Mariza Vorster1, Alex Maes2, Christophe van de Wiele3, Mike Sathekge4. 1. Department of Nuclear Medicine, Steve Biko Academic Hospital, University of Pretoria, Pretoria, South Africa. 2. Department of Nuclear Medicine AZ Groeninge, Reepkaai, Kortrijk, Belgium. 3. Department of Nuclear Medicine, University Hospital Ghent, Ghent, Belgium. 4. Department of Nuclear Medicine, Steve Biko Academic Hospital, University of Pretoria, Pretoria, South Africa - mike.sathekge@up.ac.za.
Abstract
BACKGROUND: Tuberculosis remains an important cause of morbidity and mortality worldwide, the diagnosis, staging and treatment response evaluation of which remains sub-optimal. We evaluated PET/CT imaging with a novel tracer, 68Ga-citrate, in this setting. METHODS: Thirteen patients with tuberculosis underwent PET/CT imaging with 68Ga-citrate. Tuberculosis was diagnosed with bacteriological or histopathology studies (N.=8) or based on a combination of clinical data, biochemistry and imaging (N.=5). PET images were analyzed qualitatively and semi-quantitatively and compared to CT findings. RESULTS: All 13 patients demonstrated abnormal tracer accumulation in the lungs or extra-pulmonary or both. 68Ga-citrate accumulated in every lung lesion noted on CT in six cases (46%). In seven cases (54%) some of the lung lesions noted on CT were not 68Ga-citrate avid, which is suggestive of non-active tuberculous lesions. Ten patients (77%) demonstrated extrapulmonary involvement, which included various lymph node groups, skeletal lesions, pleural-, splenic- and gastrointestinal tract involvement. Detection of extra-pulmonary involvement was higher on PET compared to CT (more lesions detected) in eight cases (80%). CONCLUSIONS: 68Ga-citrate PET accumulates in both pulmonary and extra-pulmonary tuberculous lesions and may provide a way of distinguishing active from inactive lesions for treatment response evaluation. 68Ga-citrate PET may be superior to CT in the detection of extrapulmonary involvement.
BACKGROUND:Tuberculosis remains an important cause of morbidity and mortality worldwide, the diagnosis, staging and treatment response evaluation of which remains sub-optimal. We evaluated PET/CT imaging with a novel tracer, 68Ga-citrate, in this setting. METHODS: Thirteen patients with tuberculosis underwent PET/CT imaging with 68Ga-citrate. Tuberculosis was diagnosed with bacteriological or histopathology studies (N.=8) or based on a combination of clinical data, biochemistry and imaging (N.=5). PET images were analyzed qualitatively and semi-quantitatively and compared to CT findings. RESULTS: All 13 patients demonstrated abnormal tracer accumulation in the lungs or extra-pulmonary or both. 68Ga-citrate accumulated in every lung lesion noted on CT in six cases (46%). In seven cases (54%) some of the lung lesions noted on CT were not 68Ga-citrate avid, which is suggestive of non-active tuberculous lesions. Ten patients (77%) demonstrated extrapulmonary involvement, which included various lymph node groups, skeletal lesions, pleural-, splenic- and gastrointestinal tract involvement. Detection of extra-pulmonary involvement was higher on PET compared to CT (more lesions detected) in eight cases (80%). CONCLUSIONS: 68Ga-citrate PET accumulates in both pulmonary and extra-pulmonary tuberculous lesions and may provide a way of distinguishing active from inactive lesions for treatment response evaluation. 68Ga-citrate PET may be superior to CT in the detection of extrapulmonary involvement.
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