Your search keyword '"Mach Anderson Thi"' showing total 2 results

1. RGB-color forward-viewing spectrally encoded endoscope using three orders of diffraction

Author

Mitsuhiro Ikuta, Akira Yamamoto, Shumpei Tatsumi, Guillermo J. Tearney, Tzu-Yu Wu, Kenichi Iwata, Adel Zeidan, Alexander Altshuler, James Hastings Houskeeper, Mach Anderson Thi, Jiheun Ryu, Seiji Takeuchi, and Xuri Yan

Subjects

Diffraction, Physics, Pixel, business.industry, Resolution (electron density), Image processing, Atomic and Molecular Physics, and Optics, Article, Wavelength, Optics, Gamut, Color chart, RGB color model, business, Biotechnology

Abstract

Spectrally encoded endoscopy (SEE) is an ultra-miniature endoscopy technology that encodes each spatial location on the sample with a different wavelength. One challenge in SEE is achieving color imaging with a small probe. We present a novel SEE probe that is capable of conducting real-time RGB imaging using three diffraction orders (6th order diffraction of the blue spectrum, 5th of green, and 4th of red). The probe was comprised of rotating 0.5 mm-diameter illumination optics inside a static, 1.2 mm-diameter flexible sheath with a rigid distal length of 5 mm containing detection fibers. A color chart, resolution target, and swine tissue were imaged. The device achieved 44k/59k/23k effective pixels per R/G/B channels over a 58° angular field and differentiated a wide gamut of colors.

Published

2021

2. Ultraminiature video-rate forward-view spectrally encoded endoscopy with straight axis configuration

Author

Donald I. Gilbody, Mach Anderson Thi, James P. Chung, Mark Alan Hamm, Seiji Takeuchi, Bin Wu, Zhuo Wang, Jacob Schieffelin Brauer, Tzu-Yu Wu, Santosh Ganesan, Mitsuhiro Ikuta, Tokuyuki Honda, and Alexander Altshuler

Subjects

Diffraction, Spectrometer, business.industry, Computer science, Process (computing), Window (computing), Grating, 01 natural sciences, 010309 optics, Optical axis, 03 medical and health sciences, 0302 clinical medicine, Optics, 0103 physical sciences, Dispersion (optics), 030211 gastroenterology & hepatology, business

Abstract

As one of the smallest endoscopes that have been demonstrated, the spectrally encoded endoscope (SEE) shows potential for the use in minimally invasive surgeries. While the original SEE is designed for side-view applications, the forwardview (FV) scope is more desired by physicians for many clinical applications because it provides a more natural navigation. Several FV SEEs have been designed in the past, which involve either multiple optical elements or one optical element with multiple optically active surfaces. Here we report a complete FV SEE which comprises a rotating illumination probe within a drive cable, a sheath and a window to cover the optics, a customized spectrometer, hardware controllers for both motor control and synchronization, and a software suite to capture, process and store images and videos. In this solution, the optical axis is straight and the dispersion element, i.e. the grating, is designed such that the slightly focused light after the focusing element will be dispersed by the grating, covering forward view angles with high diffraction efficiencies. As such, the illumination probe is fabricated with a diameter of only 275 μm. The twodimensional video-rate image acquisition is realized by rotating the illumination optics at 30 Hz. In one finished design, the scope diameter including the window assembly is 1.2 mm.

Published

2017