PL EN
PRACA POGLĄDOWA
Wykorzystanie pomiaru twardości zmineralizowanych tkanek zęba w doświadczalnych badaniach stomatologicznych – przegląd piśmiennictwa
 
Więcej
Ukryj
1
Medical University of Łódź
 
2
Department of Materials Research of the Institute of Materials Science and Engineering, Technical University of Lodz, Poland Department of Dental Technique, Medical University of Lodz, Poland
 
3
Department of Conservative Dentistry, Medical University of Łódź, Poland
 
 
Prosthodontics 2013;63(3):217-223
 
SŁOWA KLUCZOWE
 
REFERENCJE (31)
1.
Craig R.: Materiały stomatologiczne. Własności mechaniczne., Elsevier Urban & Partner, Wrocław, 2008, 51-94.
 
2.
Al-Salehi S. K., Wood D. J., Hatton P. V.: The effect of 24h non-stop hydrogen peroxide concentration on bovine enamel and dentine mineral content and microhardness. J. Dent., 2007, 35, 11, 845-850.
 
3.
Bayrak S., Tunc E. S., Sonmez I. S., Egilmez T., Ozmen B.: Effects of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) application on enamel microhardness after bleaching. Am. J. Dent., 2009, 22, 6, 393-396.
 
4.
Bedini R., Manzon L., Fratto G., Pecci R.: Microhardness and morphological changes induced by Nd:Yag laser on dental enamel: an in vitro study. Ann. Ist. Super. Sanita, 2010, 46, 2, 168-172.
 
5.
Borczyk D., Klimek L., Piątowska D.: Ocena mikrotwardości zębiny próchnicowej – badania laboratoryjne. Czas. Stomatol., 2002, LV, 12, 399-403.
 
6.
Borges A. B., Yui K. C., D’Avila T. C., Takahashi C. L., Torres C. R., Borges A. L.: Influence of remineralizing gels on bleached enamel microhardness in different time intervals. Oper. Dent., 2010, 35, 2, 180-186.
 
7.
Fuentes V., Toledano M., Osorio R., Carvalho R. M.: Microhardness of superficial and deep sound human dentin. J. Biomed. Mater. Res. A., 2003, 66, 4, 850-853.
 
8.
Klimek L., Olejniczak M.: Pomiary twardości zębiny. Mag. Stomatol., 2004, 11, 155, 82-84.
 
9.
Ozbek M., Kanli A., Dural S., Sahin I., Gonen E., Tulunoglu I.: Effects of pregnancy and lactation on the microhardness of rat incisor dentine and enamel. Arch. Oral Biol., 2004, 49, 8, 607-612.
 
10.
Arcari G. M., Baratieri L. N., Maia H. P., De Freitas S. F.: Influence of the duration of treatment using a 10% carbamide peroxide bleaching gel on dentin surface microhardness: An in situ study. Quint. Int., 2005, 36, 1, 15-24.
 
11.
Domiciano S. J., Colucci V., Campos Serra M.: Effect of two restorative materials on root dentine erosion. J. Biomed. Mater. Res., Part B: Appl. Biomater., 2010, 93B, 2, 304-308.
 
12.
Faraoni-Romano J. J., Da Silveira A. G., Turssi C. P., Serra M. C.: Bleaching agents with varying concentrations of carbamide and/or hydrogen peroxides: Effect on dental microhardness and roughness. J. Esthet. Restor. Dent., 2008, 20, 6, 395-402.
 
13.
Meredith N., Sherriff M., Setchell D. J., Swanson S. A. V.: Measurement of the microhardness and Young’s modulus of human enamel and dentine using an indentation technique. Arch. Oral Biol., 1996, 41, 6, 539-545.
 
14.
Braly A., Darnell L. A., Mann A. B., Teaford M. F., Weihs T. P.: The effect of prism orientation on the indentation testing of human molar enamel. Arch. Oral Biol., 2007, 52, 9, 856- 860.
 
15.
Buchalla W., Imfeld T., Attin T., Swain M. V., Schmidlin P. R.: Relationship between nanohardness and mineral content of artificial carious enamel leasions. Caries Res., 2008, 42, 3, 157-163.
 
16.
Cuy J. L., Mann A. B., Livi K. J., Teaford M. F., Weihs T. P.: Nanoindentation mapping of the mechanical properties of human molar tooth enamel. Arch. Oral Biol., 2002, 47, 4, 281-291.
 
17.
Inoue T., Saito M., Yamamoto M., Debari K., Kou K., Nishimura F., Miyazaki T.: Comparison of nanohardness between coronal and radicular intertubular dentine. Dent. Mater. J., 2009, 28, 3, 295-300.
 
18.
Kinney J. H., Balooch M., Marshall S. J., Marshall G. W. Jr, Weihs T. P.: Hardness and Young modulus of human peritubular and intertubular dentine. Arch. Oral Biol., 1996, 41, 1, 9-13.
 
19.
Senawongse P., Otsuki M., Tagami J., Mjor I.: Age-related changes in hardness and modulus of elasticity of dentine. Arch. Oral Biol., 2006, 51, 6, 457-463.
 
20.
Gutierrez-Salazar M. P., Reyes-Gasga J.: Microhardness and chemical composition of human tooth. Mater. Res., 2003, 6, 367-373.
 
21.
Habelitz S., Marshall S. J., Marshall Jr G. W., Balooch M.: Mechanical properties of human dental enamel on the nanometre scale. Arch. Oral Biol., 2001, 46, 2, 173-183.
 
22.
Ribeiro Cirano F., Romito G. A., Todescan J. H.: Determination of root dentin and cementum micohardeness. Braz. J. Oral Sci., 2004, 3, 8, 420-424.
 
23.
Currey J. D., Brear K.: Hardness, Young’s modulus and yield stress in mammalian mineralized tissues. J. Mater. Sci. Mater. Med., 1990, 1, 14-20.
 
24.
Stopa J., Matthews-Brzozowska T., Kurhańska-Flisykowska A., Surdacka A., Chmielnik M., Wąsik A.: Badania stomatologiczne z zastosowaniem zębów ludzkich i bydlęcych w modelu wewnątrzustnym. Materiały naukowe konferencji poświęconej 20ej rocznicy Katedry Stomatologii Wieku Dziecięcego, Lwów, 1996, 103-104.
 
25.
Torres C. P., Chinelatti M. A., Gomes-Silva J. M., Rizóli F. A., Oliveira M. A., Palma-Dibb R. G., Borsatto M. C.: Surface and subsurface erosion of primary enamel by acid beverages over time. Braz. Dent. J., 2010, 21, 4, 337-345.
 
26.
Turssi C. P., Messias D. F., Corona S. M., Serra M. C.: Viability of using enamel and dentin from bovine origin as a substitute for human counterparts in an intraoral erosion model. Braz. Dent. J., 2010, 21, 4, 332-336.
 
27.
Czubińska-Grodecka D., Klimek L., Piątowska D.: Wpływ wybielania 35% nadtlenkiem wodoru na mikrotwardość szkliwa zębów ludzkich. Badania in vitro. e-Dentico, 2010, 2, 26, 70-82.
 
28.
Ballal N. V., Mala K., Bhat K. S.: Evaluation of the effect of maleic acid and ethylenediaminetetraacetic acid on the microhardness and surface roughness of human root canal dentin. J. Endod., 2010, 36, 8, 1385-1388.
 
29.
Skórska-Jasak A., Klimek L., Pawlicka H.: Wpływ kwasu cytrynowego i EDTA na mikrotwardość zębiny korzeniowej. Czas. Stomat., 2007, LX, 10, 650-655.
 
30.
Kozuń A., Łęski M., Klimek L.: Effect of Gutta-Percha solvents on radicular dentine microhardness. Pol. J. Environ. Stud., 2009, 18, 1A, 252-255.
 
31.
Viana P. S., Machado A. L., Giampaolo E. T., Pavarina A. C., Vergani C. E.: Disinfection of bovine enamel by microwave irradiation: effect on the surface microhardness and demineralization/remineralization processes. Caries Res., 2010, 44, 4, 349-357.
 
eISSN:2391-601X
ISSN:0033-1783
Journals System - logo
Scroll to top