Development and Utility of an Imaging System for Internal Dosimetry of Astatine-211 in Mice.
Atsushi YagishitaMiho KatsuragawaShin'ichiro TakedaYoshifumi ShirakamiKazuhiro OoeAtsushi ToyoshimaTadayuki TakahashiTadashi WatabePublished in: Bioengineering (Basel, Switzerland) (2023)
In targeted radionuclide therapy, determining the absorbed dose of the ligand distributed to the whole body is vital due to its direct influence on therapeutic and adverse effects. However, many targeted alpha therapy drugs present challenges for in vivo quantitative imaging. To address this issue, we developed a planar imaging system equipped with a cadmium telluride semiconductor detector that offers high energy resolution. This system also comprised a 3D-printed tungsten collimator optimized for high sensitivity to astatine-211, an alpha-emitting radionuclide, and adequate spatial resolution for mouse imaging. The imager revealed a spectrum with a distinct peak for X-rays from astatine-211 owing to the high energy resolution, clearly distinguishing these X-rays from the fluorescent X-rays of tungsten. High collimator efficiency (4.5 × 10 -4 ) was achieved, with the maintenance of the spatial resolution required for discerning mouse tissues. Using this system, the activity of astatine-211 in thyroid cancer tumors with and without the expression of the sodium iodide symporter (K1-NIS/K1, respectively) was evaluated through in vivo imaging. The K1-NIS tumors had significantly higher astatine-211 activity (sign test, p = 0.031, n = 6) and significantly decreased post-treatment tumor volume (Student's t -test, p = 0.005, n = 6). The concurrent examination of intratumor drug distribution and treatment outcome could be performed with the same mice.
Keyphrases
- high resolution
- single molecule
- gene expression
- metabolic syndrome
- poor prognosis
- emergency department
- magnetic resonance
- mesenchymal stem cells
- cancer therapy
- computed tomography
- type diabetes
- fluorescence imaging
- adipose tissue
- long non coding rna
- insulin resistance
- stem cells
- heavy metals
- locally advanced
- rectal cancer
- ionic liquid
- monte carlo