Images of a lacuna and canaliculi in the calvarial bone of a transgenic 2.3ColGFP mouse.

<p>THG (a) and 3PF of SR101 dye (b) were imaged with 1700 nm excitation while 2PF from GFP (c) was imaged with 850 nm excitation. A structural image cross-correlation analysis [<a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0186846#pone.0186846.ref031" target="_blank">31</a>, <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0186846#pone.0186846.ref032" target="_blank">32</a>] between 3PF, 2PF, and THG was performed (d).</p

THG power dependency plot.

<p>THG images of osteocytes obtained at 1550 nm (a) and 1700 nm (b) excitation <i>in vivo</i> as well as a logarithmic plot (c) of the THG intensity of an osteocyte with fundamental laser power for both 1550 nm and 1700 nm excitation. The data was fit with a line corresponding to a slope of 2.8 ± 0.2 for 1550 nm excitation and 2.9 ± 0.2 for 1700 nm excitation.</p

A schematic of the laser microscope for three-photon imaging using 1550 nm and 1700 nm.

<p>Second and third harmonic generation (SHG and THG) as well as three photon excitation fluorescence (3PF) are collected while the laser is scanned with a polygonal and galvanometric mirror pair. HWP represents half-wave plates, PCF represents a polarization maintaining large mode area single mode photonic crystal fiber for generation of 1700 nm, while BiBO represents a bismuth borate crystal for frequency doubling of 1700 nm.</p

LCN parameters for WT and HDAC4/5 DKO mice.

<p>Measurement of the number of osteocytes in a volume consisting of 100 × 100 × 10 μm³ (a), lacunar surface area (b) and lacunar volume (d) per osteocyte as well as the number of canaliculi per lacunar surface area (e) in WT and HDAC4/5 DKO mice. Data are represented as the mean ± standard deviation (error bar). A statistically significant difference was not found in the lacunar surface area and volume measurements. The lacunar surface area, lacunar volume and number of canaliculi were determined from 3D renderings generated with Imaris software where an example osteocyte in WT (c) and HDAC4/5 DKO (f) mice is shown.</p

THG signal intensity from canaliculi oriented at a number of angles to the optical axis.

<p>From optical sections of epi-THG collected signal from a WT mouse <i>in vivo</i>, a summed image of 6 consecutive XY slices which are 2 μm apart in Z were colored in such a way that the top slice is white, second slice is red, third slice is yellow, fourth slice is green, fifth slice is blue and the bottom slice is purple (a). A summed image of 6 consecutive XZ slices of the area of the canaliculus outlined in a white box is shown in the inset of (a) demonstrating that the canaliculus is parallel to laser propagation which is along Z. The tilt angle between bright areas within a canaliculus was calculated and the corresponding average THG intensities were plotted (b).</p

Forward-THG versus epi-THG from the LCN.

<p>Forward-THG (F-THG) (a) and epi-THG (epi-THG) (b) images of lacunae and canaliculi in thinned calvarial bone from a WT mouse taken with 1550 nm excitation and compared to an epi-THG image of the calvarial bone of WT mouse <i>in vivo</i> without bone thinning (c). The results are summarized in (d) showing that epi-collected THG is a combination of backwards-directed and backscattered forward-generated signals.</p