Munich, Germany, September 22, 2014 –New Elements SmartBrush Angio* by Brainlab has been used clinically for the first time, enabling a direct correlation between diagnostic data sets containing temporal and, respectively spatial, information for a comprehensive definition of a patient’s cranial arteriovenous malformation (AVM) nidus. The patient was treated at St. Luke’s Radiation Oncology Centre at Beaumont Hospital in Dublin (SLROC at Beaumont), Ireland, where clinicians used the software to confidently differentiate the AVM nidus from related arteries and veins.
Beaumont Hospital used Elements SmartBrush Angio to plan and deliver a frameless radiosurgery treatment to a 30-year-old male patient who was experiencing seizures due to a mesial temporal AVM involving the hippocampus and abutting the midbrain. Clinicians took advantage of the very efficient process offered by SmartBrush Angio to: correlate multiple imaging modalities; identify the AVM nidus by incorporating the diverse information captured by each individual modality; and, facilitate shielding for connecting arteries and veins during subsequent treatment planning. Establishing a direct link between the various data sets is designed to eliminate both the need for repeat angiography on the day of treatment and the requirement for patient fixation with an invasive head-ring. This benefits patients and caregivers alike as it permits utilization of diagnostic angiography data for treatment planning and unlocks the potential of frameless radiosurgery.
“With SmartBrush Angio we can deliver highly sophisticated frameless radiosurgical treatment of brain AVMs,” explained Seyed Mohsen Javadpour, MD, Neurosurgeon and Clinical Senior Lecturer at Beaumont Hospital in Dublin. “In particular, this software eliminates the need for additional planning digital subtraction angiography (DSA) for nidus identification as it allows us to fuse the pre-existing diagnostic DSA with volumetric MRI and CT images. Therefore our patients avoid the discomfort and risks associated with invasive catheter cerebral angiography (such as stroke), receiving an overall highly sophisticated treatment. We will use SmartBrush Angio for all patients with cerebral AVMs undergoing stereotactic radiosurgery. Beyond radiosurgery, we see great promise with the use of this software for surgical planning in patients undergoing image-guided resection of brain AVMs. Fusion of multiple imaging modalities is easy with this software and it makes radiosurgical and surgical planning for AVMs more accurate.”
Elements SmartBrush Angio allows clinicians to combine the unique insights gained from planar digital subtraction angiogram (DSA) images with the spatial information gained from volumetric imaging data sets. With this data, clinicians are able to clearly distinguish arteries and veins from the nidus, reducing the final target size and thereby enabling targeted stereotactic radiosurgery to the AVM nidus with protection of the surrounding healthy tissue. Color-coding of the blood flow facilitates in-depth interpretation of the 2D angiograms and is expected to further improve detailed differentiation of the nidus and the surrounding brain tissue. The Brainlab proprietary algorithm co-registers a 3D angiography data set to the un-localized 2D image sequence. The new fusion matches the anatomical vessel trees in both modalities. This end-to-end frameless setup effectively eliminates the need for localizer hardware.
“SmartBrush Angio offers multiple, critical benefits to our hospital,” said David Fitzpatrick, MD, Radiation Oncologist, SLROC at Beaumont Hospital, Dublin, Ireland. “For clinicians, we can quickly complete the volumetric assessment of the AVM nidus with SmartBrush Angio. The software allows for dynamic use of existing diagnostic DSA images for enhanced visualization and identification of the AVM nidus during radiosurgery planning. By having the ability to use pre-existing DSA images, the hospital has the potential to save both bed days and costs.”
“The Elements SmartBrush Angio software effectively articulates the Brainlab vision of indication-specific and highly automated software applications aimed at transforming practice patterns in radiosurgery,” said Stefan Vilsmeier, CEO and Founder, Brainlab. “We are continuously building on our 25 years of experience in rethinking radiosurgery and this is one of many more innovations to come."
To learn more, visit Brainlab.com/elements.
The St. Luke’s Radiation Oncology Centre on the campus of Beaumont Hospital provides radiation therapy treatment to patients from the north eastern region.
The addition of a Stereotactic Radiosurgery programme in 2013 using Brainlab equipment strongly supports the National Neurosurgery service based in Beaumont hospital, which is now also the National Centre for Stereotactic Radiosurgery in Ireland. For the first time in Ireland the full complement of Neurosurgical service provision is available on one campus.
Brainlab, headquartered in Munich, develops, manufactures and markets software-driven medical technology, enabling access to advanced, less invasive patient treatments.
Core products center on information-guided surgery, radiosurgery, precision radiation therapy, digital operating room integration, and information and knowledge exchange. Brainlab technology powers treatments in radiosurgery and radiotherapy as well as numerous surgical fields including neurosurgery, orthopaedic, ENT, CMF, spine and trauma.
Privately held since its formation in 1989, Brainlab has over 5,000 systems installed in about 95 countries. Brainlab employs 1,200 people in 17 offices worldwide, including 290 research & development engineers, who form a crucial part of the product development team.
To learn more, visit www.brainlab.com.
* Not commercially available in the US