Wang David, Wu Bing, Stetten George
Department of Biomedical Engineering, Carnegie Mellon University, Pittsburgh PA 15213, USA.
Med Image Comput Comput Assist Interv. 2005;8(Pt 1):647-53. doi: 10.1007/11566465_80.
We have extended the real-time tomographic reflection display of the Sonic Flashlight to a laser guidance system that aims to improve safety and accuracy of needle insertion, especially for deep procedures. This guidance system is fundamentally different from others currently available. Two low-intensity lasers are mounted on opposite sides of a needle aimed parallel to the needle. The needle is placed against a notch in the Sonic Flashlight mirror such that the laser beams reflect off the mirror to create bright red spots on the flat panel display. Due to diffuse reflection from these spots, the virtual image created by the flat panel display contains the spots, identifying the projected destination of the needle at its actual location in the tissue. We have implemented our design and validated its performance, identifying several areas for potential improvement.
我们已将声波手电筒的实时断层反射显示扩展到一种激光引导系统,该系统旨在提高针插入的安全性和准确性,特别是对于深部手术。这种引导系统与目前现有的其他系统有根本区别。两个低强度激光器安装在与针平行的针的相对两侧。针靠在声波手电筒镜子的一个槽口上,这样激光束从镜子反射,在平板显示器上形成亮红色斑点。由于这些斑点的漫反射,平板显示器创建的虚拟图像包含这些斑点,在组织的实际位置识别针的投影目标。我们已经实施了我们的设计并验证了其性能,确定了几个潜在改进的领域。