Correlative volume-imaging using combined array tomography and FIB-SEM tomography with beam deceleration for 3D architecture visualization in tissue | Zendy

Shingo Hirashima | Zendy; Keisuke Ohta | Zendy; Yukiko RikimaruNishi | Zendy; Akinobu Togo | Zendy; Takashi Funatsu | Zendy; Risa Tsuneyoshi | Zendy; Yuichi Shima | Zendy; Keiichiro Nakamura | Zendy

Open Access

Correlative volume-imaging using combined array tomography and FIB-SEM tomography with beam deceleration for 3D architecture visualization in tissue

Author(s) -

Shingo Hirashima,

Keisuke Ohta,

Yukiko RikimaruNishi,

Akinobu Togo,

Takashi Funatsu,

Risa Tsuneyoshi,

Yuichi Shima,

Keiichiro Nakamura

Publication year - 2022

Publication title -

microscopy

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.545

H-Index - 52

eISSN - 2050-5701

pISSN - 2050-5698

DOI - 10.1093/jmicro/dfac015

Subject(s) - materials science , tomography , biomedical engineering , focused ion beam , volume (thermodynamics) , correlative , optics , chemistry , ion , medicine , physics , linguistics , philosophy , organic chemistry , quantum mechanics

Focused ion beamed (FIB) SEM has a higher spatial resolution than other volume-imaging methods owing to the use of ion beams. However, in this method, it is challenging to analyse entire biological structures buried deep in the resin block. We developed a novel volume-imaging method by combining array tomography and FIB-SEM tomography and investigated the chondrocyte ultrastructure. Our method imparts certainty in determining the analysis area such that cracks or areas with poor staining within the block are avoided. The chondrocyte surface showed fine dendritic processes that were thinner than ultrathin sections. Upon combination with immunostaining, this method holds promise for analysing mesoscopic architectures.

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