NIR Fluorescence Microscopy of Frozen Bone Tissues

Bone tissues were placed in 2% paraformaldehyde in PBS for 30 min before mounting in Tissue-Tek OCT compound (Fisher Scientific, Pittsburgh, PA) and flash-freezing in liquid nitrogen. Frozen samples were cryosectioned (10 μm per slice), observed by NIR fluorescence microscopy, and also stained with hematoxylin and eosin (H&E). NIR fluorescence microscopy was performed on a 4-filter Nikon Eclipse TE300 microscope system as previously described.^{[9 (link),23 (link),24 (link)]} The microscope was equipped with a 100 W mercury light source (Chiu Technical Corporation, Kings Park, NY), NIR-compatible optics, and a NIR-compatible 10X Plan Fluor objective lens and a 100X Plan Apo oil immersion objective lens (Nikon, Melville, NY). Images were acquired on an Orca-AG (Hamamatsu, Bridgewater, NJ). Image acquisition and analysis was performed using iVision software (BioVision Technologies, Exton, PA). Two custom filter sets (Chroma Technology Corporation, Brattleboro, VT) composed of 650 ± 22 nm and 750 ± 25 nm excitation filters, 675 nm and 785 nm dichroic mirrors, and 710 ± 25 nm and 810 ± 20 nm emission filters were respectively used to detect P700SO3 and P800SO3 signals in the frozen tissue samples.

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Hyun H., Wada H., Bao K., Gravier J., Yadav Y., Laramie M., Henary M., Frangioni J.V, & Choi H.S. (2014). Phosphonated Near-Infrared Fluorophores for Biomedical Imaging of Bone. Angewandte Chemie (International ed. in English), 53(40), 10668-10672.

Publication 2014

Tissue-Tek OCT compound Nikon Eclipse TE300 10X Plan Fluor objective 100X Plan Apo oil Orca-AG custom filter sets

Bone tissues Eosin Fluorescence microscopy Frozen Immersion Lens Light Mercury Microscope Nitrogen Optics Orca Paraformaldehyde Tissue

Corresponding Organization : Pusan National University

Other organizations : Georgia State University, Curadel (United States)

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Variable analysis

independent variables

Tissue fixation method: Bone tissues were placed in 2% paraformaldehyde in PBS for 30 min before mounting in Tissue-Tek OCT compound and flash-freezing in liquid nitrogen.

dependent variables

NIR fluorescence microscopy observations
Hematoxylin and eosin (H&E) staining

control variables

Cryosectioning: Frozen samples were cryosectioned (10 μm per slice)
Microscopy setup: NIR fluorescence microscopy was performed on a 4-filter Nikon Eclipse TE300 microscope system equipped with a 100 W mercury light source, NIR-compatible optics, and objective lenses
Filter sets: Two custom filter sets composed of specific excitation, dichroic, and emission filters were used to detect P700SO3 and P800SO3 signals

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