In nuclear medicine imaging, single photon emission computed tomography (SPECT) is used with increasing frequency for studies of different organs. A new approach is to use quantitative SPECT for dose planning in radionuclide therapy. Important parameters to estimate dose planning are described here
In internal radionuclide therapy, a growing interest in voxel-level estimates of tissue-absorbed dos...
The objective of quantitative imaging is to Provide pharmacokinetic information for patients that is...
Abstract Background Quantification is one of the key benefits of nuclear medicine imaging. Recently,...
Radionuclide therapy aims to treat malignant diseases by systemic administration of radiopharmaceuti...
Radionuclide therapy aims to treat malignant diseases by systemic administration of radiopharmaceuti...
Radionuclide therapy is gradually becoming more important as a therapy option in various diseases. N...
Radionuclide therapy is the use of radioactive drugs for internal radiotherapy, mainly for the treat...
Nuclear medicine methods permit the in vivo measurement of physiological and metabolic functions. Fo...
For treatment of systemic malignancies, when external radiation therapy is not applicable, radionucl...
Patient-specific dosimetry in nuclear medicine is now a legal requirement in many countries througho...
Single photon emission computed tomography associated to X ray computed tomography (SPECT-CT) is a n...
Hybrid imaging procedures such as single-photon emission computed tomography/computed tomography (SP...
Single-photon emission computed tomography (SPECT) is a noninvasive molecular imaging method that ca...
The reliability of radiation dose estimates in internal radionuclide therapy is directly related to ...
Single Photon Emission Computed Tomography (SPECT) is commonly used to evaluate the radiation dose d...
In internal radionuclide therapy, a growing interest in voxel-level estimates of tissue-absorbed dos...
The objective of quantitative imaging is to Provide pharmacokinetic information for patients that is...
Abstract Background Quantification is one of the key benefits of nuclear medicine imaging. Recently,...
Radionuclide therapy aims to treat malignant diseases by systemic administration of radiopharmaceuti...
Radionuclide therapy aims to treat malignant diseases by systemic administration of radiopharmaceuti...
Radionuclide therapy is gradually becoming more important as a therapy option in various diseases. N...
Radionuclide therapy is the use of radioactive drugs for internal radiotherapy, mainly for the treat...
Nuclear medicine methods permit the in vivo measurement of physiological and metabolic functions. Fo...
For treatment of systemic malignancies, when external radiation therapy is not applicable, radionucl...
Patient-specific dosimetry in nuclear medicine is now a legal requirement in many countries througho...
Single photon emission computed tomography associated to X ray computed tomography (SPECT-CT) is a n...
Hybrid imaging procedures such as single-photon emission computed tomography/computed tomography (SP...
Single-photon emission computed tomography (SPECT) is a noninvasive molecular imaging method that ca...
The reliability of radiation dose estimates in internal radionuclide therapy is directly related to ...
Single Photon Emission Computed Tomography (SPECT) is commonly used to evaluate the radiation dose d...
In internal radionuclide therapy, a growing interest in voxel-level estimates of tissue-absorbed dos...
The objective of quantitative imaging is to Provide pharmacokinetic information for patients that is...
Abstract Background Quantification is one of the key benefits of nuclear medicine imaging. Recently,...
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