoxy-isobutyl-isonitrile, 99mTc-tetrofosmin, 111In-octreotide), which are possible for SPECT lymphoma imaging are shown. Also mechanisms of their action, the possibility of their using for various morphological variants of lymphomas and localizations of the lesion are described. In addition, the results of the use of an innovative radiopharmaceutical based on glucose - 99mTc-1-thio-D-glucose, which is promising for diagnostics, staging and monitoring of lymphoproliferative diseases, are presented.
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