Oral Health as A Determinant in Preventing Cellular Aging and Promoting Immune Sustainability
Abstract:
Background: This study assessed the effects of ceramic dental implant placement on inflammatory responses, im-mune function, and cellular aging in a 53-year-old female patient. This study aimed to determine whether minimally invasive implant procedures combined with regenerative techniques can influence biological aging and systemic in-flammation.
Subjects and Methods: A comprehensive treatment approach was used, including minimally invasive ceramic dental implant placement, platelet-rich fibrin (PRF) augmentation, and vitamin supplementation. Advanced imaging and biomarker analyses have evaluated implant osseointegration, inflammatory profiles, immune responses, and telomere length as markers of cellular health and aging.
Results: Successful implant osseointegration was observed along with a favorable inflammatory profile, as reflected by increased levels of the anti-inflammatory cytokine IL-10. An improvement in telomere length suggests potential ben-efits to cellular health. However, a slight increase in biological aging was observed, as indicated by the glycan profile. These findings underscore the complex interactions between oral health, systemic inflammation, and biological aging.
Conclusions: This study provides new insights into the regenerative and anti-aging potential of dental treatments, indicating that ceramic dental implants combined with regenerative therapies may reduce immunological stress and support healthy aging. Although reduced inflammation and improved oral function are evident, the long-term effects on cellular aging and longevity remain unclear. Further studies are needed to better understand the impact of these interventions on biological aging and overall health.
