Bibliographic citations
Paredes, F., (2015). Efecto del injerto óseo humano liofilizado particulado mineralizado y membrana amniótica humana liofilizada en la regeneración ósea en tibias de conejos [Tesis, Universidad Nacional Mayor de San Marcos]. https://hdl.handle.net/20.500.12672/4302
Paredes, F., Efecto del injerto óseo humano liofilizado particulado mineralizado y membrana amniótica humana liofilizada en la regeneración ósea en tibias de conejos [Tesis]. PE: Universidad Nacional Mayor de San Marcos; 2015. https://hdl.handle.net/20.500.12672/4302
@mastersthesis{renati/491504,
title = "Efecto del injerto óseo humano liofilizado particulado mineralizado y membrana amniótica humana liofilizada en la regeneración ósea en tibias de conejos",
author = "Paredes Nomberto, Frank Michael",
publisher = "Universidad Nacional Mayor de San Marcos",
year = "2015"
}
In the medical-dental area, have conducted research in the search for natural or synthetic substances that replace lost body tissues, whether they are soft or hard tissues. The guided bone regeneration (GBR), is based on the use of barrier systems using membranes that isolate a particular bone defect with intent to prevent the growth of tissues with fast serviceability, as connective tissue, which interfere with the potential osteogenic defect. The present study aimed to determine the effect of human lyophilized bone graft particulate mineralized in combination with Lyophilized Human Amniotic Membrane in bone regeneration in rabbit tibias. 10 New Zealand white rabbits were used for 6 to 9 months of age, males and females in good condition, 3.5 Kg-4 Kg. Of weight in which circular bone defects of 4mm diameter were created on the ventral side of the tibiae of rabbits. Formed 2 groups, a control group (only placed lyophilized human amniotic membrane) and study group (lyophilized human bone was placed mineralized particulate in combination with lyophilized human amniotic membrane as a barrier). The animals were sacrificed at 16 weeks of surgery, performed a clinical and histological analysis of the area where the bone defects were created. It was concluded that bone regeneration was significantly higher in the defects covered with lyophilized human bone particulate miineralizado in combination with human amniotic membrane lyophilized samples compared to control group in which only lyophilized human amniotic membrane as a barrier was placed. Keywords: Guided bone regeneration, amniotic membrane, lyophilized human bone mineralized particulate.
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