DOI: 10.1186/s40658-017-0192-5Pages: 1-12

Predictive SIRT dosimetry based on a territorial model

1. Lübeck, Maria-Goeppert-Straße 3, Fraunhofer Institute for Medical Image Computing MEVIS

2. Städtisches Klinikum Dresden-Friedrichstadt, Ressort TuW, Abt. MIT, FB Strahlenphysik

3. Städtisches Klinikum Dresden-Friedrichstadt, Department of Radiology

4. Fraunhofer Institute for Medical Image Computing MEVIS

Correspondence to:
Nadine Spahr
Email: nadine.spahr@mevis.fraunhofer.de

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Abstract

Background

In the planning of selective internal radiation therapy (SIRT) for liver cancer treatment, one major aspect is to determine the prescribed activity and to estimate the resulting absorbed dose inside normal liver and tumor tissue. An optimized partition model for SIRT dosimetry based on arterial liver territories is proposed. This model is dedicated to characterize the variability of dose within the whole liver. For an arbitrary partition, the generalized absorbed dose is derived from the classical partition model. This enables to consider normal liver partitions for each arterial perfusion supply area and one partition for each tumor for activity and dose calculation. The proposed method excludes a margin of 11 mm emitting range around tumor volumes from normal liver to investigate the impact on activity calculation. Activity and dose calculation was performed for five patients using the body-surface-area (BSA) method, the classical and territorial partition model.

Results

The territorial model reaches smaller normal liver doses and significant higher tumor doses compared to the classical partition model. The exclusion of a small region around tumors has a significant impact on mean liver dose. Determined tumor activities for the proposed method are higher in all patients when limited by normal liver dose. Activity calculation based on BSA achieves in all cases the lowest amount.

Conclusions

The territorial model provides a more local and patient-individual dose distribution in normal liver taking into account arterial supply areas. This proposed arterial liver territory-based partition model may be used for SPECT-independent activity calculation and dose prediction under the condition of an artery-based simulation for particle distribution.

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  • Accepted: Oct 17, 2017
  • Online: Oct 31, 2017

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