Person:
Blanco Jerez, Luis

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First Name
Luis
Last Name
Blanco Jerez
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Odontología
Department
Area
Estomatología
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2006 - 200912010 - 20171
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    Publication
    Efecto de la hormona de crecimiento, el plasma rico en plaquetas y la brushita sobre la regeneración ósea
    (Universidad Complutense de Madrid, 2017-01-13) Blanco Jerez, Luis; Martínez González, José Mª
    Desde los tiempos míticos, el hombre ha soñado con la posibilidad de que sus tejidos dañados por la enfermedad, las heridas o la senescencia pudiesen ser regenerados y sustituidos por unos nuevos plenos de vida La medicina regenerativa o Ingeniería Tisular es una de las ramas de la investigación biomédica que más se ha desarrollado en los últimos años y que al mismo tiempo presenta unas perspectivas de futuro prometedoras. Desde un punto de vista un tanto academicista, que permite simplificar el abordaje del tema, consideramos que esta estrategia terapéutica se basa en tres pilares...
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    Bone augmentation in rabbit calvariae: comparative study between Bio-Oss® and a novel B-TCP/DCPD granulate
    (Wiley-Blackwell, 2006) Tamimi, Faleh; Torres García-Denche, Jesús; Tresguerres, Isabel; Clemente, Celia; López Cabarcos, Enrique; Blanco Jerez, Luis
    Aim: In the present in vivo study, we compare the bone regeneration capacity of a novel brushite cement synthesized in our laboratory (DTG) with Bio-Oss® using rabbits as an animal model. Methods: The study was performed in a group of 14 adult New Zealand rabbits using the bone conduction model. Two titanium cylinders were fixed into perforated slits made on the parietal cortical bone of each rabbit. One cylinder was left empty (negative control) and the other was filled with either Bio-Oss® or brushite set cement granules (test cylinder). Four weeks after the intervention, the animals were sacrified and biopsies were taken. The following parameters were analysed: bone tissue augmentation, bone mineral density and biomaterials resorption. The comparison of data between the different groups was performed using the Mann-Whitney test with a significance level of p<0.05. Results: The mean bone mineral density and augmented mineral tissue inside the test cylinders were similar but higher than those of negative controls. Material resorption and bone tissue augmentation were significantly higher in the defects treated with the brushite-based set cement (p<0.05). Conclusions: Brushite cement granules were more resorbable and generated more bone tissue than Bio-Oss® inside the titanium cylinders placed in the rabbit calvaria.