Abstract
The purpose of this research was to examine the effect of biphasic hydroxyapatite and b-tricalcium phosphate (HAp-bTCP) immobilized GDF-5 to assess the hypothesis that osteoblast is enhanced and bone formation is promoted when compared to biphasic HAp-bTCP in vitro and in vivo. First, we characterized the release profiles from HAp-bTCP and tested their cell viability, differentiation. After that, we loaded GDF-5 to HAp-bTCP. In the animal study, 4 full thickness critical-size calvarial defects were prepared in a total of 16 male rabbits. The cranial defects were filled with HAP-bTCp, or heparized HAP-bTCP. At 5 and 10 weeks, dissected specimens were processed for histological and histochemical analysis. GDF-5 was considered to be released in a sustained mode from HAp-bTCP. In vitro results provided that the proliferation and differentiation of MG-63 cells to HAp-bTCP-GDF-5 was higher than that of the control group. In addition, in vivo animal studies showed that HAp-bTCP-GDF-5 has a significant improvement to bone formation. HAp-bTCP-GDF-5 is thought to be an excellent biomaterial that delivers osteogenic differentiation factors such as GDF-5, and GDF-5 can be possibly useful as an effective alternative to avail new bone formation.
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G. Orsini, T. Traini, A. Scarano, M. Degidi, V. Perrotti, M. Piccirilli, and A. Piattelli, J. Biomed. Mater. Res. Part. B: Appl. Biomater., 74: 448 (2005).
M. R. Urist, Science, 150: 893 (1965).
J. M. Wozney, V. Rosen, A. J. Celeste, L. M. Mitsock, M. J. Whitters, R. W. Kriz, R. M. Hewick, and E. A. Wang, Science, 242: 1528 (1988).
A. H. Reddi, Nat. Biotechnol., 16: 247 (1998).
F. J. Hughes, W. Turner, G. Belibasakis, and G. Martuscelli, Periodontol. 2000: 41, 48 (2006).
P. J. Boyne, R. E. Marx, M. Nevins, G. Triplett, E. Lazaro, L. C. Lilly, M. Alder, and P. Nummikoski, Int. J. Periodontics Restorative Dent., 17: 11 (1997).
T. H. Howell, J. Fiorellini, A. Jones, M. Alder, P. Nummikoski, M. Lazaro, L. Lilly, and D. Cochran, Int. J. Periodontics Restorative Dent., 17: 124 (1997).
H. Nishitoh, H. Ichijo, M. Kimura, T. Matsumoto, F. Makishima, A. Yamaguchi, H. Yamashita, S. Enomoto, and K. Miyazono, J. Biol. Chem., 271: 21345 (1996).
S. C. Chang, B. Hoang, J. T. Thomas, S. Vukicevic, F. P. Luyten, N. J. Ryba, C. A. Kozak, A. H. Reddi, and M. Moos, Jr., J. Biol. Chem., 269: 28227 (1994).
Y. Morotome, M. Goseki-Sone, I. Ishikawa, and S. Oida, Biochem. Biophys. Res. Commun., 244: 85 (1998).
P. Buxton, C. Edwards, C. W. Archer, and P. Francis-West, J. Bone Joint Surg. Am., 83–A Suppl 1, S23 (2001).
F. H. Shen, Q. Zeng, Q. Lv, L. Choi, G. Balian, X. Li, and C. T. Laurencin, Spine J., 6: 615 (2006).
Q. Zeng, X. Li, G. Beck, G. Balian, and F. H. Shen, Bone, 40: 374 (2007).
R. M. Gruber, A. Ludwig, H. A. Merten, M. Achilles, S. Poehling, and H. Schliephake, Clin. Oral Implants Res., 19: 522 (2008).
H.-J. Moon, Y.-P. Yun, C.-W. Han, M.-S. Kim, S.-E. Kim, M.-S. Bae, G.-T. Kim, Y.-S. Choi, E.-H. Hwang, J.-W. Lee, J.-M. Lee, C.-H. Lee, D.-S. Kim, and I.-K. Kwon, Biochem. Biophys. Res. Commun., 413: 194 (2011).
S.-E. Kim, S.-H. Song, Y.-P. Yun, B.-J. Choi, I.-K. Kwon, M.-S. Bae, H.-J. Moon, and Y.-D. Kwon, Biomaterials, 32: 366 (2011).
R. Sasisekharan, S. Ernst, and G. Venkataraman, Angiogenesis, 1: 45 (1997).
S. R. Bryant, Int. J. Prosthodont., 11: 470 (1998).
J. A. Porter and J. A. von Fraunhofer, Gen. Dent., 53: 423 (2005).
G. Cricchio and S. Lundgren, Clin. Implant Dent. Relat. Res., 5: 161 (2003).
R. E. Jung, D. S. Thoma, and C. H. Hammerle, J. Clin. Periodontol., 35: 255 (2008).
R. Gruber, C. Mayer, W. Schulz, W. Graninger, M. Peterlik, G. Watzek, F. P. Luyten, and L. Erlacher, Cytokine, 12: 1630 (2000).
D. A. Puleo, J. Cell. Physiol., 173: 93 (1997).
A. Yamaguchi, T. Ishizuya, N. Kintou, Y. Wada, T. Katagiri, J.M. Wozney, V. Rosen, and S. Yoshiki, Biochem. Biophys. Res. Commun., 220: 366 (1996).
F. P. Koch, C. Weinbach, E. Hustert, B. Al-Nawas, and W. Wagner, Int. J. Periodontics Restorative Dent., 32: 285 (2012).
F. P. Koch, J. Becker, H. Terheyden, B. Capsius, W. Wagner, and R. G. M. C. Trial, Clin. Oral Implants Res., 21: 1301 (2010).
H. Kuniyasu, H. Yukito, A. Yajima, M. Ochi, H. Kagami, T. Shigino, K. Sakaguchi, and J. Pohl, in 3rd World Congress of Osseointegration, Italy, 2001.
A. Stavropoulos, J. Becker, B. Capsius, Y. Acil, W. Wagner, and H. Terheyden, J. Clin. Periodontol., 38: 966 (2011).
D. P. Magit, T. Maak, N. Trioano, B. Raphael, Q. Hamouria, G. Polzhofer, I. Drespe, T. J. Albert, and J. N. Grauer, Spine (Phila Pa 1976), 31: 2180 (2006).
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Acknowledgment: This research was supported by a grant of the Korea Health Technology R&D project through the KHIDI, funded by the Ministry of Health & Welfare, Republic of Korea (HI14C0175).
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Ohe, JY., Choi, BJ., Jung, J. et al. Osteoblastic Differentiation of Functionalized Biphasic Hydroxyapatite and b-Tricalcium Phosphate with Recombinant Human Growth and Differentiation (rhGDF-5). Macromol. Res. 26, 1011–1018 (2018). https://doi.org/10.1007/s13233-018-6142-9
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DOI: https://doi.org/10.1007/s13233-018-6142-9