Precision X-Ray products

Precision X-Ray's SmART+ systems are engineered to push the envelope in preclinical research, offering a seamlessly integrated platform for advanced radiation therapy. These systems incorporate state-of-the-art imaging modalities such as Cone-Beam CT, µCT, and Bioluminescence (BLI), making them indispensable tools for image-guided radiation research. The intuitive software suite underpins a range of complex processes, including advanced treatment planning and image fusion. The SmART+ systems are designed to be highly expandable, allowing researchers to integrate additional functionalities like dynamic and fixed collimators, internal and external dose control, and precise anesthesia delivery systems. This accelerated imaging and planning capacity makes the SmART+ systems ideal for a range of translational radiobiology applications, enabling significant breakthroughs in tumor control and neural research. Catering to molecular biologists and imaging physicists alike, these systems represent the pinnacle of versatility and precision in preclinical radiation therapy research.

Mimicking clinical radiotherapy imaging and treatments, our SmART+IB provides CBCT imaging and x-ray irradiation. An adaptable window for beamline integration from your proton source allows for side-by-side comparison between conventional and FLASH treatment modalities.

The X-Rad320 is designed to provide precise radiation doses to various specimens, ranging from cell cultures to small animals. Equipped with the OptiMAX imaging module, this device allows for rapid switching between imaging modalities and ensures accurate image co-registration. The system offers multiple options to enhance research capabilities, such as dose measurement and control, a programmable shelf with a turntable, dynamic and fixed collimators, laser centering, motorized rotating shelves, beam conditioning filters, and an external dosimeter. Available add-ons include an environmental chamber and an anesthesia delivery system, as well as a planetary turntable for complex irradiation experiments. Studies conducted with the X-Rad320 have shown significant potential in revolutionizing cancer treatment protocols, minimizing side effects, and improving patients' quality of life. The research enabled by this machine could lead to breakthroughs in radiobiology, influencing how radiation therapy is administered and its dosage calculated.

The X-Rad225XL is ideal for large cell cultures and small animal applications. The OptiMAX imaging module allows for quick changes between imaging modalities and precise co-registration of images.