F. Giammarile scite author profile

PurposeThe radionuclide bone scan is the cornerstone of skeletal nuclear medicine imaging. Bone scintigraphy is a highly sensitive diagnostic nuclear medicine imaging technique that uses a radiotracer to evaluate the distribution of active bone formation in the skeleton related to malignant and benign disease, as well as physiological processes.MethodsThe European Association of Nuclear Medicine (EANM) has written and approved these guidelines to promote the use of nuclear medicine procedures of high quality.ConclusionThe present guidelines offer assistance to nuclear medicine practitioners in optimizing the diagnostic procedure and interpreting bone scintigraphy. These guidelines describe the protocols that are currently accepted and used routinely, but do not include all existing procedures. They should therefore not be taken as exclusive of other nuclear medicine modalities that can be used to obtain comparable results. It is important to remember that the resources and facilities available for patient care may vary.

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18F-NaF PET/CT: EANM procedure guidelines for bone imaging

Beheshti

Mottaghy

Payche

et al. 2015

Eur J Nucl Med Mol Imaging

130

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The aim of this guideline is to provide minimum standards for the performance and interpretation of (18)F-NaF PET/CT scans. Standard acquisition and interpretation of nuclear imaging modalities will help to provide consistent data acquisition and numeric values between different platforms and institutes and to promote the use of PET/CT modality as an established diagnostic modality in routine clinical practice. This will also improve the value of scientific work and its contribution to evidence-based medicine.

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OncoPET_DB: A Freely Distributed Database of Realistic Simulated Whole Body 18F-FDG PET Images for Oncology

Tomeï

Reilhac

Visvikis

et al. 2010

IEEE Trans. Nucl. Sci.

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High and Low Grade Oligodendrogliomas (ODG): Correlation of Amino-Acid and Glucose Uptakes Using PET and Histological Classifications

et al. 2004

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Classification and treatment strategy of oligodendrogliomas (ODG) remain controversial. Imaging relies essentially on contrast enhancement using CT or MRI. The aim of our study was to use positron emission tomography (PET) using [18F]-flurodeoxyglucose (FDG) and [11C]-L-methyl-methionine (MET) to evaluate metabolic characteristics of ODG. We studied 19 patients with proven ODG, comparing standardized uptake values (SUV) and maximal tumor/contralateral normal tissues ratios (T/N). Imaging findings were compared with WHO, Smith and Daumas-Duport classifications. Uptake of FDG was decreased only in 8 patients, independently of grading, while MET uptake was always increased. MET uptake was significantly higher for high grade tumors grouped according to Smith or Daumas-Duport classifications, while no significant difference in MET uptake was found when using WHO classification. A different correlation was found between FDG and MET uptakes in normal tissues and high grade tumors. A trend for improved progression free survival was found for tumors that lacked contrast enhancement on MRI or those showing low FDG or MET uptake. In conclusion, MET appeared more sensitive than FDG to detect proliferation in ODG. The preferential protein metabolism, already noticeable for low-grade tumor, correlated with glucose metabolism and helped to separate, in vivo, high and low grade tumors.

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F. Giammarile

The EANM practice guidelines for bone scintigraphy

18F-NaF PET/CT: EANM procedure guidelines for bone imaging

OncoPET_DB: A Freely Distributed Database of Realistic Simulated Whole Body 18F-FDG PET Images for Oncology

High and Low Grade Oligodendrogliomas (ODG): Correlation of Amino-Acid and Glucose Uptakes Using PET and Histological Classifications

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