C-RAD
C-RAD offers complete SGRT solutions for high precision patient positioning, intra-fractional motion
management and respiratory gating, ensuring the best possible treatment outcome for conventional
and stereotactic treatment delivery.
Catalyst
Recent advances in treatment planning and delivery systems have led to consistently achieving optimal results. And now with the revolutionary Catalyst, you can get the same level of confidence when controlling the only remaining variable – the patient.
Catalyst HD
The capability of linear accelerators to deliver higher doses for SRT is increasing and it is expected that this technique will be applied more widely in clinical settings. To deliver even higher doses, new technology must be provided that is compatible with stereotactic delivery, namely high-precision patient positioning and intra-fraction motion management.
Catalyst PT
Particle therapy (PT) is currently based on the use of protons or carbon ions for the treatment of deep-seated or radio-resistant tumors, as well as recurrent cases, which are known to lead to poor prognosis or counter-indications for photon treatments. An increasing interest has recently been observed in the number of cases and types of cancers.
Catalyst+
In the modern era of radiation oncology where Deep Inspiration Breath Hold has become the standard of care for left-sided breast cancer, the Catalyst+ offers a complete solution for patient setup and intra-fraction breath-hold reproducibility.
Catalyst+ HD
The Catalyst+ HD offers a complete solution for high-precision patient positioning, intra-fraction motion management, and respiratory gating for conventional and stereotactic treatment delivery.
Catalyst+ HD Ring Gantry
Precise positioning is the cornerstone of patient safety, avoiding unprescribed doses and contributing to favorable outcomes through highly specific targeting of the tumor. But how do you continuously hit the mark in long, complex treatments? How can this be integrated into a workflow that doesn’t waste time or compromise patient safety and treatment efficiency?
Catalyst+ PT
Particle therapy (PT) is currently based on the use of protons or carbon ions for the treatment of deep-seated or radio-resistant tumors, as well as recurrent cases, which are known to lead to poor prognosis or counter-indications for photon treatments. An increasing interest has recently been observed in the number of cases and types of cancers.
Sentinel 4DCT
CT Simulation is increasingly becoming the standard procedure in radiation therapy. But patient breathing, as well as movements of the tumor or normal tissue can impact planning, delivery and verification. With a normal CT scan, motion may cause inaccurate target definition, in that moving targets could be in distorted shapes at the wrong location. It could also cause extra dose distribution to healthy tissue, due to dosing larger fields to cover a moving tumor.
Visual coaching solutions
Deep inspiration breath hold (DIBH) has been proven as an effective technology to reduce the irradiation on heart and lung volume, i.e. left breast cancer and Hodgkin’s lymphoma. Surface image guided radiotherapy with visual coaching improves the reproducibility and stability of the treatment.