Silva, NeusaMarques, Joanada Cruz, Mariana B.Luis, HenriqueSério, SusanaMata, António2023-11-292023-11-292023-07-23Silva, N., Marques, J., da Cruz, M. B., Luís, H., Sério, S., Mata, A., Plasma. Process. Polym. 2023, e2300067. https://doi.org/10.1002/ppap.2023000671612-8850http://hdl.handle.net/10400.8/8983ACKNOWLEDGMENTSNeusa Silva sincerely acknowledges Fundação para aCiência e a Tecnologia (FCT) for the PhD Scholarship—Cold Atmospheric Plasma for periodontal and peri‐implant disease treatment: antibacterial effects andcellular response, 2022. 13655. BD. The authors alsothank the research center Grants N°. UIDP/FIS/04559/2020 (LIBPhys), from FCT, Portugal.Cold atmospheric plasma (CAP), as a noninvasive technology, has shown promise in dentistry as it might successfully treat various oral conditions. The antimicrobial capacity of CAP has been proven and it is effective in reducing the main microorganisms responsible for oral infections. Furthermore, CAP has also been explored in the field of tissue regeneration with a great response from both soft and hard tissue. The surface modification ability of CAP is another area of interest, revealing a potential improvement in the osseointegration of dental implants. Additionally, there are other areas within dentistry that have studied the use of CAP, such as surface disinfection, bleaching, and cavity preparation.engAntimicrobialBiocompatibilityCold atmospheric plasmaDentistryjournal articlehttps://doi.org/10.1002/ppap.2023000671612-8869