Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. (a) Schematic of the adaptive harmonic generation microscope. Lx, lens; Mx, mirror;

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Presentation transcript:

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. (a) Schematic of the adaptive harmonic generation microscope. Lx, lens; Mx, mirror; BSx, beam splitter; G, Galvo mirrors; DM, deformable mirror; O, objective; S, specimen; C, condenser; Dx, dichroic; PMTx, photomultiplier tubes; FM, flip-mirror. He–Ne laser (dashed outline) is used for DM characterization, and this path is disabled during imaging. Dotted lines show the LED illumination path for wide-field transmitted light imaging. The incubator maintains a stable temperature at 37 °C around the sample stage. (b) A magnified view of the region around the sample. A small plastic chamber around the culture dish, into which a humidified mixture of 5% \documentclass[12pt]{minimal}\begin{document}$\rm { CO_{2}}$\end{document} CO 2 in air is supplied to maintain the pH of the culture medium. (c) Illustration of the culture dish showing the placement of the embryos. Figure Legend: From: Long-term imaging of mouse embryos using adaptive harmonic generation microscopy J. Biomed. Opt. 2011;16(4): doi: /

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. (a) THG signal from a cover slip–air interface placed perpendicular to the laser beam direction and (b) the corresponding XZ view demonstrating the curvature of field of the microscope. (c) THG signal variation across the entire field of view. (d) The axial THG intensity profile along the cover glass–air interface of a region near the center of the field of view has FWHM of 1.34 μm. Scale bar in (a) is 100 μm. Figure Legend: From: Long-term imaging of mouse embryos using adaptive harmonic generation microscopy J. Biomed. Opt. 2011;16(4): doi: /

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. HG images of 0.5- (single cell), 1.5- (two cells), and 2.5-(morula) day-old mouse embryos. (a–c) are optical sections and (a c) are the corresponding 3-D opacity rendering (intensity in log scale). The SHG signal [blue arrows: pointing top right in (a ′ ), middle part in (b ′ ) and in the lower left part of (c) and (c ′ )] is from central spindles, whereas THG is predominantly from lipid droplets [red arrow head in the left side of (a)]. Features like the plasma membrane (yellow arrow head in the right side of (a-c)), nucleus [asterisk in (a)], nucleoli [red arrow pointing left in (a–c), sperm tail (yellow arrow on the top left part of (a ′ ) and upper right part of (c ′ )], and second polar body [white arrow on the upper middle part of (a)] are also demarcated by THG microscopy. The scale bar is 30 μm. (Color online only.) Figure Legend: From: Long-term imaging of mouse embryos using adaptive harmonic generation microscopy J. Biomed. Opt. 2011;16(4): doi: /

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. HG images of 3.5- (blastocyst), 4.5- (peri-implantation), and 5.5- (postimplantation) day-old mouse embryos. (a–c) are optical sections and (a–c) are the corresponding 3D opacity rendering. In (a), the yellow arrow to the right marks the inner cell mass, the red arrow to the left the trophectoderm, and the asterisk the blastocoel cavity (see Video 1 for full 360-degree rotation of a blastocyst). In (b), the red arrow (top middle part) marks a cell nucleus and the white arrow (at the bottom) marks a lipid droplet. In (c), the blue arrow at the right marks HG signal from the basolateral aspect of the visceral endoderm and the asterisk marks the proamniotic cavity (see Video 2 for full 360-degree rotation of a 5.5-day-old embryo). The scale bar is 50 μm. (Color online only.) Figure Legend: From: Long-term imaging of mouse embryos using adaptive harmonic generation microscopy J. Biomed. Opt. 2011;16(4): doi: /

Date of download: 5/29/2016 Copyright © 2016 SPIE. All rights reserved. Optical sections from time-lapse imaging of mouse embryos showing morula compaction (x and x ′ ) and blastocyst (asterisk) formation. Scale bar is 50 μm. See Video 4 for animated 3-D time-lapse movie and Video 5 showing a time-lapse sequence of a single optical section. (Color online only.) Figure Legend: From: Long-term imaging of mouse embryos using adaptive harmonic generation microscopy J. Biomed. Opt. 2011;16(4): doi: /