Evaluation of a Novel Liquid Fiducial Marker, BioXmark®, for Small Animal Image-Guided Radiotherapy Applications.
Kathryn H BrownMihaela GhitaGiuseppe SchettinoKevin M PriseKarl T ButterworthPublished in: Cancers (2020)
BioXmark® (Nanovi A/S, Denmark) is a novel fiducial marker based on a liquid, iodine-based and non-metallic formulation. BioXmark® has been clinically validated and reverse translated to preclinical models to improve cone-beam CT (CBCT) target delineation in small animal image-guided radiotherapy (SAIGRT). However, in phantom image analysis and in vivo evaluation of radiobiological response after the injection of BioXmark® are yet to be reported. In phantom measurements were performed to compare CBCT imaging artefacts with solid fiducials and determine optimum imaging parameters for BioXmark®. In vivo stability of BioXmark® was assessed over a 5-month period, and the impact of BioXmark® on in vivo tumour response from single-fraction and fractionated X-ray exposures was investigated in a subcutaneous syngeneic tumour model. BioXmark® was stable, well tolerated and detectable on CBCT at volumes ≤10 µL. Our data showed imaging artefacts reduced by up to 84% and 89% compared to polymer and gold fiducial markers, respectively. BioXmark® was shown to have no significant impact on tumour growth in control animals, but changes were observed in irradiated animals injected with BioXmark® due to alterations in dose calculations induced by the sharp contrast enhancement. BioXmark® is superior to solid fiducials with reduced imaging artefacts on CBCT. With minimal impact on the tumour growth delay, BioXmark® can be implemented in SAIGRT to improve target delineation and reduce set-up errors.
Keyphrases
- image quality
- high resolution
- dual energy
- early stage
- computed tomography
- squamous cell carcinoma
- small cell lung cancer
- machine learning
- magnetic resonance imaging
- molecular dynamics simulations
- drug delivery
- deep learning
- fluorescence imaging
- cell therapy
- mass spectrometry
- contrast enhanced
- ionic liquid
- stem cells
- patient safety
- ultrasound guided
- radiation induced
- photodynamic therapy
- electronic health record
- density functional theory
- pet ct
- quality improvement