Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery

İsmail Kaya; İlker Deniz Cingöz; Meryem Cansu Şahin; Nevin Aydın; Hasan Emre Aydın; Ali Arslantaş; Egemen Nursoy

Research Article

Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery

Year 2019, Volume: 1 Issue: 2, 35 - 39, 16.12.2019

İsmail Kaya İlker Deniz Cingöz Meryem Cansu Şahin Nevin Aydın Hasan Emre Aydın Ali Arslantaş Egemen Nursoy

Abstract

Three dimensional printers which are among the popular innovations of today are used increasingly more in medical field as in every field of life and they make the surgical operation easier. When customizable materials are combined with technology, we have successful results and fewer complications. The objective of our study was to demonstrate the advantages provided by three dimensional modeling methods in neurosurgery practice for both the surgeon and the patient. We reached the conclusion that 3D printing techniques were the practically and anatomically correct methods for the production of patient-specific models for surgical planning, simulation and training, tissue engineering implants and the secondary devices. Thus, the progress of this technology may contribute to the progress of neurosurgery field in several aspects.

Keywords

Neurosurgery, spinal surgery

References

1. Agrawal SK, Fehlings MG. Mechanisms of secondary injury to spinal cord axons in vitro: Role of Na, Na-K ATPase, the NA-H exchanger and the Na-Ca exchanger. J. Neuroscience. 1996;16 (2):545-552.
2. İplikçioglu C. Omurilik yaralanmasının fizyopatolojisi. Omurilik Omurga Cerrahisi, Ed. M.Zileli, Fahir Özer, 1. Baskı, İzmir, Saray Medikal Yayıncılık, 2002, s: 459-465
3. Li Z, Li Z, Xu R, Li M, Li J, Liu Y, et al. Three-dimensional printing models improve understanding of spinal fracture—A randomized controlled study in China. Sci Rep. 2015;5:11570.
4. Castro WH, Halm H, Jerosch J, Malms J, Steinback J, Blasius S (1996) Accuracy of pedicle screw placement in lumbar vertebrae. Spine 21: 1320-1324.
5. A Practical Approach to Spine Imaging. CONTINUUM: Lifelong Learning in Neurology, Klein, J. P. 36-51, : (1, Spinal Cord Disorders), 2015, Cilt 21.
6. Hong JY, Suh SW, Easwar TR, Modi HN, Yang JH, Park JH. Evaluation of the three dimensional deformities in scoliosis surgery with computed tomography: efficacy and relationship with clinical outcomes. Spine. 2011;36(19):1259-65.
7. Laine T, Lund T, Ylikoski M, Lohikoski J, Schlenzka D (2000) Accuracy of pedicle screw insertion with and without computer assistance: a randomised controlled clinical study in 100 consecutive patients. Eur Spine J Jun; 9(3):235-240.
8. Hong JY, Suh SW, Easwar TR, Modi HN, Yang JH, Park JH: Evaluation of the three dimensional deformities in scoliosis surgery with computed tomography: Efficacy and relationship with clinical outcomes. Spine 36(19):1259-1265, 2011
9. Three-Dimensional Printed Model-Assisted Screw Installation in Treating Posterior Atlantoaxial Internal Fixation Minyi Yang, Nannan Zhang, Haodong Shi, Hui Li, Shichang Liu, Zongrang Song, Lequn Shan, Qining Wu Dingjun Hao
10. Hyun Jin Park, Chenyu Wang, Kyung Ho Choi and Hyong Nyun Kim, Use of a life-size three dimensional-printed spine model for pedicle screw instrumentation training, Park et al. Journal of Orthopaedic Surgery and Research (2018) 13:86
11. Starosolski ZA, Kan JH, Rosenfeld SD, Krishnamurthy R, Annapragada A. Application of 3-D printing (rapid prototyping) for creating physical models of pediatric orthopedic disorders. Pediatr Radiol. 2014;44(2):216-21.
12. Karlin L, Weinstock P, Hedequist D, Prabhu SP. The surgical treatment of spinal deformity in children with myelomeningocele: the role of personalized three-dimensional printed models. J Pediatr Orthop B. 2017;26(4):375- 382.

Spinal Cerrahi Öncesi Üç Boyutlu Modelleme ile Simülasyon ve Cerrahiye Etkileri

Year 2019, Volume: 1 Issue: 2, 35 - 39, 16.12.2019

İsmail Kaya İlker Deniz Cingöz Meryem Cansu Şahin Nevin Aydın Hasan Emre Aydın Ali Arslantaş Egemen Nursoy

Abstract

Günümüzün popüler yenilikleri arasında yer alan üç boyutlu yazıcılar, yaşamın her alanında olduğu gibi tıp alanında da giderek daha fazla kullanılıyor ve cerrahi operasyonları kolaylaştırıyor. Özelleştirilebilir malzemeler teknolojiyle birleştirildiğinde başarılı sonuçlar ve azalmış komplikasyon oranları ortaya çıkarıyor. Çalışmamızın amacı, hem cerrahi hem de hasta için beyin cerrahisi uygulamalarında üç boyutlu modelleme yöntemlerinin sağladığı avantajları göstermekti. 3D baskı tekniklerinin; cerrahi planlama, simülasyon ve eğitim, doku mühendisliği implantları ve sekonder aletler için hastaya özel modellerin üretimi için pratik ve anatomik olarak doğru yöntemler olduğu sonucuna ulaştık. Bu nedenle, bu teknolojinin gelişimi nöroşirürji alanının ilerleyişine farklı açılardan katkıda bulunabilir.

Keywords

Beyin cerrahisi, spinal cerrahi

References

1. Agrawal SK, Fehlings MG. Mechanisms of secondary injury to spinal cord axons in vitro: Role of Na, Na-K ATPase, the NA-H exchanger and the Na-Ca exchanger. J. Neuroscience. 1996;16 (2):545-552.
2. İplikçioglu C. Omurilik yaralanmasının fizyopatolojisi. Omurilik Omurga Cerrahisi, Ed. M.Zileli, Fahir Özer, 1. Baskı, İzmir, Saray Medikal Yayıncılık, 2002, s: 459-465
3. Li Z, Li Z, Xu R, Li M, Li J, Liu Y, et al. Three-dimensional printing models improve understanding of spinal fracture—A randomized controlled study in China. Sci Rep. 2015;5:11570.
4. Castro WH, Halm H, Jerosch J, Malms J, Steinback J, Blasius S (1996) Accuracy of pedicle screw placement in lumbar vertebrae. Spine 21: 1320-1324.
5. A Practical Approach to Spine Imaging. CONTINUUM: Lifelong Learning in Neurology, Klein, J. P. 36-51, : (1, Spinal Cord Disorders), 2015, Cilt 21.
6. Hong JY, Suh SW, Easwar TR, Modi HN, Yang JH, Park JH. Evaluation of the three dimensional deformities in scoliosis surgery with computed tomography: efficacy and relationship with clinical outcomes. Spine. 2011;36(19):1259-65.
7. Laine T, Lund T, Ylikoski M, Lohikoski J, Schlenzka D (2000) Accuracy of pedicle screw insertion with and without computer assistance: a randomised controlled clinical study in 100 consecutive patients. Eur Spine J Jun; 9(3):235-240.
8. Hong JY, Suh SW, Easwar TR, Modi HN, Yang JH, Park JH: Evaluation of the three dimensional deformities in scoliosis surgery with computed tomography: Efficacy and relationship with clinical outcomes. Spine 36(19):1259-1265, 2011
9. Three-Dimensional Printed Model-Assisted Screw Installation in Treating Posterior Atlantoaxial Internal Fixation Minyi Yang, Nannan Zhang, Haodong Shi, Hui Li, Shichang Liu, Zongrang Song, Lequn Shan, Qining Wu Dingjun Hao
10. Hyun Jin Park, Chenyu Wang, Kyung Ho Choi and Hyong Nyun Kim, Use of a life-size three dimensional-printed spine model for pedicle screw instrumentation training, Park et al. Journal of Orthopaedic Surgery and Research (2018) 13:86
11. Starosolski ZA, Kan JH, Rosenfeld SD, Krishnamurthy R, Annapragada A. Application of 3-D printing (rapid prototyping) for creating physical models of pediatric orthopedic disorders. Pediatr Radiol. 2014;44(2):216-21.
12. Karlin L, Weinstock P, Hedequist D, Prabhu SP. The surgical treatment of spinal deformity in children with myelomeningocele: the role of personalized three-dimensional printed models. J Pediatr Orthop B. 2017;26(4):375- 382.

There are 12 citations in total.

Details

Primary Language	English
Subjects	Surgery
Journal Section	Research Articles
Authors	İsmail Kaya This is me 0000-0002-5117-8066 İlker Deniz Cingöz This is me 0000-0002-0452-7606 Meryem Cansu Şahin This is me 0000-0002-0452-7606 Nevin Aydın This is me 0000-0003-1949-2765 Hasan Emre Aydın This is me 0000-0002-8932-1542 Ali Arslantaş This is me 0000-0002-0847-9015 Egemen Nursoy This is me 0000-0003-2588-7579
Publication Date	December 16, 2019
Published in Issue	Year 2019 Volume: 1 Issue: 2

Cite

APA	Kaya, İ., Cingöz, İ. D., Şahin, M. C., Aydın, N., et al. (2019). Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery. Journal of Medical Innovation and Technology, 1(2), 35-39.
AMA	Kaya İ, Cingöz İD, Şahin MC, Aydın N, Aydın HE, Arslantaş A, Nursoy E. Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery. Journal of Medical Innovation and Technology. December 2019;1(2):35-39.
Chicago	Kaya, İsmail, İlker Deniz Cingöz, Meryem Cansu Şahin, Nevin Aydın, Hasan Emre Aydın, Ali Arslantaş, and Egemen Nursoy. “Simulation With Three Dimensional Modeling Before Spinal Surgery and Its Effects on the Surgery”. Journal of Medical Innovation and Technology 1, no. 2 (December 2019): 35-39.
EndNote	Kaya İ, Cingöz İD, Şahin MC, Aydın N, Aydın HE, Arslantaş A, Nursoy E (December 1, 2019) Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery. Journal of Medical Innovation and Technology 1 2 35–39.
IEEE	İ. Kaya, İ. D. Cingöz, M. C. Şahin, N. Aydın, H. E. Aydın, A. Arslantaş, and E. Nursoy, “Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery”, Journal of Medical Innovation and Technology, vol. 1, no. 2, pp. 35–39, 2019.
ISNAD	Kaya, İsmail et al. “Simulation With Three Dimensional Modeling Before Spinal Surgery and Its Effects on the Surgery”. Journal of Medical Innovation and Technology 1/2 (December 2019), 35-39.
JAMA	Kaya İ, Cingöz İD, Şahin MC, Aydın N, Aydın HE, Arslantaş A, Nursoy E. Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery. Journal of Medical Innovation and Technology. 2019;1:35–39.
MLA	Kaya, İsmail et al. “Simulation With Three Dimensional Modeling Before Spinal Surgery and Its Effects on the Surgery”. Journal of Medical Innovation and Technology, vol. 1, no. 2, 2019, pp. 35-39.
Vancouver	Kaya İ, Cingöz İD, Şahin MC, Aydın N, Aydın HE, Arslantaş A, Nursoy E. Simulation with Three Dimensional Modeling Before Spinal Surgery and its Effects on the Surgery. Journal of Medical Innovation and Technology. 2019;1(2):35-9.

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