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1.
Eur J Radiol ; 85(9): 1525-31, 2016 Sep.
Article in English | MEDLINE | ID: mdl-27501884

ABSTRACT

PURPOSE: Aim of the study was to evaluate the impact of parenchymal blood volume (PBV) C-arm CT in transarterial radioembolization (TARE) planning procedure regarding the appropriateness of segmental blood supply from selective catheter positions defined by angiographic images compared to PBV mapsto determine the influence of changed target volumes on dose calculation. MATERIAL AND METHODS: A total of 22 consecutive patients (median age, 62 years) underwent a TARE planning procedure were included in this retrospective study. Selective angiograms and selective PBV C-arm CT (right and left liver lobe) were evaluated in a blinded fashion, regarding segmental hepatic artery variants. Volumetry of target volume and dosimetry of glass and resin microspheres were performed. RESULTS: Classification of segment IV and segment I to the corresponding target vascular bed supply was correct in 91.0% (20/22) and 86.4% (19/22) for angiography and C-arm CT, respectively. Except one case, all other liver segments were classified properly to the left and right hepatic arterial supply. Based on the mismatch of the angiographic and the C-arm CT approach, changes of target volume were evident in 27.3% of patients, resulting in a mean mismatch volume of 90±54ml (range, 51-198ml) and a percentage of dose differences of 14.2±11.8% and 12.6±10.6% for the right and 12.5±8.5% and 11.1±7.8% for the left liver lobe in glass and resin microspheres, respectively. CONCLUSION: The C-arm CT approach is superior to the angiographic determination of vascular supply of specific liver segments for dosimetry before radioembolization. Especially for unexperienced interventional radiologists or for a complex anatomy, C-arm CT improves individualized dosimetry concepts.


Subject(s)
Blood Volume/radiation effects , Embolization, Therapeutic/methods , Hepatic Artery/diagnostic imaging , Liver Neoplasms/diagnostic imaging , Liver Neoplasms/physiopathology , Tomography, X-Ray Computed/methods , Aged , Blood Volume/physiology , Female , Hepatic Artery/physiopathology , Humans , Liver/blood supply , Liver/diagnostic imaging , Liver/physiopathology , Liver Neoplasms/blood supply , Male , Microspheres , Middle Aged , Radiotherapy Dosage , Retrospective Studies
2.
Nuklearmedizin ; 36(2): 56-64, 1997 Mar.
Article in German | MEDLINE | ID: mdl-9148274

ABSTRACT

AIM: A new strategy is introduced for a double-head gamma-camera to calculate and to correct for attenuation distribution from count rates of backscattered radiation of 99mTc in the human thorax/myocardium setting. The intention was to gain segmented and calibrated images of distribution employing the structures of lungs and other tissues, so that attenuation may be subsequently corrected by the method of Chang METHODS: Acquisition was done simultaneously in three energy window for 99mTc to receive both emitted and scattered radiation. The acquire projections were used to calculate the attenuation distribution and to execute a scatter correction by the method of Ogawa et. al. By measuring phantoms and evaluating a set of patient studies, quality for both of the approaches towards attenuated distribution and the quality of attenuation correction was tested and an optimal setting for parameters involved was selected. RESULTS: The procedure adequately approaches the correction for both emitted and scattered radiation in SPECT, as experienced in phantom and patient studies. Clinical usefulness was preliminary documented in selected cases. In normal perfusion, distribution was more homogeneous. Perfusion defects appeared more definitive. Problems occurred in high adjacent non-target activity (e.g., in the gallbladder) and with low count rate statistics. CONCLUSION: Myocardial 99mTc MIBI SPECT may be effectively corrected for both attenuation a scatter without an additional transmission device.


Subject(s)
Heart/diagnostic imaging , Phantoms, Imaging , Technetium , Tomography, Emission-Computed, Single-Photon/methods , Humans , Scattering, Radiation , Thorax/diagnostic imaging
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