3D printers – application in dental practice

Adam Nowicki, Wioletta Jagucka-Mętel, Ewa Sobolewska

Streszczenie

W pracy przedstawiono opis poszczególnych technik druku 3D stosowanych ogólnie w medycynie, ze szczególnym wskazaniem możliwości wykorzystania tej techniki w stomatologii. Ukazano jej miejsce w cyfrowym przepływie pracy oraz potwierdzono słuszność wprowadzania takich metod do nowoczesnej praktyki stomatologicznej.

Hasła indeksowe: druk 3D, wirtualna rzeczywistość, nowoczesna stomatologia

Summary

The study describes various techniques of 3D printing that are generally used in medicine, with particular indications of the possibilities of use of this technique in dentistry. Indication is made for its place in the digital workflow and this confirms the rightness of introducing such methods to modern dental practice.

Key words: 3D printing, virtual reality, modern dentistry

PIŚMIENNICTWO

1. Cawood S., Fiala M.: Augmented reality:  a practical guide.  Pragmatic Programmers, Rijeka, 2008, 1, 22-25.

2. Holbrook S.: Make. Maker Media, Sebastopol, 2014, 15, 143.

3. Bisler A. i wsp.:The virtual articulator. Int. J. Comput. Dent., 2002, 5, 101-106. 

4. Kordass B. , Gartner C.H., Gesch D.: The virtual articulator –  a new tool to analyze the dysfunction and dysmorphology of dental occlusion. Aspects of Teratology, 2000, 2, 243-247.

5. Kordass B., Gartner C.H.: Virtual articulator: usage of virtual reality tools in the dental technology. Quintessence of Dent. Tech., 2000, 12, 75-80.

6. Noort R.: The future of dental devices is digital. Dent. Mater., 2012, 28, 3-12.

7. Shillingburg I. i wsp.: Fundamentals of fixed prosthodontics, 4th ed., Quintessence Publ., Hanover Park 2012.

8.  http://www.sculpteo.com/en/3d-printing-technologies

9.  Salmi M.: Medical applications of additive manufacturing in surgery and dental care. School of engineering, 2013, 3, 28-32.

10.  Mangano F. i wsp.: Custom-made, selective laser sintering (SLS) blade implants as a non-conventional solution for the prosthetic rehabilitation of extremely atrophied posterior mandible. Lasers Med. Sci., 2013, 28, 1241-1242.

11. Holbrook S.: Make. Maker Media, Sebastopol, 2014, 15, 154.

12. http://www.umb.edu.pl/pdf.php?h=/s,8233/pdf&1431898881151

13.  http://carbon3d.com

14. Robbins J., Gorgen V., Min P., Shepherd B., Presnell S.: A novel in vitro three-dimensional bioprinted liver tissue system for drug development. Tissue Applications and Systems Engineering Group,  Program Number: 872.12.

15. 247th National Meeting & Exposition of the American Chemical Society. Dallas, 18.02.2014.

16. Marí-Buye N. i wsp.: Developing 3D printing of hydroxyapatite-like scaffold: from precursor to structure. European Cells and Materials, 2007, 14, Suppl. 1, 78.