Literatura
CASOS CLÍNICOS
Nitika N Bembi, Sumit Bembi, Jyoti Mago, Gurpreet Kaur Baweja, Parvinder Singh Baweja
Joao Gaspar, Joao Botelho, Luís Proença, Vanessa Machado, Leandro Chambrone, Rodrigo Neiva, José Joao Mendes
Vivek Gupta, Vivek Bains
Dr. Shruthi Raveendran, Dr. Shruthi, Dr. Nisha K, Dr. Sanjeela Guru, Dr. Parichaya Batra, Dr. Anjana Suresh U
Radovan Slezák, Vladimíra Paulusová
The Use of NovaBone and Norian in Cranioplasty: A Comparative Study
Elshahat, Ahmed MD; Shermak, Michele A. MD; Inoue, Nozomu MD, PhD; Chao, Edmund Y. S. PhD; Manson, Paul MD
Pesquisas
The Benefits of 45S5 Compared to S53P4
Dissolution of Glass–Ceramic Scafolds of Bioactive Glasses 45S5 and S53P4
Laura Aalto-Setälä, Minna Siekkinen, Nina Lindfors, Leena Hupa
Angiogenic potential
Angiogenesis induced by degradation products of hyaluronic acid
West, DC Hampson
Effect of Bioactive Glasses on Angiogenesis: A Review of In Vitro and In Vivo Evidences
Alejandro A. Gorustovich, Judith A. Roether, and Aldo R. Boccaccini
Stimulation of osteoinduction in bone wound healing by high-molecular hyaluronic acid
T. Sasaki, C. Watanbe
Antimicrobial properties
Recent Evidence on Bioactive Glass Antimicrobial and Antibiofilm Activity: A Mini-Review
Lorenzo Drago, Marco Toscano, Marta Botagisio
S. Y. El-Tablawy, Wesam M Abd-Allah, Eman Araby
David M. Gaisser David M. Gaisser, David C. Greenspan
Antibacterial effects and dissolution behavior of six bioactive glasses
Di Zhang, Outi Leppäranta, Eveliina Munukka, Heimo Ylänen, Matti K. Viljanen, Erkki Eerola, Mikko Hupa
Comparison of Reactions of Bioactive Glasses in Different Aqueous Solutions
Susanne Fagerlund, Leena Hupa, Mikko Hupa
Do bioactive glasses convey a disinfecting mechanism beyond a mere increase in pH?
M.Gubler, T. J. Brunner, M. Zehnder, T. Waltimo, B. Sener, W. J. Stark
Antimicrobial Effect of Nanometric Bioactive Glass 45S5
T.Waltimo, T.J. Brunner, […], and M. Zehnder
Antibacterial activity of particulate Bioglass against supra- and subgingival bacteria
I Allan, H Newman, M Wilson
Highly Osteoconductive material
Particulate bioglass compared with hydroxyapatite as a bone graft substitute
Oonishi, H.
Effect of Bioactive Glasses on Angiogenesis: A Review of In Vitro and In Vivo Evidences
Alejandro A. Gorustovich, Judith A. Roether, and Aldo R. Boccaccini
Stimulation of osteoinduction in bone wound healing by high-molecular hyaluronic acid
T.Sasaki, C. Watanabe
Osteostimulation
The Genetic Basis for Osteogenesis Stimulation
Hench, L. & Gaisser, D. M.
A Genetic Basis for Design of Biomaterials For In Situ Tissue Regeneration
Larry L. Hench, Julia M. Polak
Proven Bone Formation NB particulate
NovaBone
Ioannis D. Xynos, Alasdair J. Edgar, Lee D. K. Butery, Larry L. Hench, Julia M. Polak
I.D. Xynos, M. V. J. Hukkanen, J. J. Baten, L. D. Butery, L. L. Hench, J. M.Polak
HU Yong-cheng, ZHONG Ji-pin
Xiong ZHAO; Yishan MA; Qingda LU; Wei LEI; Qiang JIE
Superior Resorption Profile
In vivo absorbability of 45S5 Bioglass
David M. Gaisser
Z QIU, H YANG, J WU, L WEI AND J LI
D.Gaisser, D. Wheeler
Referências:
1. Hench LL, Gaisser DM. The Genetic Basis for Osteogenesis Stimulation by Controlled Release of Ionic Dissolution Products. Transactions of the Orthopedic Research Society, Annual Meeting, San Francisco, California, USA 2008 Mar (Vol. 1697)
2. Hench LL, Polak JM. A genetic basis for design of biomaterials for insitu tissue regeneration. Key Engineering Materials. 2008 Sep29;377:151-66.
3. HU, Yong-cheng; ZHONG, Ji-pin. Osteostimulation of bioglass. Chinese Medical Journal 122(19):p 2386-2389, October 2009. | DOI:10.3760/cma.j.issn.0366-6999.2009.19.035
4. Oonishi H, Kushitani S, Yasukawa E, Iwaki H, Hench LL, Wilson J, TsujiE, Sugihara T: Particulate Bioglass Compared with Hydroxyapatite as a Bone Graft Substitute. Clin Orthop, 334:316-325, 1997
5. Fujishiro Y, Hench LL, Oonishi H: Quantitative Rates of In vivo Bone Generation for Bioglass and Hydroxyapatite Particles as Bone Graft Substitute. J Mater Sci: Material in Medicine, 8:649-652, 1997
6. Vrouwenvelder WCA, Groot CG, de Groot K: Histological and Biochemical Evaluation of Osteoblasts Cultured on Bioactive Glass, Hydroxyapatite, Titanium Alloy and Stainless Steel. J. Biomed Res,27:465-475, 1993
7. Xynos ID, Hukkanen MVJ, Baten JJ, Butery LD, Hench LL, Polak, JM:Bioglass 45S5 Stimulates Osteoblast Turnover and Enhances Bone Formation In vitro: Implications and Applications for Bone Tissue Engineering. Calcif Tissue Int, 67:321–329, 2000.
8. Xynos ID, Edgar AJ, Butery LDK, Hench LL, Polak JM: Ionic Products of Bioactive Glass Dissolution Increase Proliferation of Human Osteoblasts and Induce Insulin-Like Growth Factor II mRNA Expression and Protein Synthesis. Biochem Biophys Res Comm,276:461-465, 2000.
9. Bosetti M, Cannas M: The Effect of Bioactive Glasses on Bone Marrow Stromal Cells Differentiation. Biomaterials, 26(18):3873-3879, 2005.
