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1Perspectives for Titanium-Derived Fillers Usage on Denture Base Composite Construction: A Review Article
Nidal W. Elshereksi,Mariyam J. Ghazali,Andanastuti Muchtar,Che H. Azhari
Advances in Materials Science and Engineering.2014;2014()1
[DOI]
2Perspectives for Titanium-Derived Fillers Usage on Denture Base Composite Construction: A Review Article
Aleksandra Radtke
Advances in Materials Science and Engineering.2017;2014()1
[DOI]
3Implant biomaterials: A comprehensive review
Monika Saini
World Journal of Clinical Cases.2015;3(1)52
[DOI]
4Biodistribution of titanium dioxide from biologic compartments
Daniel G. Olmedo,Deborah R. Tasat,María Beatriz Guglielmotti,Rómulo Luis Cabrini
Journal of Materials Science: Materials in Medicine.2008;19(9)3049
[DOI]
5Controversies in orbital reconstruction—III. Biomaterials for orbital reconstruction: a review with clinical recommendations
L. Dubois,S.A. Steenen,P.J.J. Gooris,R.R.M. Bos,A.G. Becking
International Journal of Oral and Maxillofacial Surgery.2016;45(1)41
[DOI]
6Controversies in orbital reconstruction—III. Biomaterials for orbital reconstruction: a review with clinical recommendations
Jalal Azadmanjiri,Wai Hong Wong,Jagat R. Kanwar,Christopher C. Berndt,James Wang,Vijay K. Srivastava,Ajay Kapoor
International Journal of Oral and Maxillofacial Surgery.2018;45(1)167
[DOI]
7Treatments for enhancing the biocompatibility of titanium implants
Jana Stepanovska,Roman Matejka,Jozef Rosina,Lucie Bacakova,Hana Kolarova
Biomedical Papers.2020;164(1)23
[DOI]
8Biomaterials and implants for orbital floor repair
Francesco Baino
Acta Biomaterialia.2011;7(9)3248
[DOI]
9Biomaterials and implants for orbital floor repair
A.J. Sunija
Acta Biomaterialia.2018;7(9)175
[DOI]
10Biocompatibility Analyses of Al2O3-Treated Titanium Plates Tested with Osteocyte and Fibroblast Cell Lines
Alberto Smargiassi,Jessika Bertacchini,Marta Checchi,Francesco Cavani,Marzia Ferretti,Carla Palumbo
Biomedicines.2017;5(4)32
[DOI]
11Surface modification by physical treatments on biomedical grade metals to improve adhesion for bonding hybrid non-isocyanate urethanes
K. M. F. Rossi de Aguiar,U. Specht,J. F. Maass,D. Salz,C. A. Picon,P.-L. M. Noeske,K. Rischka,U. P. Rodrigues-Filho
RSC Advances.2016;6(53)47203
[DOI]
12Impact through time of different sized titanium dioxide particles on biochemical and histopathological parameters
Marcos E. Bruno,Deborah R. Tasat,Emilio Ramos,María L. Paparella,Pablo Evelson,Raúl Jiménez Rebagliati,Rómulo L. Cabrini,María B. Guglielmotti,Daniel G. Olmedo
Journal of Biomedical Materials Research Part A.2014;102(5)1439
[DOI]
13Efectos de tratamientos térmicos post-alcalinos sobre las propiedades superficiales de titanio para implantes dentales con diferentes recubrimientos
Tatiana Ekkert,Adriana Lemos,Kyung Won Kang,Florencia Gatti,Carlos Llorente,Pablo Bilmes
Matéria (Rio de Janeiro).2018;23(2)1439
[DOI]
14Electrochemical Oxidation of VT6 Titanium Alloy in Oxalic Acid Solutions
Alexei Pilipenko,Antonina Maizelis,Hanna Pancheva,Yulia Zhelavska
Chemistry and Chemical Technology.2020;14(2)221
[DOI]
15Engineering nanoparticles to overcome immunological barriers for enhanced drug delivery
Thomas Malachowski,Austin Hassel
Engineered Regeneration.2020;1(2)35
[DOI]
16In vivo determination of aluminum, cobalt, chromium, copper, nickel, titanium and vanadium in oral mucosa cells from orthodontic patients with mini-implants by Inductively coupled plasma-mass spectrometry (ICP-MS)
Ana Martín-Cameán,Angeles Jos,Maria Puerto,Ana Calleja,Alejandro Iglesias-Linares,Enrique Solano,Ana M. Cameán
Journal of Trace Elements in Medicine and Biology.2015;32(2)13
[DOI]
17In vivo determination of aluminum, cobalt, chromium, copper, nickel, titanium and vanadium in oral mucosa cells from orthodontic patients with mini-implants by Inductively coupled plasma-mass spectrometry (ICP-MS)
Elena Fuentes,Sofia Alves,Ainara López-Ortega,Lucía Mendizabal,Virginia Sáenz de Viteri
Journal of Trace Elements in Medicine and Biology.2019;32(2)13
[DOI]
18Development of Ti-Ag-Fe ternary titanium alloy for dental application
B.B. Zhang,B.L. Wang,Y.B. Wang,L. Li,Y.F. Zheng,Y. Liu
Journal of Biomedical Materials Research Part B: Applied Biomaterials.2012;100B(1)185
[DOI]
19Oral Pyogenic Granuloma Associated With a Dental Implant Treated With an Er:YAG Laser: A Case Report
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[DOI]
20Retained Broken Implants in the Craniomaxillofacial Skeleton
Vigneswaran Nallathamby,Hanjing Lee,Yap Yan Lin,Jane Lim,Wei Chen Ong,Thiam-Chye Lim
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[DOI]
21Oral Mucosa Tissue Response to Titanium Cover Screws
Daniel G. Olmedo,María L. Paparella,Martín Spielberg,Daniel Brandizzi,María B. Guglielmotti,Rómulo L. Cabrini
Journal of Periodontology.2012;83(8)973
[DOI]
22Histopathological evaluation of gingival tissue overlying two-stage implants after placement of cover screws
Mojgan Paknejad,Mojtaba Bayani,Siamak Yaghobee,Mohammad Javad Kharazifard,Nozhan Jahedmanesh
Biotechnology & Biotechnological Equipment.2015;29(6)1169
[DOI]
23Synthesis and characterization of Halar® polymer coating deposited on titanium substrate by electrophoretic deposition process
N. Bosh,L. Deggelmann,C. Blattert,H. Mozaffari,C. Müller
Surface and Coatings Technology.2018;347(6)369
[DOI]
24Ultrananocrystalline diamond coatings for the dental implant: electrochemical nature
Bhavani Patel,Adriana C. Duran-Martinez,Pablo Gurman,Orlando Auciello,Valentim Barao,Stephan Campbell,Cortino Sukotjo,Mathew T. Mathew
Surface Innovations.2017;5(2)106
[DOI]
25Ultrananocrystalline diamond coatings for the dental implant: electrochemical nature
M. Dinu,S. Franchi,V. Pruna,C.M. Cotrut,V. Secchi,M. Santi,I. Titorencu,C. Battocchio,G. Iucci,A. Vladescu
Surface Innovations.2018;5(2)175
[DOI]
26Migration of titanium dioxide microparticles and nanoparticles through the body and deposition in the gingiva: an experimental study in rats
María B. Guglielmotti,Mariela G. Domingo,Tammy Steimetz,Emilio Ramos,María L. Paparella,Daniel G. Olmedo
European Journal of Oral Sciences.2015;123(4)242
[DOI]
27Implant Material Sciences
Allen Glied,Junaid Mundiya
Dental Clinics of North America.2021;65(1)81
[DOI]
28Polymeric materials and films in dentistry: An overview
Dinesh Rokaya,Viritpon Srimaneepong,Janak Sapkota,Jiaqian Qin,Krisana Siraleartmukul,Vilailuck Siriwongrungson
Journal of Advanced Research.2018;14(1)25
[DOI]
29The Character of Long-Term Abrasion of Dental Implant
Daniela Koštialiková,Mariana Janeková,Andrej Dubec,Matej Burget,Františka Pešlová
Manufacturing Technology.2018;18(6)928
[DOI]
30Analysis of titanium and other metals in human jawbones with dental implants – A case series study
Xiuli He,Franz-Xaver Reichl,Yan Wang,Bernhard Michalke,Stefan Milz,Yang Yang,Philipp Stolper,Gabriele Lindemaier,Matthias Graw,Reinhard Hickel,Christof Högg
Dental Materials.2016;32(8)1042
[DOI]
31Novel functionalization of Ti-V alloy and Ti-II using atomic layer deposition for improved surface wettability
Sweetu Patel,Arman Butt,Qian Tao,Jorge Iván Rossero A.,Dmitry Royhman,Cortino Sukotjo,Christos G. Takoudis
Colloids and Surfaces B: Biointerfaces.2014;115(8)280
[DOI]
32Dental implants modified with drug releasing titania nanotubes: therapeutic potential and developmental challenges
Karan Gulati,Sašo Ivanovski
Expert Opinion on Drug Delivery.2017;14(8)1009
[DOI]
33Potential of laser-induced breakdown spectroscopy for the rapid identification of carious teeth
Vivek K. Singh,Awadhesh K. Rai
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[DOI]
34Potential release of in vivo trace metals from metallic medical implants in the human body: From ions to nanoparticles – A systematic analytical review
Henryk Matusiewicz
Acta Biomaterialia.2014;10(6)2379
[DOI]
35Thermally oxidized titania nanotubes enhance the corrosion resistance of Ti6Al4V
John Grotberg,Azhang Hamlekhan,Arman Butt,Sweetu Patel,Dmitry Royhman,Tolou Shokuhfar,Cortino Sukotjo,Christos Takoudis,Mathew T. Mathew
Materials Science and Engineering: C.2016;59(6)677
[DOI]
36Reactive lesions of peri-implant mucosa associated with titanium dental implants: a report of 2 cases
D.G. Olmedo,M.L. Paparella,D. Brandizzi,R.L. Cabrini
International Journal of Oral and Maxillofacial Surgery.2010;39(5)503
[DOI]
37Influence of deposition temperature on the properties of hydroxyapatite obtained by electrochemical assisted deposition
Cosmin M. Cotrut,Alina Vladescu,Mihaela Dinu,Diana M. Vranceanu
Ceramics International.2018;44(1)669
[DOI]
38Impacts of trace carbon on the microstructure of as-sintered biomedical Ti–15Mo alloy and reassessment of the maximum carbon limit
M. Yan,M. Qian,C. Kong,M.S. Dargusch
Acta Biomaterialia.2014;10(2)1014
[DOI]
39Biocompatibility evaluation of a novel hydroxyapatite-polymer coating for medical implants (in vitro tests)
Gabriela Negroiu,Roxana M. Piticescu,Gabrielle C. Chitanu,Ion N. Mihailescu,Livia Zdrentu,Marimona Miroiu
Journal of Materials Science: Materials in Medicine.2008;19(4)1537
[DOI]
40Non-hermetic packaging of biomedical microsystems from a materials perspective: A review
Hao Chong,Steve J.A. Majerus,Kath M. Bogie,Christian A. Zorman
MEDICAL DEVICES & SENSORS.2020;19(4)1537
[DOI]
41Biomaterial properties of titanium in dentistry
Soni Prasad,Mark Ehrensberger,Monica Prasad Gibson,Hyeongil Kim,Edward A. Monaco
Journal of Oral Biosciences.2015;57(4)192
[DOI]
42Structural features of the hydride phase formation in nanostructured a-titanium
Yu R Kolobov,V I Torganchuk,V N Fokin,B P Tarasov
IOP Conference Series: Materials Science and Engineering.2015;81(4)012053
[DOI]
43Study of microstructure of selected dental restoration parts
D Koštialiková,M Janeková,A Dubec,P Kováciková,F Pešlová
IOP Conference Series: Materials Science and Engineering.2020;776(4)012093
[DOI]
44A Comprehensive Review on the Corrosion Pathways of Titanium Dental Implants and Their Biological Adverse Effects
Júlio C. M. Souza,Karin Apaza-Bedoya,Cesar A. M. Benfatti,Filipe S. Silva,Bruno Henriques
Metals.2020;10(9)1272
[DOI]
45A Comprehensive Review on the Corrosion Pathways of Titanium Dental Implants and Their Biological Adverse Effects
Aleksander Lotkov,Anatolii Baturin,Victor Grishkov,Vladimir Kopylov,Svetlana Latushkina,Ivan Rodionov,Dorzhima Zhapova,Victor Timkin
Metals.2018;2051(9)020174
[DOI]
46Analysis of Loss of Torque in Dental Implants Containing Gold Washers between Implant and Screw Head
M. R. Mitchell,R. E. Link,S. Cicero,R. Lacalle,R. Cicero,D. Ferna´ndez
Journal of Testing and Evaluation.2011;39(6)103346
[DOI]
47Enhancing surface characteristics of Ti–6Al–4V for bio-implants using integrated anodization and thermal oxidation
Sweetu B. Patel,Azhang Hamlekhan,Dmitry Royhman,Arman Butt,Judy Yuan,Tolou Shokuhfar,Cortino Sukotjo,Mathew T. Mathew,Gregory Jursich,Christos G. Takoudis
Journal of Materials Chemistry B.2014;2(23)3597
[DOI]
48Enhancing surface characteristics of Ti–6Al–4V for bio-implants using integrated anodization and thermal oxidation
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Journal of Materials Chemistry B.2019;2(23)1
[DOI]
49Biocompatibility and compressive properties of Ti-6Al-4V scaffolds having Mg element
Seyed Mohammad Kalantari,Hossein Arabi,Shamsodin Mirdamadi,Seyed Ali Mirsalehi
Journal of the Mechanical Behavior of Biomedical Materials.2015;48(23)183
[DOI]
50A Novel Investigation of the Formation of Titanium Oxide Nanotubes on Thermally Formed Oxide of Ti-6Al-4V
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[DOI]

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