Abstract
This technical note describes two devices to enable accurate irradiation of mice on clinical linac-based systems. To study the effects of radiation in murine, preclinical animal models, controlled and accurate dosing is important. This is not only important when specific volumes need to be irradiated, but also when the whole animal body is irradiated. To enable both purposes, we designed two devices. One device to administer Total Body Irradiation (TBI) simultaneously to six, free walking mice, and a second device, denoted as target box, in which we irradiate specific parts of the mice whilst organs-at-risk (OAR) are protected. In this latter device, we can position the mice in multiple ways. One configuration allows to sedate twelve mice simultaneously by isoflurane inhalation anesthesia and protect the body by lead shielding to allow radiation of the head only. Alternatively, the target box can be used to sedate maximal 4 mice simultaneously to irradiate the flank or paws only. All these setups allow high experimental throughput and thus a minimal occupation of the clinical equipment. As measured, the delivered radiation dosages in the regions of interest were accurate for both devices. In this technical note, we describe the design and build of these devices.
Highlights
Radiotherapy plays an important role in many cancer treatment protocols
We developed two devices to enable the use of clinical linac systems for irradiation of mice
It is important that the dose can be delivered accurately and that the discomfort of the animals is minimized. To enable this on clinically available linac systems, we developed a target box and a total body irradiation (TBI) box
Summary
Radiotherapy plays an important role in many cancer treatment protocols. Preclinical animal studies are essential to evaluate effective drug-radiotherapy combinations, study the radiobiology of tumor tissues, and assist in the development of more effective treatments to control or cure cancer [3,4]. Due to the small anatomical size of mice, dedicated instruments have been designed. As these instrument are costly an do not enable radiation of multiple animals at the same time [5,6,7], we have explored the use of clinical systems as alternative to irradiate mice. We developed two devices to enable the use of clinical linac systems for irradiation of mice.
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