Biblio
Harnessing Mechanical Stress with Viscoelastic Biomaterials for Periodontal Ligament Regeneration. Adv Sci (Weinh). 2024:e2309562.
Biotin-Avidin System-Based Delivery Enhances the Therapeutic Performance of MSC-Derived Exosomes. ACS Nano. 2023.
Long non-coding RNA AC018926.2 regulates palmitic acid exposure-compromised osteogenic potential of periodontal ligament stem cells via the ITGA2/FAK/AKT pathway. Cell Prolif. 2023:e13411.
NADPH-dependent ROS accumulation contributes to the impaired osteogenic differentiation of periodontal ligament stem cells under high glucose conditions. Front Endocrinol (Lausanne). 2023;14:1152845.
. Retraction Note: Role of the P2X7 receptor in inflammation-mediated changes in the osteogenesis of periodontal ligament stem cells. Cell Death Dis. 2023;14(12):847.
. Gold nanoparticles targeting the autophagy-lysosome system to combat the inflammation-compromised osteogenic potential of periodontal ligament stem cells: From mechanism to therapy. Biomaterials. 2022:121743.
Roles of extracellular vesicles in periodontal homeostasis and their therapeutic potential. J Nanobiotechnology. 2022;20(1):545.
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Correction to: Treatment of periodontal intrabony defects using autologous periodontal ligament stem cells: a randomized clinical trial. Stem Cell Res Ther. 2018;9(1):260.
Stromal cell-derived factor-1-directed bone marrow mesenchymal stem cell migration in response to inflammatory and/or hypoxic stimuli. Cell Adh Migr. 2016.
. Treatment of periodontal intrabony defects using autologous periodontal ligament stem cells: a randomized clinical trial. Stem Cell Res Ther. 2016;7(1):33.
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