TY - JOUR
A1 - Barros Mourão, Carlos
A1 - Gheno, Ezio
A1 - Lourenço, Emanuelle
A1 - Barbosa, Renata
A1 - Kurtzman, Gregori
A1 - Javid, Kayvon
A1 - Mavropoulos, Elena
A1 - Benedicenti, Stefano
A1 - Calasans-Maia, Mônica
A1 - de Mello Machado, Rafael
A1 - Alves, Gutemberg
T1 - Characterization of a new membrane from concentrated growth factors associated with denaturized Albumin (Alb-CGF) for clinical applications: A preliminary study
Y1 - 2018/5/1
JF - International Journal of Growth Factors and Stem Cells in Dentistry
JO - Int J Growth Factors Stem Cells Dent
SP - 64
EP - 69
VL - 1
IS - 2
UR - https://www.cellsindentistry.org/article.asp?issn=2589-7330;year=2018;volume=1;issue=2;spage=64;epage=69;aulast=Barros
DO - 10.4103/GFSC.GFSC_21_18
N2 -
Background: One of the main issues pertaining to the use of fibrin membranes today, is their clinical efficacy for guided bone regeneration. This requires the need for membrane stability and a controlled resorption that enables the barrier to remain functionally during a relevant clinical time span. Human serum albumin is known to have an impact in the formation and stability of the fibrin networks density and permeability. Therefore, its interaction with fibrin aggregates may provide interesting features to autologous blood-derived biomaterials. Aim: In this context, the present study sought to characterize membranes produced through a modified protocol for concentrated growth factors (CGF) associated with activated plasma albumin gel (APAG). Method: Mixing denaturized albumin with CGF from the same blood samples into glass containers resulted in solid malleable membranes, with a modified denser ultrastructure as revealed by scanning electron microscopy (SEM). Results: The membranes presented a high density of nucleated cells, uniformly distributed along its length, and were able to release growth factors such as PDGF, VEGF, and FGF2 for 7 days. Conclusion: This preliminary study indicates that the protocol may provide autologous moldable and stable biomaterials for use as a soft tissue barrier, offering the basis for further research on its effectiveness for guided tissue regeneration.
ER -