TY - JOUR
T1 - An apparatus for qualitative assessment of the shading ratio of oblique illumination and real-time high-contrast imaging
AU - Shao, Meng
AU - Wang, Ke
AU - Wang, Zixin
AU - Peng, Tao
AU - Zhang, Shuhe
AU - Zhang, Juanlin
AU - Fang, Shu
AU - Wang, Fengsong
AU - Zhang, Shengzhao
AU - Zhong, Min-Cheng
AU - Wang, Yi
AU - Zhong, Zhensheng
AU - Zhou, Jinhua
N1 - © 2022 Wiley-VCH GmbH.
PY - 2022/12
Y1 - 2022/12
N2 - Oblique illumination imaging can significantly improve the contrast of transparent thin samples. However, in traditional oblique illumination methods, either the condenser is offset or a block is added to the condenser, which makes it complicated and challenged to build a stable oblique illumination imaging. Herein, we present a method to measure the optimal shading ratio of oblique illumination in an inverted microscope, and develop an apparatus for stable high-speed high-contrast imaging with uniform brightness. At optimal shading ratio, the oblique illumination imaging has better imaging quality than differential interference contrast, which characteristic is independent on sample. In oblique illumination with low magnification objective, the images have uneven brightness. According to target brightness, we have developed a brightness unevenness correction algorithm to form uniform background brightness for oblique illumination. Integrating the algorithm with imaging acquisition, corrected oblique illumination microscopy is appropriate to observe living cells with high contrast.
AB - Oblique illumination imaging can significantly improve the contrast of transparent thin samples. However, in traditional oblique illumination methods, either the condenser is offset or a block is added to the condenser, which makes it complicated and challenged to build a stable oblique illumination imaging. Herein, we present a method to measure the optimal shading ratio of oblique illumination in an inverted microscope, and develop an apparatus for stable high-speed high-contrast imaging with uniform brightness. At optimal shading ratio, the oblique illumination imaging has better imaging quality than differential interference contrast, which characteristic is independent on sample. In oblique illumination with low magnification objective, the images have uneven brightness. According to target brightness, we have developed a brightness unevenness correction algorithm to form uniform background brightness for oblique illumination. Integrating the algorithm with imaging acquisition, corrected oblique illumination microscopy is appropriate to observe living cells with high contrast.
U2 - 10.1002/jbio.202200122
DO - 10.1002/jbio.202200122
M3 - Article
C2 - 36029217
SN - 1864-063X
VL - 15
JO - Journal of Biophotonics
JF - Journal of Biophotonics
IS - 12
M1 - e202200122
ER -