Bone Morphogenetic Protein 7 Expression in Alveolar Bone Addition With Autologous Blood, Lyophilized Bone and Atelocollagen

Potential Role of BMP7 in Regenerative Dentistry

In recent years, the field of regenerative dentistry has garnered considerable attention for its focus on restoring and renewing damaged dental tissue. This narrative review explores the potential of bone morphogenetic protein 7 (BMP7) and its diverse applications in the regeneration of dental tissue. Recently, significant efforts have been made to understand BMP7's role in advancing regenerative dentistry. Amongst the various signalling molecules investigated for their regenerative capabilities, BMP7 emerges as a pivotal candidate, demonstrating the ability to stimulate the regeneration of dental pulp, periodontal, craniofacial, and alveolar bone tissues for dental implant placement. Whilst BMP7 exhibits significant promise as a therapeutic agent in regenerative dentistry, further research and clinical trials are necessary to fully unlock its potential and optimise its clinical effectiveness in addressing diverse dental and craniofacial conditions. This review highlights BMP7's substantial potential and emphasises the ongoing need for continued research to effectively harness its clinical utility in diverse dental and craniofacial contexts.

Secretome of Adipose-Derived Stem Cells Cultured in Platelet Lysate Improves Migration and Viability of Keratinocytes

Chronic wounds depict a silent epidemic challenging medical professionals worldwide. Regenerative medicine uses adipose-derived stem cells (ADSC) in promising new therapies. In this study, platelet lysate (PL) as a xenogen-free substitute for foetal bovine serum (FBS) in ADSC culture was used to create an ADSC secretome containing cytokines for optimal wound healing conditions. The ADSC secretome was tested on keratinocytes for migrational behaviour and viability. Therefore, human ADSC were characterized under FBS (10%) and PL (5% and 10%) substitution, regarding morphology, differentiation, viability, gene and protein expression. ADSC were then cultured in 5% PL and their secretome was used for stimulation of keratinocyte migration and viability. To enhance the effect, ADSC were treated with Epithelial Growth Factor (EGF, 100 ng/mL) and hypoxia (1% O₂). In both PL and FBS groups, ADSC expressed typical stem cell markers. PL induced a significantly higher increase in cell viability compared to FBS substitution. ADSC secretome contained various beneficial proteins which enhance the wound healing capacity of keratinocytes. This could be optimized treating ADSC with hypoxia and EGF. In conclusion, the study shows that ADSC cultivated in 5% PL can effectively support wound healing conditions and can be considered as a promising new therapy for individual treatment of chronic wound disorders.