ESTRO 2020 virtual meeting
See the future of RT simulation

ESTRO 2020: Virtual Symposia by Siemens Healthineers

ESTRO 2020 - European Society for Radiation Oncology
November 28 - December 01, 2020
Online

Schedule a live demo at the virtual ESTRO 2020

Take the opportunity and schedule your individual meeting with us. Please submit your meeting request here and we will contact you to confirm your preferred time.

We are looking forward to talk to you!

Meeting request

Our highlights at ESTRO 2020

In these extraordinary times, we get more and more used to the situation of virtual congresses. The first virtual ASTRO just took place end of October and maybe we have already virtually met there.

Now, the virtual ESTRO congress is right around the corner, so we have worked on offering and excellent and personalized experience for you on the Siemens Healthineers' booth.

Discover our interesting highlights and be sure that there is even more to explore at our virtual booth. Come and visit us in the virtual exhibition hall.

We are looking forward to digitally meeting you!

For more information on the virtual ESTRO, please click here.

A message from our CEO

At our virtual booth you can listen to Dr. Bernd Montag, our CEO, about our goals and the vision in cancer therapy. Learn more about combining the strength of Varian Medical Systems and Siemens Healthineers when it comes to two leaps at one step!

Visit one of our reference sites for CT – virtually!

Take the opportunity to virtually visit the Radiation Therapy Department at the University Hospital in Erlangen, Germany, and learn about their new CT simulator, the SOMATOM go.Open Pro in an interactive format. Just visit our booth at the virtual ESTRO 2020 meeting and make sure to take advantage of this one-time possibility by getting first-hand insights from our users.

No registration needed - just check our digital media library!

Learn more about the SOMATOM go.Open Pro

The value of MRI in RT

Learn about our comprehensive solutions for Magnetic Resonance for RT including 4D MRI and Synthetic CT and listen to the first-hand experience of our customers. Explore it at our booth at the virtual ESTRO 2020 meeting. Don't miss it!

Learn more about MAGNETOM RT Pro edition for MAGNETOM Sola and Vida

The time is now for PET in RT - with Biograph mCT Sim edition.

PET/CT utilization in RT treatment planning continues to see steady growth. The overall utilization of PET-based imaging has more than tripled since 2003.1 Our new Biograph™ mCT Sim edition package sets the standard in PET/CT for RT planning. Featuring a large bore, this RT-dedicated solution has access to intelligent imaging applications to make standardized protocols and personalized scans possible. Complex procedures, such as PET motion-free imaging can be transformed to an easy click of a button, and 4D CT workflow can be streamlined by automatically setting optimal scan parameters based on the patient's breathing cycle. Image quality can be optimized for every patient by eliminating the need for tube-dependent calibration in the treatment planning system.2 Biograph mCT Sim edition brings you one comprehensive solution for PET/CT in radiation therapy - driving the right planning for the right treatment. See more at our booth at the virtual ESTRO 2020 meeting!

Learn more about the Biograph mCT Sim edition

Save-the-date for our moderated chat session

Make sure to watch our moderated chat session: Did we really push the boundaries of CT simulation? - Listen to early adopters of our SOMATOM go.Sim and SOMATOM go.Open Pro.

It will take place on Monday, Nov 30 at 10:00am CET. You can find access to it in the Networking Lounge. We are looking forward to interact with you and answer your questions!

1IMV Radiation Therapy Market Summary Report, September, 2014. Page 138.

2As shown by measurements with a Gammex 467 Tissue Characterization Phantom comparing standard reconstruction (kernel D30) and DirectDensity reconstruction (kernel E30). HU value to relative electron density conversion for the standard reconstruction was based on a two-linear-equations approach with individual calibration for each tube voltage. For DirectDensity images a single tube-voltage-independent linear conversion was used.