Nano-scale evidence for osteocyte network integration across bone remodeling interfaces in human bone revealed by synchrotron nanoCT
Sophie Anuth, Emely Bortel, Julie Villanova, Jussi-Petteri Suuronen, Sven Geissler, Amaia Cipitria, Peter Fratzl, Tobias Fretwurst, Katja Nelson, Susanne Nahles, Bernhard Hesse

TL;DR
This study uses advanced imaging to show how bone cells connect across different bone layers, revealing a complex network that adapts during bone remodeling.
Contribution
The study introduces canalicular looping as a nano-structural signature of directed formation in bone network architecture.
Findings
The osteocyte network integrates across bone remodeling interfaces, influenced by local tissue conditions.
Canalicular loops in newly formed bone near cement lines indicate a directed, adaptive search for reconnection.
A 'cross-generational' osteocyte network enhances tissue connectivity and functional resilience across remodeling stages.
Abstract
Bone remodeling is a highly regulated, hierarchical process critical for maintaining structural integrity and mineral homeostasis. At the nano-scale, the osteocytes orchestrate mechanosensing, signaling, and nutrient transport across the mineralized matrix utilizing their extensive network of cell dendrites. The lacunar-canalicular network (OLCN) houses the cellular components within the matrix. How this network integrates across bone regions formed during different remodeling cycles remains unresolved. How the cellular network is connected across interfaces between different remodeling regions or cement lines is the focus of this exploration: is the network integration merely stochastical occurrences or result of a cued, directed formation process? Using synchrotron-based nano computed tomography (nano-CT), we analyze human bone samples of 35 different patients with sub-micron…
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Taxonomy
TopicsBone health and osteoporosis research · Bone Metabolism and Diseases · Bone Tissue Engineering Materials
