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2021, vol. 149, br. 7-8, str. 503-510
Uticaj četvrte industrijske revolucije na stomatologiju
aAkademija medicinskih nauka, Srpsko lekarsko društvo, Beograd
bUniverzitet u Beogradu, Stomatološki fakultet
cUniverzitet u Beogradu, Mašinski fakultet

e-adresad.stamenkovic49@gmail.com
Ključne reči: digitalizacija; četvrta industrijska revolucija; digitalna stomatologija; stomatologija 4.0
Sažetak
Uvod I najveći vizionari nisu mogli da pretpostave kojom brzinom će stomatološka struka i nauka prihvatiti koncept četvrte industrijske revolucije. Po obimu i složenosti ova transformacija je veća od svih do sada poznatih i u literaturi je opisana kao Dentistry 4.0. Digitalna revolucija je stomatologiji omogućila da gotovo sve kliničke i laboratorijske procedure mogu biti podržane digitalnim tehnologijama. Cilj ovog rada je razumevanje uloge četvrte industrijske revolucije u stomatologiji. Metode Pretraživanje baze Medline izvršeno je putem baza podataka PubMed i Google Scholar za termine "četvrta industrijska revolucija", "digitalna stomatologija", "stomatologija 4.0", "CAD-CAM". Takođe su korišćene opcije "srodnih članaka" uz dodatno ručno pretraživanje preglednih članaka i relevantnih tekstova. Rezultati U radu su opisane najčešće dijagnostičke i terapijske procedure koje su podržane digitalnim tehnologijama. Zaključak Sofisticirane tehnologije četvrte industrijske revolucije dovele su do brže i preciznije dijagnoze oralnih oboljenja. Kliničke procedure postaju jednostavnije, preciznije i predvidljivije za lekara, a komfornije za pacijenta. Dugoročno, tu su i ekonomske uštede i očuvanje životne sredine.
Reference
Alifui-Segbaya, F., Williams, R.J., George, R. (2017) Additive Manufacturing: A Novel Method for Fabricating Cobalt-Chromium Removable Partial Dentures Frameworks. EJPRD, 25(2): 73-81
Block, M.S., Emery, R.W. (2016) Static or Dynamic Navigation for Implant Placement: Choosing the Method of Guidance. Journal of Oral and Maxillofacial Surgery, 74(2): 269-277
Carneiro, P.A.L., Bezerra, de M.A.K., de Sousa, S.K., Oliveira, de A.É., Seabra, B.G.A., da Fonte, P.C.A. (2021) Accuracy of CAD-CAM systems for removable partial denture framework fabrication: A systematic review. J Prosthet Dent, 125(2):241-8
Dey, N., Ashour, A.S., Shi, F., Fong, S.J., Tavares, J.M.R.S. (2018) Medical cyber-physical systems: A survey. Journal of Medical Systems, 42(4): 74
Dobrzański, L.A., Dobrzański, L.B. (2020) Dentistry 4.0 Concept in the Design and Manufacturing of Prosthetic Dental Restorations. Processes, 8(5): 525
Felter, M., Lenza, M.M.D.O., Lenza, M.G., Shibazaki, W.M.M., Silva, R.F. (2018) Comparative study of the usability of two software programs for visualization and analysis of digital orthodontic models. Journal of Dental Research, Dental Clinics, Dental Prospects, 12(3): 213-220
Gargallo-Albiol, J., Barootchi, S., Salomó-Coll, O., Wang, H.L. (2019) Advantages and disadvantages of implant navigation surgery: A systematic review. Annals of Anatomy / Anatomischer Anzeiger, 225: 1-10
Grbović, A., Mihajlović, D. (2017) Practical aspects of finite element method applications in dentistry. Balkan Journal of Dental Medicine, vol. 21, br. 2, str. 69-77
Ignjatović, N.L., Mitković, M.B., Obradović, B., Stamenković, D., Dankuc, D., Manić, M., et al. (2021) Interdisciplinarni pristup za brzi napredak - saradnja naučnika iz oblasti medicine i inženjerstva s posebnim osvrtom na Srbiju / Interdisciplinary crossover for rapid advancements: Collaboration between medical and engineering scientists with the fo. Srpski arhiv za celokupno lekarstvo, vol. 149, br. 3-4, str. 229-235
Jafri, Z., Ahmad, N., Sawai, M., Sultan, N., Bhardwaj, A. (2020) Digital Smile Design: An innovative tool in aesthetic dentistry. Journal of Oral Biology and Craniofacial Research, 10(2): 194-198
Javaid, M., Haleem, A. (2019) Industry 4.0 applications in medical field: A brief review. Current Medicine Research and Practice, 9(3): 102-109
Jokanović, V., Vilotijević, M., Jokanović, B., Jenko, M., Anžel, I., Stamenković, D.S., et al. (2014) Investigations of corrosion on the surface of titanium substrate caused by combined alkaline and heat treatment. Corrosion Science, 82: 180-190
Lepidi, L., Galli, M., Mastrangelo, F., Venezia, P., Joda, T., Wang, H., et al. (2021) Virtual Articulators and Virtual Mounting Procedures: Where Do We Stand?. Journal of Prosthodontics, 30(1): 24-35
Mehrabi, K., Brunčko, M., Kneissl, A., Čolič, M., Stamenković, D., Ferčec, J., et al. (2012) Characterisation of melt spun Ni-Ti shape memory Ribbons' microstructure. Metals and Materials International, 18(3): 413-417
Miletić, A., Todorović, A., Đorđević, I., Lazić, V., Stamenković, D., Matanović, D. (2021) Low-level laser therapy effectiveness in patients with temporomandibular disorders / Efikasnost terapije laserom male snage kod bolesnika sa temporomandibularnim disfunkcijama. Srpski arhiv za celokupno lekarstvo, vol. 149, br. 1-2, str. 10-15
Panchal, N., Mahmood, L., Retana, A., Emery, R. (2019) Dynamic Navigation for Dental Implant Surgery. Oral and Maxillofacial Surgery Clinics of North America, 31(4): 539-547
Pellegrino, G., Bellini, P., Cavallini, P.F., Ferri, A., Zacchino, A., Taraschi, V.et al. (2020) Dynamic Navigation in Dental Implantology: The Influence of Surgical Experience on Implant Placement Accuracy and Operating Time: An in Vitro Study. International Journal of Environmental Research and Public Health, 17(6): 2153
Perry, S., Burrow, M.F., Leung, W.K., Bridges, S.M. (2017) Simulation and curriculum design: A global survey in dental education. Australian Dental Journal, 62(4): 453-463
Pottle, J. (2019) Virtual reality and the transformation of medical education. Future Healthcare Journal, 6(3): 181-185
Prithviraj, D.R., Bhalla, H.K., Vashisht, R., Sounderraj, K., Prithvi, S. (2014) Revolutionizing Restorative Dentistry: An Overview. Journal of Indian Prosthodontic Society, 14(4): 333-343
Raković, D., Uskoković, D., i sar., ur. (2010) Biomaterijali. Institut tehničkih nauka SANU, str. 740-75
Reiss, B. (2019) Changing times: A new dynamic in digital dentistry. Int J Comput Dent, 22(3): 211-214
Rosenberg, H., Sander, M., Posluns, J. (2005) The effectiveness of computer-aided learning in teaching orthodontics: A review of the literature. American Journal of Orthodontics and Dentofacial Orthopedics, 127(5): 599-605
Sharma, A. (2019) Going in a Prosthodontic Clinic: Technologies and Workflow. EC Dental Science, 18(7): 1386-94
Stamenković, D.D., Tango, R., Todorović, A., Karasan, D., Sailer, I., Paravina, R. (2020) Staining and aging-dependent changes in color of CAD-CAM materials. Journal of Prosthetic Dentistry, (20): 30469-30477
Stamenković, D.S., i sar. (2012) Stomatološki materijali. Stomatološki fakultet, Knjiga 2. str. 429-54
Stamenković, D.S. (2017) Stomatološka protetika - parcijalne proteze. Data Status, str. 41-28
Stamenković, D., Obradović-Đuričić, K., Rudolf, R., Bobovnik, R., Stamenković, D. (2019) Selective laser melting and sintering technique of the cobalt-chromium dental alloy. Srpski arhiv za celokupno lekarstvo, vol. 147, br. 11-12, str. 664-669
Tayebi, L., et al., eds. (2020) Applications of Biomedical Engineering in Dentistry. Springer, eBook
Zitzmann, N.U., Matthisson, L., Ohla, H., Joda, T. (2020) Digital Undergraduate Education in Dentistry: A Systematic Review. International Journal of Environmental Research and Public Health, 17(9): 3269
 

O članku

jezik rada: engleski
vrsta rada: prikaz
DOI: 10.2298/SARH210130037S
primljen: 30.01.2021.
revidiran: 21.04.2021.
prihvaćen: 03.05.2021.
objavljen onlajn: 10.05.2021.
objavljen u SCIndeksu: 03.09.2021.