Tumor dosimetry using 177Lu: influence of background activity, measurement method and reconstruction algorithm

Background Image-based tumor dosimetry after radionuclide therapy, using the isotope 177 Lu, finds application e.g., for tumor-to-organ dose comparison and for dose response evaluation. When the tumor extent is not much larger than the image resolution, and when 177 Lu is found in nearby organs or o...

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Bibliographic Details
Published in:EJNMMI physics 2023-06, Vol.10 (1), p.39-39, Article 39
Main Author: Staanum, Peter Frøhlich
Format: Article
Language:English
Subjects:
Algorithms
Applied and Technical Physics
Computational Mathematics and Numerical Analysis
Criteria
Diameters
Dosimeters
Dosimetry
Engineering
Image reconstruction
Image resolution
Imaging
Lu-177
Lutetium isotopes
Measurement methods
Medicine
Medicine & Public Health
Nuclear Medicine
Original Research
Phantom
Radiation therapy
Radioisotopes
Radiology
Radionuclide therapy
Tumor dosimetry
Tumors
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Summary:Background Image-based tumor dosimetry after radionuclide therapy, using the isotope 177 Lu, finds application e.g., for tumor-to-organ dose comparison and for dose response evaluation. When the tumor extent is not much larger than the image resolution, and when 177 Lu is found in nearby organs or other tumors, an accurate determination of tumor dose is particularly challenging. Here a quantitative evaluation of three different methods for determining the 177 Lu activity concentration in a phantom is performed, and the dependence on a variety of parameters is described. The phantom (NEMA IEC body phantom) has spheres of different size in a background volume, and sphere-to-background 177 Lu activity concentration ratios of infinity, 9.5, 5.0 and 2.7 are applied. The methods are simple to implement and well-known from the literature. They are based on (1) a large VOI encompassing the whole sphere, without background activity and with volume information from other sources, (2) a small VOI located in the sphere center, and (3) a VOI consisting of voxels with voxel value above a certain percentage of the maximum voxel value. Results The determined activity concentration varies significantly with sphere size, sphere-to-background ratio, SPECT reconstruction method and method for determining the concentration. Based on the phantom study, criteria are identified under which the activity concentration can be determined with a maximal error of 40% even in the presence of background activity. Conclusions Tumor dosimetry is feasible in the presence of background activity using the above-mentioned methods, provided appropriate SPECT reconstructions are applied and tumors are selected for dosimetry analysis according to the following criteria for the three methods: (1) solitary tumor with diameter > 15 mm, (2) tumor diameter > 30 mm and tumor-to-background ratio > 2, and (3) tumor diameter > 30 mm and tumor-to-background ratio > 3.
ISSN:2197-7364
2197-7364
DOI:10.1186/s40658-023-00561-8