Panagiotis Georgoulias scite author profile

The development of patient-specific treatment planning systems is of outmost importance in the development of radionuclide dosimetry, taking into account that quantitative three-dimensional nuclear medical imaging can be used in this regard. At present, the established method for dosimetry is based on the measurement of the biokinetics by serial gamma-camera scans, followed by calculations of the administered activity and the residence times, resulting in the radiation-absorbed doses of critical organs. However, the quantification of the activity in different organs from planar data is hampered by inaccurate attenuation and scatter correction as well as because of background and organ overlay. In contrast, dosimetry based on quantitative three-dimensional data can be more accurate and allows an individualized approach, provided that all effects that degrade the quantitative content of the images have been corrected for. In addition, inhomogeneous organ accumulation of the radionuclide can be detected and possibly taken into account. The aim of this work is to provide adequate information on internal emitter dosimetry and a state-of-the-art review of the current methodology and future trends.

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Impact of COVID-19 Pandemic on Cardiovascular Testing in Asia

Kudo¹,

Lahey²,

Hirschfeld³

et al. 2021

JACC: Asia

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Scintigraphy of Stress Fractures of the Sesamoid Bones

Georgoulias

Georgiadis

Dimakopoulos

et al. 2001

Clinical Nuclear Medicine

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Alzheimer's Disease: SPECT and PET Tracers for Beta-Amyloid Imaging

Valotassiou¹,

Archimandritis²,

Sifakis³

et al. 2010

CAR

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