Performance and Safety of Biology-Guided Radiotherapy Using the RefleXion Medical Radiotherapy System (BIOGUIDE-X)

The performance and safety of BgRT using the RMRS will be studied by to sequential cohorts of patients with one targetable metastatic lesion in either the lungs or bone. Patients with multiple metastases can be accrued, but these investigations will focus on only one lesion per patient.

Cohort I will seek to identify the Recommended RefleXion FDG dose (RRFD), which is the dose of administered FDG - within a range concordant with the American College of Radiology and Society of Pediatric Radiology Practice Parameter for Performing PET/CT in Oncology (ACR-SPR Practice Parameter) - that allows for functioning of the RefleXion system. Keeping ALARA ("As Low As Reasonable Achievable") principles in mind, this phase of the investigation seeks to optimize the balance between minimizing patient exposure to the radiotracer and achieving satisfactory performance of the RMRS PET subsystem for BgRT. This cohort will also seek to assess RMRS PET imaging performance in comparison to a third-party diagnostic PET/CT.

To that end, dose levels of 15 mCi and 20 mCi (if required) will be assessed sequentially in an escalation protocol. Patients with at least one known FDG avid tumor in the bone or lung will be enrolled into this cohort. These patients will undergo a CT simulation in an acceptable radiotherapy treatment position and with immobilization devices as needed. After acquisition of CT images, contours for targets, OARs, and BTZ will be generated by the investigator. Next, the patient will undergo back-to-back PET scans on the RefleXion device and a third-party diagnostic PET/CT device after a single injection of FDG at the studied FDG dose level. Quantitative metrics will be collected for each lesion in order to assess the performance of the RMRS PET subsystem at that dose. Up to 12 participant will be enrolled in Cohort I. Actual delivery of radiotherapy to the patient is not part of this investigation.

The chief objective of Cohort II is to confirm that the machine-deliverable fluence generated by applying the BgRT firing filter to PET LTS images obtained at the time of a radiotherapy delivery does in fact result in an anatomic dose distribution that is consistent with the approved BgRT plan. A secondary objective is to extend this analysis by also confirming that the linear accelerator subsystem hardware is able to deliver the received machine instructions. Importantly, this investigation comprehensively emulates and assesses (without actually delivering the radiation therapy to the patient) the entire end-to-end BgRT workflow from simulation to treatment planning to, finally, dose delivery. This design also provides an opportunity to assess imaging, workflow, and the toxicity, if any, associated with multiple administrations of FDG.

To do this, up to 22 subjects dispositioned to undergo conventional SBRT for a single bone tumor or a single lung tumor will be enrolled. As noted previously, patients with multiple metastases can be accrued but the investigation will focus only one targeted lesion per patient. For each patient, RMRS PET collections will be added to the SBRT workflow at 3 timepoints representing the steps when the RMRS PET subsystem would be utilized during the BgRT workflow. Specifically, these timepoints will include a RMRS PET imaging-only session prior to the start of SBRT delivery that will be used to create a BgRT plan as well as RMRS PET collections before the first and final fractions of their planned course of SBRT. A single comparison third-party diagnostic PET/CT image will also be obtained on the day of the final fraction.