https://www.theragnostics.no/en/author/lidia-strigari/ Lidia Strigari Hugo Blox Builder (https://hugoblox.com)en-usFri, 12 Nov 2021 00:00:00 +0000 https://www.theragnostics.no/media/icon_hu14557955862192370321.png https://www.theragnostics.no/en/author/lidia-strigari/ https://www.theragnostics.no/en/publications/chiesa-2021-eanm/ Fri, 12 Nov 2021 00:00:00 +0000 https://www.theragnostics.no/en/publications/chiesa-2021-eanm/ <hr> <p>The aim of this standard operational procedure is to standardize the methodology employed for the evaluation of pre- and post-treatment absorbed dose calculations in ⁹⁰Y microsphere liver radioembolization. Basic assumptions include the permanent trapping of microspheres, the local energy deposition method for voxel dosimetry, and the patient-relative calibration method for activity quantification.The identity of ^99mTc albumin macro-aggregates (MAA) and ⁹⁰Y microsphere biodistribution is also assumed. The large observed discrepancies in some patients between ^99mTc-MAA predictions and actual ⁹⁰Y microsphere distributions for lesions is discussed. Absorbed dose predictions to whole non-tumoural liver are considered more reliable and the basic predictors of toxicity. Treatment planning based on mean absorbed dose delivered to the whole non-tumoural liver is advised, except in super-selective treatments.Given the potential mismatch between MAA simulation and actual therapy, absorbed doses should be calculated both pre- and post-therapy. Distinct evaluation between target tumours and non-tumoural tissue, including lungs in cases of lung shunt, are vital for proper optimization of therapy. Dosimetry should be performed first according to a mean absorbed dose approach, with an optional, but important, voxel level evaluation. Fully corrected ^99mTc-MAA Single Photon Emission Computed Tomography (SPECT)/computed tomography (CT) and ⁹⁰Y TOF PET/CT are regarded as optimal acquisition methodologies, but, for institutes where SPECT/CT is not available, non-attenuation corrected ^99mTc-MAA SPECT may be used. This offers better planning quality than non dosimetric methods such as Body Surface Area (BSA) or mono-compartmental dosimetry. Quantitative ⁹⁰Y bremsstrahlung SPECT can be used if dedicated correction methods are available.The proposed methodology is feasible with standard camera software and a spreadsheet. Available commercial or free software can help facilitate the process and improve calculation time.</p> https://www.theragnostics.no/en/publications/walrand-2019-re-/ Sun, 01 Dec 2019 00:00:00 +0000 https://www.theragnostics.no/en/publications/walrand-2019-re-/ <hr> <p>No abstract available</p>