Akesis Galaxy® RTx

Part of the Akesis Galaxy Platform with:

  • Next-generation high-precision rotating gamma system

  • Compact source drawer design

  • Easy-to-use, streamlined workflow designed for maximum clinical efficacy and efficiency

  • Cost-effective design with a focus on ROI

Akesis Galaxy® RTx

  • Next-generation high-precision rotating gamma system

  • Compact source drawer design

  • Easy-to-use, streamlined workflow designed for maximum clinical efficacy and efficiency

  • Cost-effectie design with a focus on ROI

The Akesis Galaxy® RTx combines state-of-the-art rotational technology with the proven efficacy of gamma-beam based therapy. The rotating gamma system provides more coverage and flexibility in shaping the dose distributions as compared to traditional, fixed sector-based delivery.

How the Akesis Galaxy RTx Simplifies SRS

Highly Conformal

Patented rotational design allows delivery of highly conformal treatments. Beams are not static, potentially reducing dose peaks to the skin, scalp and normal tissue while also avoiding hot spots.

Easy to Operate

The Akesis Galaxy RTx was designed to satisfy the needs of busy urban clinics as well as community-based centers with lower staffing levels. Highly intuitive, integrated software combined with one-button dose delivery supports both high throughput centers as well as lower volume practices.

Cost-effective

The Akesis Galaxy RTx was specifically engineered to streamline installation and be easy to maintain. Reducing the number of radiation sources to 30 also reduces the cost and downtime when it’s time for reloading.

How 30 sources + 4 collimators = infinite possibilities

  • Four sizes of collimators and one blocking position

  • 30 gamma sources in a compact drawer

By rotating the gamma sources during treatment, 30 non-overlapping arcs are formed. You also have the flexibility to choose partial arcs. ( For example, you can do two partial arcs to avoid dose to the eyes.)

When treatment is initiated with the Akesis Galaxy RTi:

  • Sources are aligned to the desired collimator size

  • The source unit and the secondary collimator rotate as a single unit

  • The target is moved to the focal point to automate treatment delivery