Reflexion Medical Inc. entered into a nonexclusive worldwide licensing agreement with Mirada Medical Ltd., allowing Mirada’s Redengine image registration algorithms to be integrated into Reflexion’s X1 treatment planning software. The algorithms align a patient’s anatomy between distinct imaging modalities or between radiotherapy treatments.
Reflecting enthusiasm for a radiotherapy that can target multiple tumors simultaneously, Reflexion Medical Inc. closed an $80 million series E fundraising round to support development of its biology-guided radiotherapy (BgRT) technology for metastatic cancer. New investors included Ascension Ventures, Catalio Capital Management LP, Sixty Degree Capital Inc. and Hillenbrand Capital Partners LLC.
Reflexion Medical Inc. appears to be on a roll. A little more than a month after unveiling a tie up with Merck & Co. Inc., it now has reported a collaboration with Telix Pharmaceuticals Ltd., a radiopharmaceutical company developing molecularly targeted radiation products.
Hayward, Calif.-based Reflexion Medical Inc. reported a clinical collaboration with Merck & Co. Inc., of Kenilworth, N.J., to evaluate the safety and efficacy of Keytruda (pembrolizumab) in combination with biology-guided radiotherapy (BgRT) in multiple late-stage cancers. The goal is to establish whether treating multiple tumors with BgRT, a novel external beam radiotherapy treatment (EBRT) modality in development, is safe and amplifies Keytruda’s therapeutic effect.
Hayward, Calif.-based Reflexion Medical Inc. has received the green light from the U.S. FDA to market its Reflexion X1 system for standard radiation therapy treatments. The company, which also is breaking new ground with the development of biology-guided radiotherapy (BgRT), aims to eventually bring multi-tumor precision radiotherapy to all stages of cancer treatment. The FDA cleared the Reflexion X1 for stereotactic body radiotherapy, stereotactic radiosurgery and intensity modulated radiotherapy. The clearance allows physicians to treat a single tumor with precise beam shaping and radiation dose delivery.