![]() “It is a privilege to collaborate with leading institutions like Duke University Hospital and expand the impact of technology across multiple clinical applications.” said Sean Clark, Brainlab president. “We look forward to fully utilizing this imaging system to help enhance the quality, safety and outcomes of the surgical care of our patients,” said William Richardson, MD, associate chief medical officer for Duke University Hospital and vice chairman of the department of orthopaedic surgery. They can automatically register the newly acquired intraoperative CT images and merge pre-operative scans to track and monitor their surgical instruments in real time, increasing intraoperative confidence and helping to safely achieve desired surgical goals. Surgeons can use Airo and Curve™ to see how their surgeries are progressing, all while maintaining the patient’s surgical position. With a gantry opening of 107cm-the widest on the market- Airo enables flexible patient positioning and helps expand the use of intraoperative imaging for several clinical applications including neurosurgery, orthopedic and trauma surgery. Duke surgeons will be using the large-bore, mobile, 32-slice CT scanner to assist with visualization and to help verify surgical goals through real-time imaging.Īiro Mobile Intraoperative CT has the potential to change daily practice in the surgical space, offering mobility, flexibility and access to real-time patient images, aiding decision-making in the operating room. Mobile Diagnostic-Quality Intraoperative Imaging comes to the Southeast, Helping to Expand the Clinical Benefit to More Patientsĭurham, North Carolina, Ap– Brainlab announced today the installation of the first Airo Mobile Intraoperative CT (computed tomography) at Duke University Hospital. Overview Spine / Trauma Surgery Products.Note: Coast Surgical NAV possesses loaner systems and instruments, if needed. Tracking Technologies – Surgeons can choose between advanced optical surgical navigation camera, or the electromagnetic system. Intraoperative Imaging Integration – The navigation system interface with multiple intraoperative imaging systems, including iMRI, iCT, C-arms, and the O-arm® System – Medtronic’s 3D imaging and 2D fluoroscopy system,Brainlab Airo, or Ziehm C-Arms. The position of the sinus surgery instruments can then be tracked by the computer by integrating the information detected from the patient's pre-set reference points and comparing it to the information on the CT or MRI scan map. The pre-operative scan images loaded into the system are then calibrated to the patient's anatomy using pre-set reference points, which may be the mask or markers or specific anatomic points on the face. During surgery, a dynamic reference frame or patient tracker is positioned on the patient's head or next to the operative area. The CT scan is transferred to a disk, which is then loaded into the image-guidance computer. To use the image-guidance navigation system, a CT or MRI, is performed using a specific navigation system protocol. These systems are used to aid the surgeon in the confirming the location of critical structures distorted by unusual anatomy or prior surgery. Image-guided systems are essentially like GPS (Global Positioning Satellite) systems from the anatomy of your head. Our Clinical Specialists are certified to manage the equipment and identify if it is being used incorrectly or is damaged, and what actions to take to ensure its optimal use. We support healthcare providers with advanced surgical navigation and imaging solutions, powered surgical tools and systems, intraoperative nerve monitoring devices, and surgical microscope navigation integration. The development and rapidly growing popularity of IGS in sinus surgery are directly attributable to the risks of such disruptions.Ĭoast Surgical NAV develops products and procedural solutions for surgical applications for Neurosurgery, Spine, and ENT. In ESS, the main advantage is to avoid disrupting hazardous areas such as the brain and orbit. In Neurosurgery, the primary use of IGS is to locate an intracranial lesion for resection or biopsy. Although first developed for Neurosurgery, Endoscopic Sinus Surgery (ESS) rapidly is becoming one of the leading indications for this technology. ![]() Image-guided surgery (IGS) is the use of real-time correlation of the operative field to a pre-operative imaging data set that reflects the precise location of a selected surgical instrument to the surrounding anatomic structures.
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