Scanning Transmission Electron Microscopic Tomography of Cortical Bone Using Z-contrast Imaging

Overview

Journal Micron

Date 2013 Apr 3

PMID 23545162

Citations 13

Authors

Elizabeth McNally

Feihong Nan

Gianluigi A Botton

Henry P Schwarcz

Affiliations

Soon will be listed here.

Abstract

Previously we presented (McNally et al., 2012) a model for the ultrastructure of bone showing that the mineral resides principally outside collagen fibrils in the form of 5 nm thick mineral structures hundreds of nanometers long oriented parallel to the fibrils. Here we use high-angle annular dark-field electron tomography in the scanning transmission electron microscope to confirm this model and further elucidate the composite structure. Views of a section cut parallel to the fibril axes show bundles of mineral structures extending parallel to the fibrils and encircling them. The mineral density inside the fibrils is too low to be visualized in these tomographic images. A section cut perpendicular to the fibril axes, shows quasi-circular walls composed of mineral structures, wrapping around apparently empty holes marking the sites of fibrils. These images confirm our original model that the majority of mineral in bone resides outside the collagen fibrils.

Citing Articles

Bone hierarchical organization through the lens of materials science: Present opportunities and future challenges.

Micheletti C, Shah F Bone Rep. 2024; 22:101783.

PMID: 39100913 PMC: 11295937. DOI: 10.1016/j.bonr.2024.101783.

2D vs. 3D Evaluation of Osteocyte Lacunae - Methodological Approaches, Recommended Parameters, and Challenges: A Narrative Review by the European Calcified Tissue Society (ECTS).

Vom Scheidt A, Krug J, Goggin P, Bakker A, Busse B Curr Osteoporos Rep. 2024; 22(4):396-415.

PMID: 38980532 PMC: 11324773. DOI: 10.1007/s11914-024-00877-z.

Ultrastructure and Nanoporosity of Human Bone Shown with Correlative On-Axis Electron and Spectroscopic Tomographies.

Micheletti C, Shah F, Palmquist A, Grandfield K ACS Nano. 2023; 17(24):24710-24724.

PMID: 37846873 PMC: 10753897. DOI: 10.1021/acsnano.3c04633.

Bone mineral properties and 3D orientation of human lamellar bone around cement lines and the Haversian system.

Grunewald T, Johannes A, Wittig N, Palle J, Rack A, Burghammer M IUCrJ. 2023; 10(Pt 2):189-198.

PMID: 36786504 PMC: 9980387. DOI: 10.1107/S2052252523000866.

Advances in biomimetic collagen mineralisation and future approaches to bone tissue engineering.

Doyle M, Dalgarno K, Masoero E, Marina Ferreira A Biopolymers. 2022; 114(1):e23527.

PMID: 36444710 PMC: 10078151. DOI: 10.1002/bip.23527.