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SAĞLIK SEKTÖRÜNDE ÜÇ BOYUTLU YAZICI UYGULAMALARI: GÜNCEL DURUMU VE GELECEĞİ

Year 2018, Volume: 2 Issue: 2, 88 - 98, 27.07.2018

Abstract

Üç boyutlu
yazıcılar günümüzde birçok yerde kullanılan hızla gelişen bir teknolojidir. Bu
araştırmada, günümüzde sıklıkla kullanılan üç boyutlu yazıcıların sağlık
alanındaki gelişmelerini inceledik. Üç boyutlu (3D) bioprint, doku anatomi,
biyoloji ve fizyolojiyi canlandırmak için canlı hücreler, nükleik asitler, ilaç
partikülleri, proteinler ve büyüme faktörleri dahil, biyolojik materyallerin
tasarımı ve tam yerleşimi için güçlü bir araç haline gelmiştir.



Bioprinting son
on yılda önemli ölçüde gelişmiştir ve gelecekte canlı doku üretiminde yaygın
olarak kullanılacaktır. Çoğu hasta, gelişen teknoloji sayesinde doku hasarı ve
organ nakli sorunlarının, özelleştirilmiş modeller ile üç boyutlu
biyo-baskılarla çözüleceğini düşünmektedir. Bu çalışmada üç boyutlu biyo-yazıcı
teknolojisi tanıtıldı, doku mühendisliği, rejeneratif tıp vb. Sağlık alanında
uygulamalar ve kullanımları incelenmiştir.

References

  • Kaushik A., Kant S., Kalra P. Rapid Prototyping Technologies and Applications in Modern Engineering -A Review, March 2015
  • Aydın L., Küçük S. Üç Boyutlu Yazıcı ve Tarayıcı ile Hastaya Özel Medikal Ortez Tasarımı ve Geliştirilmesi, Journal of Polytechnic, 2017: 20 (1) 1-8
  • Gibson I., Rosen D.W., Stucker B. Additive Manufacturing Technologies - Rapid Prototyping. New York, NY,10013: Springer Science+Business Media. London 2010.s.30
  • You Can Now See the First Ever 3D Printer -- Invented by Chuck Hull - In the National Inventors Hall of Fame. The Voice of 3D Printing / Additive Manufacturing https://3dprint.com/72171/first-3d-printer-chuck-hul/ Accessed January 12, 2018.
  • Matias E., Rao B. 3D Printing: On Its Historical Evolution and the Implications for Business, 2015 Proceedings of PICMET '15: Management of the Technology Age USA,2015 ,1-8
  • Reprap 3d (3 boyutlu ) yazıcı:Elektronik hobi.http://elektronikhobi.net/reprap-3-d-3-boyutlu-yazici/ Accessed February 20,2018
  • Mellor S., Hao L., Zhang D. Additive Manufacturing: A Framework for Implementation, 2014: 194–201
  • Gaoa W., Zhanga Y.,Ramanujana D., Ramani K., Chenc Y., Williams C.B., Wang C.C.L., Shina Y.C., Zhang S.,Zavattieri P.D. The status, challenges, and future of additive manufacturing in engineering, Computer-Aided Design , Elsevier Journal Finder 2015,65-89
  • Kietzmann J., Pitt L., Berthon P. Disruptions, decisions, and destinations: Enter the age of 3-D printing and additive manufacturing, Business Horizons Journal, 2015, 209-215
  • Murphy V.S., Atala A. 3D bioprinting of tissues and organs, Nature biotechnology review, 2014:1-13
  • Peng, J., The Future of Medicine: 3D-Printed Organs , Berkeley Scientific Journal, 2016:14-16
  • Kusaka M., Sugimoto M., Fukami N., Sasaki H., Takenaka M., Anraku T., Ito T., Kenmochi T., Shiroki R., and Hoshinaga K. Initial Experience With a Tailor-made Simulation and Navigation Program Using a 3-D Printer Model of Kidney Transplantation Surgery, Elsevier Journal Finder 2015:596-599
  • Niikura T, Sugimoto M, Lee SY, et al. Tactile surgical navigation system for complex acetabular fracture surgery, Orthopedics, Tip&Techniques 2014:237-242
  • Klammert U., Gbureck U., Vorndran E., Rödıger J., Meyer-Marcotty P., Kübler A. C., 3D printed calcium phosphate implants for reconstruction of cranial and maxillofacial defects, Journal of Cranio-Maxillo-Facial Surgery (2010):1-6
  • Kim D., Lim J.Y, Shim K.W., Han J.W.,Yi S., Yoon D.H., Kim K.N., Ha Y., Ji G.Y., Shin D.A.,Sacral Reconstruction with a 3D-Printed Implant after Hemisacrectomy in a Patient with Sacral Osteosarcoma: 1-Year Follow-Up Result , Yonsei Med 2017;58(2):453-457.
  • Forrestal DP, Klein TJ, Woodruff MA. Challenges in engineering large customized bone const-ructs. Biotechnol Bioeng. 2017;114: 1129–1139
  • Yılgör H.P. , 3D Baskı Teknolojileri Uluslararası Sempozyumu (3B-BTS2017), 3D Biyobaskı İle Anatomik Şekilli Kemik Dokusu Üretimi,2017:59-61
  • Temple JP, Hutton DL, Hung BP, Yilgor H.P, Cook CA, Kondragunta R, Jia X, Grayson WL. “Engineering Anatomically-Shaped Vascularized Bone Grafts with hASCs and 3D-Printed PCL Scaffolds”, Journal Biomedical Materials Research, A 2014; 102A: 4317-4325
  • Rejeneratif Tıp, Liv Medcell http://www.livkokhucre.com/kok-hucre-ve-rejeneratif-tip/rejeneratif-tip/ Accessed 18,2018
  • HASIRCI V. , Yüklenim Dergisi, Rejeneratif Tıp, Doku Mühendisliği. Nanoteknoloji: Yapay Nefes Borusu, 2015: 92-93
  • Chana S. , 3D Organ Printing, The Science Journal of the Lander College of Arts and Sciences 2016; 10(1), 66-72
  • Takahiro N. ,Maki S. , Sang Yang L. , Yoshitada S. , Kotaro N. , Ryosuke K. , Masahiro K Tactile Surgical Navigation System for Complex Acetabular Fracture Surgery , 2014:237-242

THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE

Year 2018, Volume: 2 Issue: 2, 88 - 98, 27.07.2018

Abstract

Three-dimensional printers are a
rapidly developing technology that is used in many places today. In this
research, we have examined the developments in the field of health of the three
dimensional printers which are frequently used today. Three-dimensional (3D)
bioprint has become a powerful tool for the design and full placement of
biological materials, including living cells, nucleic acids, drug particles,
proteins and growth factors, to revitalize tissue anatomy, biology and
physiology.



Bioprinting has evolved significantly
over the last decade and will be used extensively in future live tissue
production. Most patients think that by means of developing technology, tissue
damage and organ transplantation problems will be solved with three-dimensional
bioprinteres with customized models. In this study, three-dimensional
bio-printer technology is introduced, tissue engineering, regenerative medicine
and so on. applications and uses in the field of health have been examined.

References

  • Kaushik A., Kant S., Kalra P. Rapid Prototyping Technologies and Applications in Modern Engineering -A Review, March 2015
  • Aydın L., Küçük S. Üç Boyutlu Yazıcı ve Tarayıcı ile Hastaya Özel Medikal Ortez Tasarımı ve Geliştirilmesi, Journal of Polytechnic, 2017: 20 (1) 1-8
  • Gibson I., Rosen D.W., Stucker B. Additive Manufacturing Technologies - Rapid Prototyping. New York, NY,10013: Springer Science+Business Media. London 2010.s.30
  • You Can Now See the First Ever 3D Printer -- Invented by Chuck Hull - In the National Inventors Hall of Fame. The Voice of 3D Printing / Additive Manufacturing https://3dprint.com/72171/first-3d-printer-chuck-hul/ Accessed January 12, 2018.
  • Matias E., Rao B. 3D Printing: On Its Historical Evolution and the Implications for Business, 2015 Proceedings of PICMET '15: Management of the Technology Age USA,2015 ,1-8
  • Reprap 3d (3 boyutlu ) yazıcı:Elektronik hobi.http://elektronikhobi.net/reprap-3-d-3-boyutlu-yazici/ Accessed February 20,2018
  • Mellor S., Hao L., Zhang D. Additive Manufacturing: A Framework for Implementation, 2014: 194–201
  • Gaoa W., Zhanga Y.,Ramanujana D., Ramani K., Chenc Y., Williams C.B., Wang C.C.L., Shina Y.C., Zhang S.,Zavattieri P.D. The status, challenges, and future of additive manufacturing in engineering, Computer-Aided Design , Elsevier Journal Finder 2015,65-89
  • Kietzmann J., Pitt L., Berthon P. Disruptions, decisions, and destinations: Enter the age of 3-D printing and additive manufacturing, Business Horizons Journal, 2015, 209-215
  • Murphy V.S., Atala A. 3D bioprinting of tissues and organs, Nature biotechnology review, 2014:1-13
  • Peng, J., The Future of Medicine: 3D-Printed Organs , Berkeley Scientific Journal, 2016:14-16
  • Kusaka M., Sugimoto M., Fukami N., Sasaki H., Takenaka M., Anraku T., Ito T., Kenmochi T., Shiroki R., and Hoshinaga K. Initial Experience With a Tailor-made Simulation and Navigation Program Using a 3-D Printer Model of Kidney Transplantation Surgery, Elsevier Journal Finder 2015:596-599
  • Niikura T, Sugimoto M, Lee SY, et al. Tactile surgical navigation system for complex acetabular fracture surgery, Orthopedics, Tip&Techniques 2014:237-242
  • Klammert U., Gbureck U., Vorndran E., Rödıger J., Meyer-Marcotty P., Kübler A. C., 3D printed calcium phosphate implants for reconstruction of cranial and maxillofacial defects, Journal of Cranio-Maxillo-Facial Surgery (2010):1-6
  • Kim D., Lim J.Y, Shim K.W., Han J.W.,Yi S., Yoon D.H., Kim K.N., Ha Y., Ji G.Y., Shin D.A.,Sacral Reconstruction with a 3D-Printed Implant after Hemisacrectomy in a Patient with Sacral Osteosarcoma: 1-Year Follow-Up Result , Yonsei Med 2017;58(2):453-457.
  • Forrestal DP, Klein TJ, Woodruff MA. Challenges in engineering large customized bone const-ructs. Biotechnol Bioeng. 2017;114: 1129–1139
  • Yılgör H.P. , 3D Baskı Teknolojileri Uluslararası Sempozyumu (3B-BTS2017), 3D Biyobaskı İle Anatomik Şekilli Kemik Dokusu Üretimi,2017:59-61
  • Temple JP, Hutton DL, Hung BP, Yilgor H.P, Cook CA, Kondragunta R, Jia X, Grayson WL. “Engineering Anatomically-Shaped Vascularized Bone Grafts with hASCs and 3D-Printed PCL Scaffolds”, Journal Biomedical Materials Research, A 2014; 102A: 4317-4325
  • Rejeneratif Tıp, Liv Medcell http://www.livkokhucre.com/kok-hucre-ve-rejeneratif-tip/rejeneratif-tip/ Accessed 18,2018
  • HASIRCI V. , Yüklenim Dergisi, Rejeneratif Tıp, Doku Mühendisliği. Nanoteknoloji: Yapay Nefes Borusu, 2015: 92-93
  • Chana S. , 3D Organ Printing, The Science Journal of the Lander College of Arts and Sciences 2016; 10(1), 66-72
  • Takahiro N. ,Maki S. , Sang Yang L. , Yoshitada S. , Kotaro N. , Ryosuke K. , Masahiro K Tactile Surgical Navigation System for Complex Acetabular Fracture Surgery , 2014:237-242
There are 22 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Gülçin Akbaş

Okan Oral

Süleyman Bilgin

Publication Date July 27, 2018
Submission Date May 17, 2018
Published in Issue Year 2018 Volume: 2 Issue: 2

Cite

APA Akbaş, G., Oral, O., & Bilgin, S. (2018). THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE. International Journal of 3D Printing Technologies and Digital Industry, 2(2), 88-98.
AMA Akbaş G, Oral O, Bilgin S. THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE. IJ3DPTDI. July 2018;2(2):88-98.
Chicago Akbaş, Gülçin, Okan Oral, and Süleyman Bilgin. “THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE”. International Journal of 3D Printing Technologies and Digital Industry 2, no. 2 (July 2018): 88-98.
EndNote Akbaş G, Oral O, Bilgin S (July 1, 2018) THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE. International Journal of 3D Printing Technologies and Digital Industry 2 2 88–98.
IEEE G. Akbaş, O. Oral, and S. Bilgin, “THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE”, IJ3DPTDI, vol. 2, no. 2, pp. 88–98, 2018.
ISNAD Akbaş, Gülçin et al. “THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE”. International Journal of 3D Printing Technologies and Digital Industry 2/2 (July 2018), 88-98.
JAMA Akbaş G, Oral O, Bilgin S. THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE. IJ3DPTDI. 2018;2:88–98.
MLA Akbaş, Gülçin et al. “THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE”. International Journal of 3D Printing Technologies and Digital Industry, vol. 2, no. 2, 2018, pp. 88-98.
Vancouver Akbaş G, Oral O, Bilgin S. THREE DIMENSIONAL PRINTER APPLICATIONS IN THE HEALTH SECTOR: CURRENT SITUATION AND FUTURE. IJ3DPTDI. 2018;2(2):88-9.

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