PT - JOURNAL ARTICLE AU - Scott-Young, Matthew AU - Nielsen, David AU - Riar, Sukhman TI - Fundamentals of Mechanobiology and Potential Applications in Spinal Fusion AID - 10.14444/8562 DP - 2023 Dec 01 TA - International Journal of Spine Surgery PG - S61--S74 VI - 17 IP - S3 4099 - https://www.ijssurgery.com/content/17/S3/S61.short 4100 - https://www.ijssurgery.com/content/17/S3/S61.full SO - Int J Spine Surg2023 Dec 01; 17 AB - Background Mechanobiology can help optimize spinal fusion by providing insights into the mechanical environment required for bone healing and fusion. This includes understanding the optimal loading conditions, the mechanical properties of implanted materials, and the effects of mechanical stimuli on the cells involved in bone formation. The present article reviews the evidence for surface technologies and implant modification of spinal cages in enhancing spinal fusion.Methods Databases used included Embase, MEDLINE, Springer, and Cochrane Library. Relevant articles were identified using specific keywords and search fields. Only systematic reviews, meta-analyses, review articles, and original research articles in English were included. Two researchers independently performed the search and selection process. A flowchart of the search strategy and study selection method is provided in the article.Results The studies indicate that surface modification can significantly enhance osseointegration and interbody fusion by promoting cellular adhesion, proliferation, differentiation, and mineralization. Various surface modification techniques such as coating, etching, nanotopography, and functionalization achieve this. Similarly, implant material modification can improve implant stability, biocompatibility, and bioactivity, leading to better fusion outcomes. Mechanobiology plays a vital role in this process by influencing the cellular response to mechanical cues and promoting bone formation.Conclusions The studies reviewed indicate that surface technologies and implant material modification are promising approaches for improving the success of spinal cage fusion. Mechanobiology is critical in this process by influencing the cellular response to mechanical signals and promoting bone growth.