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Piezoelectric hydrogel for treatment of periodontitis through bioenergetic activation

Xin Liu, Xingyi Wan, Baiyan Sui, Quanhong Hu, Zhirong Liu, Tingting Ding, Jiao Zhao, Yuxiao Chen, Zhong Lin Wang, Linlin Li

2024Bioactive Materials84 citationsDOIOpen Access PDF

Abstract

The impaired differentiation ability of resident cells and disordered immune microenvironment in periodontitis pose a huge challenge for bone regeneration. Herein, we construct a piezoelectric hydrogel to rescue the impaired osteogenic capability and rebuild the regenerative immune microenvironment through bioenergetic activation. Under local mechanical stress, the piezoelectric hydrogel generated piezopotential that initiates osteogenic differentiation of inflammatory periodontal ligament stem cells (PDLSCs) via modulating energy metabolism and promoting adenosine triphosphate (ATP) synthesis. Moreover, it also reshapes an anti-inflammatory and pro-regenerative niche through switching M1 macrophages to the M2 phenotype. The synergy of tilapia gelatin and piezoelectric stimulation enhances in situ regeneration in periodontal inflammatory defects of rats. These findings pave a new pathway for treating periodontitis and other immune-related bone defects through piezoelectric stimulation-enabled energy metabolism modulation and immunomodulation.

Topics & Concepts

Periodontal ligament stem cellsCell biologyPeriodontitisImmune systemRegeneration (biology)Regenerative medicineOsteoimmunologyStimulationBioenergeticsChemistryMaterials scienceStem cellImmunologyBiologyMedicineDentistryNeuroscienceBiochemistryAlkaline phosphataseActivator (genetics)EnzymeGeneRANKLMitochondrionNeonatal Respiratory Health ResearchMesenchymal stem cell researchExtracellular vesicles in disease
Piezoelectric hydrogel for treatment of periodontitis through bioenergetic activation | Litcius