ICG angiography uses intravenously administered ICG as a dye and observes cerebral vessels at high magnification under the operating microscope equipped with near-infrared illumination system. ICG angiography was done at least twice in each case before and after the surgical clips were applied to the aneurysms. ICG was injected intravenously with a dose of 0.2 mg/kg. All operations were performed using an operating microscope equipped with a near-infrared illumination system (OME-9000; Olympus, Tokyo, Japan). During ICG angiography, the operating microscope was not moved. ICG angiography was recorded continuously using a high-definition recording system (AG-MDC10G; Panasonic, Japan).
Ag mdc10g
Manufactured by Panasonic
Sourced in Japan
The AG-MDC10G is a professional-grade portable digital video camera designed for laboratory and industrial applications. It features a high-resolution image sensor, advanced image processing capabilities, and a compact, durable body suitable for use in controlled environments. The camera's core function is to capture and record high-quality video and still images for scientific, medical, or industrial documentation and analysis purposes.
Automatically generated - may contain errors
Lab products found in correlation
2 protocols using ag mdc10g
1
Cerebral Vessel Imaging via ICG Angiography
2
Telerobotic Surgical Monitoring System
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SGH has six operating theatres, and 3 surgical operations under general anesthesia could be performed at the same time. Data from the anesthesia monitor (Dynascope DS-8500, Fukuda Denshi, Japan, 640 × 480 pixels, 5 frames per second), surgical site monitor (AG-MDC10G, Panasonic, Japan, 640 × 480 pixels, 5 frames per second), and operating room monitors (SNC-EP520, SONY, Japan, 640 × 480 pixels, 5 frames per second) in all six rooms were displayed on a single monitor (18 images) via a host server (Figure 1 ). We used a personal computer (ELITE 8300 US/CT, HP Compaq, USA), on which we installed network camera recording software (RealShot Manager, Sony, Japan) to reconstruct and display all the images on a single monitor at SGH. At YCUH, two display monitors (each display showed nine images) and two PCs (ELITE 8300 US/CT, HP Compaq, USA), on which RealShot Manager was installed, were used to reconstruct and display the images in a control room. The images that were imported to the host server at SGH were transmitted to YCUH via the VPN (guaranteed system or best-effort system). Anesthesiologists at YCUH could synchronously observe the 18 images from SGH using these systems [6 (link)] (Figure 2 ).
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