GE HealthCare Announces Advanced Imaging Innovations for OEC 3D C-arm
To help improve clinician workflow and visualization during endoscopic bronchoscopy procedures, the company has added Lung Suite to their OEC 3D m-CBCT offering.
www.gehealthcare.com
GE HealthCare announces additional clinical applications now available as part of the OEC 3D mobile CBCT C-arm portfolio to help enable precise and efficient imaging during endoscopic bronchoscopy procedures in the practice of interventional pulmonology.
Complex pulmonary and thoracic procedures require precise intraoperative imaging systems. To diagnose and biopsy a suspected lesion or region of interest in the lungs, physicians need to visualize and confirm the precise location of nodules and tools, yet often the position of a nodule can differ from pre-operative CT images because of the differences in respiratory patterns, patient positioning, and other factors, resulting in CT to body divergence, at time of the procedure.
GE HealthCare’s OEC 3D intraoperative mobile CBCT continues to demonstrate imaging excellence and versatility for every day procedures ranging from neuro-spine and orthopedic trauma to interventional procedures, such as bronchoscopy.
The announcement brings the following additions to the OEC 3D C-arm to help improve visualization of airways in the lungs during bronchoscopy procedures:
OEC 3D Lung Suite: The OEC 3D enables clinicians to visualize both 2D and 3D images of the lung using a single mobile C-arm. For advanced imaging during endoscopy procedures, the OEC 3D Lung Suite includes:
- Augmented Fluoroscopy overlay of 3D points of interest on live fluoroscopy images.
- Adjustable motorized 3D scan to accommodate patient or equipment positions during a spin.
OEC Open: During bronchoscopy procedures, clinicians may use navigation or robotic assistance, in addition to advanced imaging, to reach the region of interest during the interventional procedure. To help enable this workflow, OEC 3D C-arms provide an OEC Open interface for automatically transferring 3D volumetric data post reconstruction to verified navigation and robotic systems.