Cranial radiosurgery workflowSimplify Complex Planning
for Cranial Indications

Count on intelligent, automation-support planning

The cranial radiosurgery workflow simplifies complex planning routines for cranial indications, such as arteriovenous malformations (AVMs), pituitary adenomas and vestibular schwannomas. A dedicated 4Pi arc setup optimization and a VMAT algorithm designed for radiosurgery provide improved plan quality and MU efficiency at the same time.

Demo Cranial SRS in three minutes

Preparing for cranial planning

We’ve built automation into every step of the pre-planning workflow including image fusion, distortion correction, object outlining and segmentation. Save time with fast and easy-to-use tools, add consistency and gain confidence from the submillimetric accuracy you’ll achieve along the way.

Rigid and deformable co-registration

Elements Distortion Correction corrects patient-specific distortions by applying a deformable registration developed exclusively for the cranium that respects the anatomical ground truth.

Screenshot of Elements Distortion Correction: correction of fused images

Organ-at-risk segmentation

Elements Anatomical Mapping automates the time-consuming process of contouring organs at risk by efficiently, consistently and accurately registering datasets to a synthetic MRI based tissue model. The tissue model includes all organs at risk and more than 100 cranial structures.

3D target outlining

Elements SmartBrush defines volumes on just two slices. This application outlines cranial tumors quickly and easily on multiple modalities, minimizing intra- and inter-observer variability compared to manual outlining. Delineate the object on two slices, the volume is automatically generated and respective reports can be created.

Creating the dose plan with Elements Cranial SRS

The Elements Cranial SRS workflow is designed to create consistent, high-quality SRS plans easily and effectively for single cranial targets and enables protocol-based VMAT radiosurgery planning.

Patented 4Pi arc setup optimization

High plan quality is achieved with a 4Pi optimization algorithm and highly conformal dose using VMAT designed for SRS, avoiding critical structures while delivering the most efficient plan.

Unique 3D views

Patented 4Pi arc setup optimization

High plan quality is achieved with a 4Pi optimization algorithm and highly conformal dose using VMAT designed for SRS, avoiding critical structures while delivering the most efficient plan.

Robust dosimetric results

Patented 4Pi arc setup optimization

High plan quality is achieved with a 4Pi optimization algorithm and highly conformal dose using VMAT designed for SRS, avoiding critical structures while delivering the most efficient plan.

Highly precise beam modeling and dose calculation

Patented 4Pi arc setup optimization

High plan quality is achieved with a 4Pi optimization algorithm and highly conformal dose using VMAT designed for SRS, avoiding critical structures while delivering the most efficient plan.

Learn more about our related products

Key Visual: Elements Contrast Clearance Analysis

Cranial functional workflow
Automate Planning for Cases that Demand Steep Dose Gradients

Learn more

Explore more about the cranial radiosurgery workflow

Teaser Image - Clinical Literature Library

Clinical paper
Brun et al. 2021

Read more about hypofractionated stereotactic radiotherapy for large brain metastases: optimizing the dosimetric parameters.

Clinical literature library
Advancing medical technology through scientific evidence

Brainlab Clinical Affairs conducts advanced research and gathers scientific evidence to help create safe, efficient, cost-effective medical technology.

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Webinar
Radiosurgical Approaches to the Treatment of Vestibular Schwannomas

The team from Instituto Zunino, Córdoba in Argentina share their experience treating vestibular schwannomas, present the advantages of using Elements Cranial SRS in radiosurgery treatment planning for Acoustic Neuroma and more.

Watch now

Cranial radiosurgery workflowSimplify Complex Planningfor Cranial Indications

Count on intelligent, automation-support planning

Demo Cranial SRS in three minutes

Preparing for cranial planning

Rigid and deformable co-registration

Organ-at-risk segmentation

3D target outlining

Creating the dose plan with Elements Cranial SRS

Patented 4Pi arc setup optimization

Patented 4Pi arc setup optimization

Unique 3D views

Patented 4Pi arc setup optimization

Robust dosimetric results

Patented 4Pi arc setup optimization

Highly precise beam modeling and dose calculation

Patented 4Pi arc setup optimization

Learn more about our related products

Contrast Clearance AnalysisAssess Your Treatments with More Insights

ExacTrac DynamicPrecision Patient Monitoring for Radiotherapy

Cranial vascular workflowRegister Multiple 2D DSA and 3D Datasets Framelessly

Cranial functional workflowAutomate Planning for Cases that Demand Steep Dose Gradients

Explore more about the cranial radiosurgery workflow

Clinical paperBrun et al. 2021

Clinical literature libraryAdvancing medical technology through scientific evidence

WebinarRadiosurgical Approaches to the Treatment of Vestibular Schwannomas

Cranial radiosurgery workflowSimplify Complex Planning
for Cranial Indications

Contrast Clearance Analysis
Assess Your Treatments with More Insights

ExacTrac Dynamic
Precision Patient Monitoring for Radiotherapy

Cranial vascular workflow
Register Multiple 2D DSA and 3D Datasets Framelessly

Cranial functional workflow
Automate Planning for Cases that Demand Steep Dose Gradients

Clinical paper
Brun et al. 2021

Clinical literature library
Advancing medical technology through scientific evidence

Webinar
Radiosurgical Approaches to the Treatment of Vestibular Schwannomas