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3D BASKI MATERYALİNİN EĞİTİMDE KULLANIMI: QUA VADİS?

Year 2016, Volume: 15 Issue: 46, 0 - 0, 05.09.2016
https://doi.org/10.25282/ted.256103

Abstract

3D baskı materyalleri ilerleyen tıbbi görselleştirmenin kullanımıyla birlikte sağlık bakım hizmetlerinde, eğitimde ve araştırma alanlarında yaygınlaşmaktadır. 3D baskı materyalleri 1980’lerin ortasında üretilerek 1986 yılından itibaren stereolitografi kavramı yaşama girmiştir. Otomobil endüstrisi ve havacılık gibi endüstriyel uygulamalarda da 3D baskı materyalini üretmek mümkün olmuştur. 1990’lı yıllarda bilgisayarlı tomografiyle tanışılmasıyla birlikte 3D materyalleri anatomik yapıların görselleştirilmesini sağlamıştır.3D materyallerin üretiminde çeşitli yazılımlardan yararlanılarak materyel üretilmektedir. Üretilen 3D baskı materyalleri klinik öncesi ve uzmanlık eğitiminde gibi eğitimde, cerrahi planlama, implant ve doku tasarlama gibi sağlık hizmetlerinde ve toksik ilaç kullanımı ve biyo baskı organ üretimi gibi araştırmalarda kullanılmaktadır.3D baskı materyalinin kullanımıyla ilgili farklı görüşler bulunsada özellikle zorlu anatomik ve patolojik koşullarda öğrenmeyi geliştirmesi, uzmanlık eğitiminde yoğun bir eğitime izin vermesi, yükseköğretimde etkin ve proje tabanlı öğrenmede uygulanabilmesi açısından eğitim alanına önemli katkıları vardır. Bu yazıda, 3D baskı üretimi, sağlık ve eğitimdeki kullanım alanları hakkında bilgiler verilecektir.

References

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  • Mahadevappa M. Search for Isotropic Resolution in CT from Conventional through Multiple-Row Detector1. Radiographics. 2002;22:949–62.
  • von Tengg-Kobligk H,Weber T, Rengier F, Kotelis D, Geisbusch P, BocklerD, Schumacher H LS. Imagingmodalities for the thoracic aorta. J Cardiovasc Surg(Torino). 2008;49:429–47.
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  • Peltola SM, Melchels FPW, Grijpma DW KM. A review of rapid prototyping techniques for tissue engineering purposes. A Rev rapid Prototyp Tech tissue Eng Purp. 2008;40:268–80.
  • Boland T, Xu T, Damon B CX. Application of inkjet printing to tissue engineering. Biotechnol J. 2006;1:910–7.
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  • Chaban Micah. Eight Common Rapid Prototyping Mistakes. Rapid made. 2013.
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  • Berman PM, Sosna J. Advent of 3D printing based on MDCT data. European Society Of Radiology-2009. 2009. p. 5–17.
  • AbouHashem Y, Dayal M, Savanah S, Strkalj G. Medical Education Online. Med Educ Online [Internet]. 2015;(20):1–8. Available from: http://www.ncbi.nlm.nih.gov/pubmed/26198434
  • Wagner JD, Baack B, Brown GA, Kelly J. Rapid 3-dimensional prototyping for surgical repair of maxillofacial fractures: a technical note. J Oral Maxillofac Surg [Internet]. 2004 Jul [cited 2016 Mar 2];62(7):898–901. Available from: http://www.sciencedirect.com/science/article/pii/S0278239104003076
  • Guarino J, Tennyson S, McCain G, Bond L, Shea K, King H. Rapid prototyping technology for surgeries of the pediatric spine and pelvis: benefits analysis. J Pediatr Orthop [Internet]. 2007;27(8):955–60. Available from: http://www.ncbi.nlm.nih.gov/pubmed/18209623
  • Hurson C, Tansey A, O'Donnchadha B, Nicholson P, Rice J, McElwain J. Rapid prototyping in the assessment, classification and preoperative planning of acetabular fractures. Injury. 2007;38(10):1158–62.
  • Giesel FL, Mehndiratta A, von Tengg-Kobligk H, Schaeffer A, Teh K, Hoffman EA, et al. Rapid prototyping raw models on the basis of high resolution computed tomography lung data for respiratory flow dynamics. Acad Radiol [Internet]. 2009 Apr [cited 2016 Mar 2];16(4):495–8. Available from: http://www.sciencedirect.com/science/article/pii/S1076633208006296
  • Armillotta a, Bonhoeffer P, Dubini G, Ferragina S, Migliavacca F, Sala G, et al. Use of rapid prototyping models in the planning of percutaneous pulmonary valved stent implantation. Proc Inst Mech Eng H. 2007;221:407–16.
  • Kim MS, Hansgen AR, Wink O, Quaife RA, Carroll JD. Rapid prototyping: A new tool in understanding and treating structural heart disease. Circulation. 2008;117(18):2388–94.
  • Mavili M, Canter H, Saglam-Aydinatay B, Kamaci S KI. Use of three-dimensional medical modeling methods for precise planning of orthognathic surgery. JCraniofac Surg. 2007;18:740–7.
  • D’Urso P, Barker T, Earwaker W, Bruce L, Atkinson R, Lanigan M, Arvier J ED. Stereolithographic biomodelling in cranio-maxillofacial surgery: a prospective trial. J Craniomaxillo- fac Surg. 1999;27:30–7.
  • Kido T, Kurata A, Higashino H, Sugawara Y, Okayama H, Higaki J, et al. Cardiac imaging using 256-detector row four-dimensional CT: Preliminary clinical report. Radiat Med - Med Imaging Radiat Oncol. 2007;25(1):38–44.
  • Meaney J GM. Recent advances in contrast-enhanced magnetic resonance angiography. Eur Radiol. 2007;17(Suppl 2):B2–6.
  • D’Urso PS, Barker TM, Earwaker WJ, Bruce LJ, Atkinson RL, Lanigan MW, et al. Stereolithographic biomodelling in cranio-maxillofacial surgery: a prospective trial. J Craniomaxillofac Surg. 1999;27(1):30–7.
  • Singare S, Liu Y, Li D, Lu B, Wang J, He S. Individually prefabricated prosthesis for maxilla reconstruction. J Prosthodont. 2008;17(2):135–40.
  • Li Z, Xu SF, Li DC, Sun Z, Zhang T, Lu JX, et al. Composite artificial semi-knee joint system. Eur Rev Med Pharmacol Sci. 2014;18(8):1229–40.
  • Dai K, Yan M, Zhu Z SY. Computer-aided custom-made hemipelvic prosthesis used in extensive pelvic lesions. J Arthro- plasty. 2007;22:981–6.
  • Harrysson O, Hosni Y NJ. Custom-designed ortho- pedic implants evaluated using finite element analysis of patient- specific computed tomography data: femoral-component case study. BMC Musculoskelet Disord. 8:91.
  • Subburaj K, Nair C, Rajesh S, Meshram SM, Ravi B. Rapid development of auricular prosthesis using CAD and rapid prototyping technologies. Int J Oral Maxillofac Surg. 2007;36(10):938–43.
  • Ciocca L, Mingucci R, Gassino G, Scotti R. CAD/CAM ear model and virtual construction of the mold. J Prosthet Dent. 2007;98(5):339–43.
  • Derby B. Printing and Prototyping of Tissues and Scaffolds. Science (80- ). 2012;338(November):921–7.
  • Canstein C, Cachot P, Faust A, Stalder AF, Bock J, Frydrychowicz A, et al. 3D MR flow analysis in realistic rapid-prototyping model systems of the thoracic aorta: Comparison with in vivo data and computational fluid dynamics in identical vessel geometries. Magn Reson Med. 2008;59(3):535–46.
  • Taga I, Funakubo A, Fukui Y. Design and development of an artificial implantable lung using multiobjective genetic algorithm: evaluation of gas exchange performance. ASAIO J. 2005;51(1):92–102.
  • Lambrecht JT, Berndt DC, Schumacher R, Zehnder M. Generation of three-dimensional prototype models based on cone beam computed tomography. Int J Comput Assist Radiol Surg. 2009;4(2):175–80.
  • Üstün Ç. Plastinasyon. Bir bilim mi yoksa garip bir gösteri mi? ADÜ Tıp Fakültesi Derg. 2002;3(1):37–42.
Year 2016, Volume: 15 Issue: 46, 0 - 0, 05.09.2016
https://doi.org/10.25282/ted.256103

Abstract

References

  • Rengier F, Mehndiratta A, von Tengg-Kobligk H, Zechmann CM, Unterhinninghofen R, Kauczor H-U, et al. 3D printing based on imaging data: review of medical applications. Int J Comput Assist Radiol Surg [Internet]. 2010;5(4):335–41. Available from: http://link.springer.com/10.1007/s11548-010-0476-x
  • Johnson L, Becker S, Estrada V, Freeman A. Horizon Report: 2014 Higher Education [Internet]. 2014. 1-52 p. Available from: http://www.editlib.org/p/130341/nhttp://www.editlib.org/p/130341/report_130341.pdf
  • Ebert LC, Thali MJ, Ross S. Getting in touch—3D printing in Forensic Imaging. Forensic Sci Int [Internet]. 2011;211(1-3):e1–6. Available from: http://linkinghub.elsevier.com/retrieve/pii/S037907381100209X
  • Mahadevappa M. Search for Isotropic Resolution in CT from Conventional through Multiple-Row Detector1. Radiographics. 2002;22:949–62.
  • von Tengg-Kobligk H,Weber T, Rengier F, Kotelis D, Geisbusch P, BocklerD, Schumacher H LS. Imagingmodalities for the thoracic aorta. J Cardiovasc Surg(Torino). 2008;49:429–47.
  • Giesel FL, Hart AR, Hahn HK, Wignall E, Rengier F, Talanow R, et al. 3D reconstructions of the cerebral ventricles and volume quantification in children with brain malformations. Acad Radiol [Internet]. 2009 May [cited 2016 Mar 2];16(5):610–7. Available from: http://www.sciencedirect.com/science/article/pii/S1076633208006958
  • Peltola SM, Melchels FPW, Grijpma DW KM. A review of rapid prototyping techniques for tissue engineering purposes. A Rev rapid Prototyp Tech tissue Eng Purp. 2008;40:268–80.
  • Boland T, Xu T, Damon B CX. Application of inkjet printing to tissue engineering. Biotechnol J. 2006;1:910–7.
  • Campbell PG W LE. Tissue engineering with the aid of inkjet printers. Expert Opin Biol Ther. 2007;7:1123–7.
  • Chaban Micah. Eight Common Rapid Prototyping Mistakes. Rapid made. 2013.
  • Varkey M, Atala A. Organ Bioprinting: A Closer Look at Ethics and Policies. Wake For J Law Policy. 2015;691(2013):275–98.
  • Berman PM, Sosna J. Advent of 3D printing based on MDCT data. European Society Of Radiology-2009. 2009. p. 5–17.
  • AbouHashem Y, Dayal M, Savanah S, Strkalj G. Medical Education Online. Med Educ Online [Internet]. 2015;(20):1–8. Available from: http://www.ncbi.nlm.nih.gov/pubmed/26198434
  • Wagner JD, Baack B, Brown GA, Kelly J. Rapid 3-dimensional prototyping for surgical repair of maxillofacial fractures: a technical note. J Oral Maxillofac Surg [Internet]. 2004 Jul [cited 2016 Mar 2];62(7):898–901. Available from: http://www.sciencedirect.com/science/article/pii/S0278239104003076
  • Guarino J, Tennyson S, McCain G, Bond L, Shea K, King H. Rapid prototyping technology for surgeries of the pediatric spine and pelvis: benefits analysis. J Pediatr Orthop [Internet]. 2007;27(8):955–60. Available from: http://www.ncbi.nlm.nih.gov/pubmed/18209623
  • Hurson C, Tansey A, O'Donnchadha B, Nicholson P, Rice J, McElwain J. Rapid prototyping in the assessment, classification and preoperative planning of acetabular fractures. Injury. 2007;38(10):1158–62.
  • Giesel FL, Mehndiratta A, von Tengg-Kobligk H, Schaeffer A, Teh K, Hoffman EA, et al. Rapid prototyping raw models on the basis of high resolution computed tomography lung data for respiratory flow dynamics. Acad Radiol [Internet]. 2009 Apr [cited 2016 Mar 2];16(4):495–8. Available from: http://www.sciencedirect.com/science/article/pii/S1076633208006296
  • Armillotta a, Bonhoeffer P, Dubini G, Ferragina S, Migliavacca F, Sala G, et al. Use of rapid prototyping models in the planning of percutaneous pulmonary valved stent implantation. Proc Inst Mech Eng H. 2007;221:407–16.
  • Kim MS, Hansgen AR, Wink O, Quaife RA, Carroll JD. Rapid prototyping: A new tool in understanding and treating structural heart disease. Circulation. 2008;117(18):2388–94.
  • Mavili M, Canter H, Saglam-Aydinatay B, Kamaci S KI. Use of three-dimensional medical modeling methods for precise planning of orthognathic surgery. JCraniofac Surg. 2007;18:740–7.
  • D’Urso P, Barker T, Earwaker W, Bruce L, Atkinson R, Lanigan M, Arvier J ED. Stereolithographic biomodelling in cranio-maxillofacial surgery: a prospective trial. J Craniomaxillo- fac Surg. 1999;27:30–7.
  • Kido T, Kurata A, Higashino H, Sugawara Y, Okayama H, Higaki J, et al. Cardiac imaging using 256-detector row four-dimensional CT: Preliminary clinical report. Radiat Med - Med Imaging Radiat Oncol. 2007;25(1):38–44.
  • Meaney J GM. Recent advances in contrast-enhanced magnetic resonance angiography. Eur Radiol. 2007;17(Suppl 2):B2–6.
  • D’Urso PS, Barker TM, Earwaker WJ, Bruce LJ, Atkinson RL, Lanigan MW, et al. Stereolithographic biomodelling in cranio-maxillofacial surgery: a prospective trial. J Craniomaxillofac Surg. 1999;27(1):30–7.
  • Singare S, Liu Y, Li D, Lu B, Wang J, He S. Individually prefabricated prosthesis for maxilla reconstruction. J Prosthodont. 2008;17(2):135–40.
  • Li Z, Xu SF, Li DC, Sun Z, Zhang T, Lu JX, et al. Composite artificial semi-knee joint system. Eur Rev Med Pharmacol Sci. 2014;18(8):1229–40.
  • Dai K, Yan M, Zhu Z SY. Computer-aided custom-made hemipelvic prosthesis used in extensive pelvic lesions. J Arthro- plasty. 2007;22:981–6.
  • Harrysson O, Hosni Y NJ. Custom-designed ortho- pedic implants evaluated using finite element analysis of patient- specific computed tomography data: femoral-component case study. BMC Musculoskelet Disord. 8:91.
  • Subburaj K, Nair C, Rajesh S, Meshram SM, Ravi B. Rapid development of auricular prosthesis using CAD and rapid prototyping technologies. Int J Oral Maxillofac Surg. 2007;36(10):938–43.
  • Ciocca L, Mingucci R, Gassino G, Scotti R. CAD/CAM ear model and virtual construction of the mold. J Prosthet Dent. 2007;98(5):339–43.
  • Derby B. Printing and Prototyping of Tissues and Scaffolds. Science (80- ). 2012;338(November):921–7.
  • Canstein C, Cachot P, Faust A, Stalder AF, Bock J, Frydrychowicz A, et al. 3D MR flow analysis in realistic rapid-prototyping model systems of the thoracic aorta: Comparison with in vivo data and computational fluid dynamics in identical vessel geometries. Magn Reson Med. 2008;59(3):535–46.
  • Taga I, Funakubo A, Fukui Y. Design and development of an artificial implantable lung using multiobjective genetic algorithm: evaluation of gas exchange performance. ASAIO J. 2005;51(1):92–102.
  • Lambrecht JT, Berndt DC, Schumacher R, Zehnder M. Generation of three-dimensional prototype models based on cone beam computed tomography. Int J Comput Assist Radiol Surg. 2009;4(2):175–80.
  • Üstün Ç. Plastinasyon. Bir bilim mi yoksa garip bir gösteri mi? ADÜ Tıp Fakültesi Derg. 2002;3(1):37–42.
There are 35 citations in total.

Details

Journal Section Review
Authors

Hale Sezer

Hatice Şahin

Publication Date September 5, 2016
Submission Date April 18, 2016
Published in Issue Year 2016 Volume: 15 Issue: 46

Cite

Vancouver Sezer H, Şahin H. 3D BASKI MATERYALİNİN EĞİTİMDE KULLANIMI: QUA VADİS?. TED. 2016;15(46).