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Matthew J Kibble

Showing results (1-10 of 6) with videos related to

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International Journal of Molecular Sciences|July 9, 2022
Importance of Matrix Cues on Intervertebral Disc Development, Degeneration, and RegenerationMatthew J Kibble, Marco Domingos, Judith A Hoyland, et al.
Journal of Biomechanics|April 19, 2026
Intradiscal pressurisation predicts intervertebral disc herniation: insights from a low-cost, open-source loading rigThomas D Slater, Ni Yia Choy, Matthew J Kibble, et al.
JOR Spine|April 24, 2024
Comparison of four in vitro test methods to assess nucleus pulposus replacement device expulsion riskTamanna Rahman, Matthew J Kibble, Gianluca Harbert, et al.
JOR Spine|September 26, 2025
A Comparison of Five Animal Models for Acute Intervertebral Disc Herniation ResearchThomas D Slater, Beatrice Gagliostri, Matthew J Kibble, et al.
Acta Biomaterialia|May 8, 2025
Suspension bioprinted whole intervertebral disc analogues enable regional stiffness- and hypoxia-regulated matrix secretion by primary human nucleus pulposus and annulus fibrosus cellsMatthew J Kibble, Miguel J S Ferreira, Yusuf H Usta, et al.
Advanced Healthcare Materials|December 11, 2025
Ultrasound-Triggered Gelation for Restoring Biomechanical Properties of Degenerated Functional Spinal UnitsVeerle A Brans, Anna P Constantinou, Matthew J Kibble, et al.
Pageof 1

Showing results (1-10 of 6) with videos related to

Sort By:
Pageof 1
International Journal of Molecular Sciences|July 9, 2022
Importance of Matrix Cues on Intervertebral Disc Development, Degeneration, and RegenerationMatthew J Kibble, Marco Domingos, Judith A Hoyland, et al.
Journal of Biomechanics|April 19, 2026
Intradiscal pressurisation predicts intervertebral disc herniation: insights from a low-cost, open-source loading rigThomas D Slater, Ni Yia Choy, Matthew J Kibble, et al.
JOR Spine|April 24, 2024
Comparison of four in vitro test methods to assess nucleus pulposus replacement device expulsion riskTamanna Rahman, Matthew J Kibble, Gianluca Harbert, et al.
JOR Spine|September 26, 2025
A Comparison of Five Animal Models for Acute Intervertebral Disc Herniation ResearchThomas D Slater, Beatrice Gagliostri, Matthew J Kibble, et al.
Acta Biomaterialia|May 8, 2025
Suspension bioprinted whole intervertebral disc analogues enable regional stiffness- and hypoxia-regulated matrix secretion by primary human nucleus pulposus and annulus fibrosus cellsMatthew J Kibble, Miguel J S Ferreira, Yusuf H Usta, et al.
Advanced Healthcare Materials|December 11, 2025
Ultrasound-Triggered Gelation for Restoring Biomechanical Properties of Degenerated Functional Spinal UnitsVeerle A Brans, Anna P Constantinou, Matthew J Kibble, et al.
Pageof 1