• English
  • Svenska
  • Norsk bokmål
  • Dansk
  • Suomi
  • ZAP-X

ZAP-X® GYROSCOPIC RADIOSURGERY® FOR THE BRAIN

The ZAP-X® gyroscopic radiosurgery® platform combines self-shielding technology with high-dose-rate linear accelerator delivery. It requires no shielded radiation vault and no radioactive cobalt source.


Frontier in modern radiosurgery

ZAP-X offers innovative non-invasive cancer treatment for treatment of brain tumors and conditions of the head and neck. 

 

Self-Shielded

ZAP-X has a unique self-shielded design. It is an SRS system that can be deployed almost anywhere.

LINAC Based

ZAP-X is equipped with a modern linear accelerator. It avoids the handling of radioactive isotopes and ensures ease of use without related security risks and bureaucracy.

Safety innovation

ZAP-X safety features include a unique, real-time exit does system for immediately stopping the treatment if treatment deviations occur. It also has a collimation system that lowers radiation leakage.

Better Economics

ZAP-X expands market access by putting world-class radiosurgery within reach of more communities, and so more patients can benefit of this cutting-edge technology.

Two Million

Annually, only around 150,000 brain tumor patients receive treatment with stereotactic surgery, though more than two million brain tumor patients worldwide are potential candidates for this treatment.

 

 

 

 

 

 

 

 

BUILT FOR THE BRAIN

WORLD-CLASS DOSIMETRY
ZAP-X treatment specifics, such as beam energy, source-axis distance, non-coplanar beam coverage, and steep dose gradient, are engineered for demanding radiosurgery.

REAL-TIME IMAGE GUIDANCE
Real-time image guidance is facilitated by a high-definition kilovolt (kV) imaging system, providing intra-fraction image guidance in real-time.

FRAMELESS DELIVERY
With ZAP-X, invasive stereotactic frames for patients are not needed, as the system maintains sub-millimetric accuracy.

STREAMLINED WORKFLOW
ZAP-X is tailor-made for stereotactic radiosurgery, enhancing patient safety by eliminating the complexity of multi-purpose radiotherapy systems.

We use cookies to improve the user experience and gather anonymous visitor statistics. By using our website, you agree to the use of cookies.

I agree.