PEER-REVIEWED PUBLICATION

2024

Titanium nanotopography enhances mechano-response of osteocyte three-dimensional network toward osteoblast activation

He X, Yamada M, et al.

Biomaterials Advances

Fujian Medical University, Tohoku University Graduate School of Dentistry

RESEARCH SUMMARY

This study examined how titanium nanosurfaces with anisotropic nanospikes affect osteocyte mechanotransduction and intercellular network formation under mechanical loading. Using 3D MLO-Y4 osteocyte cultures on machined vs nano-roughened titanium discs, the authors demonstrated that nanotopography enhances gap-junction (Cx43) expression and osteocyte connectivity. Under cyclic compressive loading via the MechanoCulture TR system (50 kPa at 0.5 Hz for 1 h repeated five times), cells on nano-roughened surfaces exhibited stronger osteogenic signaling (Opg ↑, Sost ↓, Rankl/Opg ↓) and prostaglandin (PGE2)-mediated communication compared to machined controls, indicating enhanced osteoblast activation potential and improved bone remodeling response to masticatory-like forces.

The MechanoCulture TR Hydro system was used to apply hydrostatic cyclic compressive loading to 3D osteocyte cultures in collagen gels. Loading parameters: 50 kPa, 0.5 Hz triangular waveform, 1 h sessions repeated five times over 49 hours. This setup simulated masticatory forces and allowed precise control of compression cycles while maintaining sterile culture conditions for long-term mechanical stimulation.

AUTHORS

He X, Yamada M, Watanabe J, Pengyu Q, Chen J, Egusa H.

PUBLICATION DETAILS

JOURNAL

Biomaterials Advances

YEAR

2024

INSTITUTIONS

Fujian Medical University, Tohoku University Graduate School of Dentistry

COUNTRIES

China, Japan

INSTRUMENT USED

MechanoCulture TR

TESTING METHODS

Hydrated and Temperature Controlled TestingHydrostatic Pressure TestingViscoelastic & Time-Dependent Testing

RESEARCH APPLICATIONS

Bone Tissue Engineering & MechanicsDental & Oral Tissue BiomechanicsECM & Decellularized Matrix MechanicsMechanotransduction

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