Metrika

  • citati u SCIndeksu: [1]
  • citati u CrossRef-u:[1]
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:9
  • preuzimanja u poslednjih 30 dana:9

Sadržaj

članak: 7 od 17  
Back povratak na rezultate
2015, vol. 31, br. 72, str. 1538-1545
Nanotehnologija u stomatologiji - sadašnja i buduća (očekivana) primena
aUniverzitet u Nišu, Medicinski fakultet
bUniverzitet u Nišu, Medicinski fakultet, Stomatološka klinika

e-adresadr.gligorijevicnikola@gmail.com
Sažetak
Nanotehnologija je nauka koja se bavi istraživanjem i razvojem uređaja i materijala na molekulárnom, odnosno, aiomskom nivou, koja će u bliskoj budućnosti uticati na gotovo svaki aspekt ljudskog života. Danas možemo reći da je nanotehnologija sve prisutnija u polju medicinske dijagnostike i lečenja, uključujući i stomatologiju. Istraživači iz oblasti stomatoloških nauka uveliko istražuju potencijalne koristi nanotehnologije inkorporirane u postojeće terapeutske modalitete. Glavno polje njene primene u stomatologiji predstavljaju novi dijagnostički sistemi, lokalni agensi za oslobađanje leka, restorativni materijali, regenerativni materijali, materijali za koštane i tkivne graftove kao i poboljšanje strukture površine endostalnih implanata. Ovaj revijski rad pruža uvid u trenutni razvoj nanotehnologije u stomatologiji i razmatra njenu potencijalnu buduću primenu.
Reference
Beherei, H.H., El-Magharby, A., Abdel-Aal, M.S. (2011) Preparation and characterization of novel antibacterial nanoceramic-composites for bone grafting. Der Pharma Chemica, 3(6); 10-27
BioNanoPlus Drug Delivery Technologies Antiseptic mouthwash. Available at: http://bionanoplus.com/antiseptic-mouth-wash.html. 2014
Chalmers, N.I., Palmer, R.J., Du-Thumm, L., Sullivan, R., Shi, W., Kolenbrander, P.E. (2007) Use of Quantum Dot Luminescent Probes To Achieve Single-Cell Resolution of Human Oral Bacteria in Biofilms. Applied and Environmental Microbiology, 73(2): 630-636
Dresch, W., Volpato, S., Gomes, J.C., Ribeiro, N.R., Reis, A., Loguercio, A.D. (2006) Clinical Evaluation of a Nanofilled Composite in Posterior Teeth: 12-month Results. Operative Dentistry, 31(4): 409-417
Drexler, E. (1986) Engines of creation: The coming era of nanotechnology. Garden City, NY, itd: Anchor Books
Duke, E.S. (2003) Has dentistry moved into the nanotechnology era?. Compend Contin Educ Dent, 24: 380-382
Ellis-Behnke, R.G., Liang, Y.-X., You, S.-W., Tay, D.K.C., Zhang, S., So, K.-F., Schneider, G.E. (2006) Nano neuro knitting: Peptide nanofiber scaffold for brain repair and axon regeneration with functional return of vision. Proceedings of the National Academy of Sciences, 103(13): 5054-5059
Fioretti, F., Mendoza-Palomares, C., Helms, M., al Alam, D., Richert, L., Arntz, Y., Rinckenbach, S., Garnier, F., Haïkel, Y., Gangloff, S.C., Benkirane-Jessel, N. (2010) Nanostructured assemblies for dental application. ACS nano, 4(6): 3277-87
Freitas, R.A. (1999) Nanomedicine basic capabilities. Georgetown, TX: Landes Bioscience, 345-47
Furmann, B.R., Nicolella, D., Wellinghof, S.T., i dr. (2000) A radiopaque zirconia microfiller for translucent composite restoratives. Dent Res, 79: 246
Gau, V., Wong, D. (2007) Oral Fluid Nanosensor Test (OFNASET) with Advanced Electrochemical-Based Molecular Analysis Platform. Annals of the New York Academy of Sciences, 1098(1): 401-410
Greenwald, A., Boden, S.D., Goldberg, V.M., Khan, Y., Laurencin, C.T., Rosier, R.N. (2001) Bone-Graft Substitutes: Facts, Fictions, and Applications. Journal of Bone and Joint Surgery-American Volume, 83: 98-103
Kaehler, T. (1994) Nanotechnology: Basic concepts and definitions. Clin Chem, 40: 1797-99
Kailasanathan, C., Selvakumar, N., Naidu, V. (2012) Structure and properties of titania reinforced nano-hydroxyapatite/gelatin bio-composites for bone graft materials. Ceramics International, 38(1): 571-579
Kathuria, R., Pandit, N., Jain, A., Bali, D., Gupta, S. (2012) Comparative evaluation of two forms of calcium sulfate hemihydrate for the treatment of infrabony defects. Indian J of Dent Sci, 4(2); 30-36
Kelly, C.M., Wilkins, R.M., Gitelis, S., Hartjen, C., Watson, J., Kim, P.T. (2001) The Use of a Surgical Grade Calcium Sulfate as a Bone Graft Substitute. Clinical Orthopaedics and Related Research, 382: 42-50
Lee, S.Y., Kwon, H.K., Kim, B.I. (2008) Effect of dentinal tubule occlusion by dentifrice containing nano-carbonate apatite. Journal of Oral Rehabilitation, 35(11): 847-853
Mendonça, G., Mendonça, D.B.S., Aragão, F.J.L., Cooper, L.F. (2008) Advancing dental implant surface technology - From micron- to nanotopography. Biomaterials, 29(28): 3822-3835
Mitra, S.B., Wu, D., Holmes, B.N. (2003) An application of nanotechnology in advanced dental materials. Journal of the American Dental Association, 134(10): 1382-90
Pragati, S., Ashok, S., Kuldeep, S. (2009) Recent advances in periodontal drug delivery systems. International Journal of Drug Delivery, 1(1): 1-14
Reves, B.T., Jennings, J.A., Bumgardner, J.D., Haggard, W.O. (2012) Preparation and Functional Assessment of Composite Chitosan-Nano-Hydroxyapatite Scaffolds for Bone Regeneration. Journal of Functional Biomaterials, 3(1): 114-130
Rodgers, P. (2006) Nanoelectronics: Single file. Nature Nanotechnology
Sahoo, S.K., Parveen, S., Panda, J.J. (2007) The present and future of nanotechnology in human health care. Nanomedicine: Nanotechnology, Biology and Medicine, 3(1): 20-31
Singh, V., Nayak, D., Uppoor, A., Shah, D. (2012) Clinical and radiographic evaluation of Nano-crystalline hydroxyapatite bone graft (Sybograf ® ) in combination with bioresorbable collagen membrane (Periocol ® ) in periodon. Dental Research Journal, 9(1): 60
Srinivasan, S., Jayasree, R., Chennazhi, K.P., Nair, S.V., Jayakumar, R. (2012) Biocompatible alginate/nano bioactive glass ceramic composite scaffolds for periodontal tissue regeneration. Carbohydrate Polymers, 87(1): 274-283
Tanaka, K., Kato, K., Noguchi, T., Nakaseko, H., Akahane, S. (2014) Change in translucency of posterior restorative glassionomer cements. IADR, https://iadr.confex.com/iadr/2007orleans/techprogramforcd/A89310.htm
Taniguchi, N. (1974) u: Proceedings of the International Conference on Precision Engineering (ICPE), Tokyo, Japan, 18-23
Vaikuntam, J. (1997) Resin-modified glass ionomer cements (RM GICs) implications for use in pediatric dentistry. J Dent Child, 64(2):131- 134
Vandiver, J., Dean, D., Patel, N., Bonfield, W., Ortiz, C. (2005) Nanoscale variation in surface charge of synthetic hydroxyapatite detected by chemically and spatially specific high-resolution force spectroscopy. Biomaterials, 26(3): 271-283
Youngblood, T.A., Nicolella, D.P., Lankford, J., i dr. (2000) Wear and select mechanical properties of a zirconia nanofilled resin composite. J Dent Res, 79: 365
 

O članku

jezik rada: srpski, engleski
vrsta rada: članak
DOI: 10.5937/asn1572538G
objavljen u SCIndeksu: 05.01.2017.
Creative Commons License 4.0

Povezani članci

Nema povezanih članaka