Low-Temperature Calcium Phosphate Ceramics Can Modulate Monocytes and Macrophages Inflammatory Response In Vitro.
Vladislav V MinaychevPolina V SmirnovaMargarita I KobyakovaAnastasia Yu TeterinaIgor V SmirnovVladimir D SkirdaArtem S AlexandrovMarat R GafurovMikhail A ShlykovKira V PyatinaAnatoliy S SenotovPavel S SalynkinRoman S FadeevVladimir S KomlevIrina Sergeevna FadeevaPublished in: Biomedicines (2024)
Creating bioactive materials for bone tissue regeneration and augmentation remains a pertinent challenge. One of the most promising and rapidly advancing approaches involves the use of low-temperature ceramics that closely mimic the natural composition of the extracellular matrix of native bone tissue, such as Hydroxyapatite (HAp) and its phase precursors (Dicalcium Phosphate Dihydrate-DCPD, Octacalcium Phosphate-OCP, etc.). However, despite significant scientific interest, the current knowledge and understanding remain limited regarding the impact of these ceramics not only on reparative histogenesis processes but also on the immunostimulation and initiation of local aseptic inflammation leading to material rejection. Using the stable cell models of monocyte-like (THP-1ATRA) and macrophage-like (THP-1PMA) cells under the conditions of LPS-induced model inflammation in vitro, the influence of DCPD, OCP, and HAp on cell viability, ROS and intracellular NO production, phagocytosis, and the secretion of pro-inflammatory cytokines was assessed. The results demonstrate that all investigated ceramic particles exhibit biological activity toward human macrophage and monocyte cells in vitro, potentially providing conditions necessary for bone tissue restoration/regeneration in the peri-implant environment in vivo. Among the studied ceramics, DCPD appears to be the most preferable for implantation in patients with latent inflammation or unpredictable immune status, as this ceramic had the most favorable overall impact on the investigated cellular models.
Keyphrases
- inflammatory response
- lps induced
- induced apoptosis
- oxidative stress
- extracellular matrix
- bone mineral density
- endothelial cells
- dendritic cells
- stem cells
- cell cycle arrest
- soft tissue
- bone regeneration
- adipose tissue
- cell death
- healthcare
- peripheral blood
- bone loss
- dna damage
- reactive oxygen species
- single cell
- endoplasmic reticulum stress
- toll like receptor
- body composition
- cell therapy
- stress induced
- high resolution
- mesenchymal stem cells
- bone marrow