High resolution 3D structures of mineralized tissues in health and disease.

A thorough knowledge of the structures of healthy mineralized tissues, such as bone or cartilage, is key to understanding the pathological changes occurring during disease. Such knowledge enables the underlying mechanisms that are responsible for pathology to be pinpointed. One high-resolution 3D method in particular — focused ion beam-scanning electron microscopy (FIB-SEM) — has fundamentally changed our understanding of healthy vertebrate mineralized tissues. FIB-SEM can be used to study demineralized matrix, the hydrated components of tissue (including cells) using cryo-fixation and even untreated mineralized tissue. The latter requires minimal sample preparation, making it possible to study enough samples to carry out studies capable of detecting statistically significant differences — a pre-requisite for the study of pathological tissues. Here, we present an imaging and characterization strategy for tissue structures at different length scales, describe new insights obtained on healthy mineralized tissues using FIB-SEM, and suggest future research directions for both healthy and diseased mineralized tissues. Understanding mineralized tissues, such as bone and cartilage, in health and disease requires a thorough knowledge of their structures. This Perspective proposes a new imaging and characterization strategy for mineralized tissue research that utilizes focused ion beam-scanning electron microscopy.