Access the full text.
Sign up today, get DeepDyve free for 14 days.
Kah Lim, Zhou Loo, S. Goldie, Justin Adams, P. McMenamin (2016)
Use of 3D printed models in medical education: A randomized control trial comparing 3D prints versus cadaveric materials for learning external cardiac anatomyAnatomical Sciences Education, 9
M. Tam, S. Laycock, James Brown, M. Jakeways (2013)
3D Printing of an Aortic Aneurysm to Facilitate Decision Making and Device Selection for Endovascular Aneurysm Repair in Complex Neck AnatomyJournal of Endovascular Therapy, 20
Alper Karacan, A. Türkvatan, K. Karacan (2013)
Anatomical variations of aortic arch branching: evaluation with computed tomographic angiographyCardiology in the Young, 24
K. Knox, C. Kerber, S. Singel, M. Bailey, S. Imbesi (2005)
Rapid prototyping to create vascular replicas from CT scan data: Making tools to teach, rehearse, and choose treatment strategiesCatheterization and Cardiovascular Interventions, 65
J. Pfeiffer, C. Becker, G. Ridder (2016)
Aberrant extracranial internal carotid arteries: New insights, implications, and demand for a clinical grading systemHead & Neck, 38
E. Ergun, B. Şimşek, P. Koşar, B. Yılmaz, A. Turgut (2013)
Anatomical variations in branching pattern of arcus aorta: 64-slice CTA appearanceSurgical and Radiologic Anatomy, 35
J. Luursema, W. Verwey, Piet Kommers, J. Annema (2008)
The role of stereopsis in virtual anatomical learningInteract. Comput., 20
Christina Adams, T. Wilson (2011)
Virtual cerebral ventricular system: An MR‐based three‐dimensional computer modelAnatomical Sciences Education, 4
Y. Gür (2014)
Additive Manufacturing of Anatomical Models from Computed Tomography Scan Data.Molecular & cellular biomechanics : MCB, 11 4
Amy Hilbelink (2009)
A measure of the effectiveness of incorporating 3D human anatomy into an online undergraduate laboratoryBr. J. Educ. Technol., 40
K. Ogden, Can Aslan, N. Ordway, Dalanda Diallo, G. Tillapaugh-Fay, P. Soman (2015)
Factors Affecting Dimensional Accuracy of 3-D Printed Anatomical Structures Derived from CT DataJournal of Digital Imaging, 28
Xiangxue Kong, Lan-ying Nie, Hui-jian Zhang, Zhanglin Wang, Qiang Ye, Lei Tang, Jianyi Li, Wenhua Huang (2016)
Do Three-dimensional Visualization and Three-dimensional Printing Improve Hepatic Segment Anatomy Teaching? A Randomized Controlled Study.Journal of surgical education, 73 2
O. Ergun, I. Tatar, H. Durmaz, E. Birgi, B. Hekimoğlu (2014)
A case of a rare aortic arch variation: the avian form.JBR-BTR : organe de la Societe royale belge de radiologie (SRBR) = orgaan van de Koninklijke Belgische Vereniging voor Radiologie, 97 6
J. Fasel, Diego Aguiar, Daniel Kiss-Bodolay, X. Montet, A. Kalangos, B. Stimec, O. Ratib (2016)
Adapting anatomy teaching to surgical trends: a combination of classical dissection, medical imaging, and 3D-printing technologiesSurgical and Radiologic Anatomy, 38
K. Natsis, I. Tsitouridis, M. Didagelos, Andis Fillipidis, K. Vlasis, P. Tsikaras (2009)
Anatomical variations in the branches of the human aortic arch in 633 angiographies: clinical significance and literature reviewSurgical and Radiologic Anatomy, 31
A. Marro, T. Bandukwala, Walter Mak (2016)
Three-Dimensional Printing and Medical Imaging: A Review of the Methods and Applications.Current problems in diagnostic radiology, 45 1
Charys Martin, Victoria Roach, Ngan Nguyen, Charles Rice, T. Wilson (2013)
Comparison of 3D reconstructive technologies used for morphometric research and the translation of knowledge using a decision matrixAnatomical Sciences Education, 6
K. Knox, C. Kerber, S. Singel, M. Bailey, S. Imbesi (2005)
Stereolithographic vascular replicas from CT scans: choosing treatment strategies, teaching, and research from live patient scan data.AJNR. American journal of neuroradiology, 26 6
Daniel Brewer, T. Wilson, R. Eagleson, S. Ribaupierre (2012)
Evaluation of Neuroanatomical Training Using a 3D Visual Reality ModelStudies in health technology and informatics, 173
Derek Choi-Lundberg, Tze Low, P. Patman, P. Turner, S. Sinha (2016)
Medical student preferences for self‐directed study resources in gross anatomyAnatomical Sciences Education, 9
P. Anderson, P. Chapman, M. Ma, P. Rea (2014)
Real-time Medical Visualization of Human Head and Neck Anatomy and its Applications for Dental Training and SimulationCurrent Medical Imaging Reviews, 9
Ngan Nguyen, T. Wilson (2009)
A head in virtual reality: Development of a dynamic head and neck modelAnatomical Sciences Education, 2
Sonia Pujol, M. Baldwin, Joshua Nassiri, R. Kikinis, K. Shaffer (2016)
Using 3D Modeling Techniques to Enhance Teaching of Difficult Anatomical Concepts.Academic radiology, 23 4
H. Petersson, David Sinkvist, Chunliang Wang, Ö. Smedby (2009)
Web‐based interactive 3D visualization as a tool for improved anatomy learningAnatomical Sciences Education, 2
G. Vucurevic, S. Marinković, L. Puškaš, I. Kovacevic, S. Tanasković, D. Radak, A. Ilic (2013)
Anatomy and radiology of the variations of aortic arch branches in 1,266 patients.Folia morphologica, 72 2
G. Jakanani, W. Adair (2010)
Frequency of variations in aortic arch anatomy depicted on multidetector CT.Clinical radiology, 65 6
Dongmei Cui, James Lynch, Andrew Smith, T. Wilson, Michael Lehman (2016)
Stereoscopic vascular models of the head and neck: A computed tomography angiography visualizationAnatomical Sciences Education, 9
C. Wilasrusmee, Jesada Suvikrom, J. Suthakorn, P. Lertsithichai, Kriskrai Sitthiseriprapip, Napaphat Proprom, D. Kittur (2008)
Three-dimensional aortic aneurysm model and endovascular repair: an educational tool for surgical trainees.The International journal of angiology : official publication of the International College of Angiology, Inc, 17 3
J. Foo, Marisol Martinez-Escobar, Bethany Juhnke, Keely Cassidy, K. Hisley, T. Lobe, E. Winer (2013)
Evaluating mental workload of two-dimensional and three-dimensional visualization for anatomical structure localization.Journal of laparoendoscopic & advanced surgical techniques. Part A, 23 1
S. Kapakin (2016)
The paranasal sinuses: three-dimensional reconstruction, photo-realistic imaging, and virtual endoscopy.Folia morphologica, 75 3
S. Hosokawa, H. Mineta (2010)
Tortuous internal carotid artery presenting as a pharyngeal massThe Journal of Laryngology & Otology, 124
B. Temkin, Eric Acosta, A. Malvankar, Sreeram Vaidyanath (2006)
An interactive three‐dimensional virtual body structures system for anatomical training over the internetClinical Anatomy, 19
M. Tam, Thomas Latham, Mark Lewis, Kunal Khanna, A. Zaman, M. Parker, I. Grunwald (2016)
A Pilot Study Assessing the Impact of 3-D Printed Models of Aortic Aneurysms on Management Decisions in EVAR PlanningVascular and Endovascular Surgery, 50
D. Schmauss, Sandra Haeberle, C. Hagl, R. Sodian (2015)
Three-dimensional printing in cardiac surgery and interventional cardiology: a single-centre experience.European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery, 47 6
M. Tam (2010)
Building virtual models by postprocessing radiology images: A guide for anatomy facultyAnatomical Sciences Education, 3
Özlen Karabulut, K. Iltimur, M. Tuncer (2010)
Coexisting of aortic arch variation of the left common carotid artery arising from brachiocephalic trunk and absence of the main branches of right subclavian artery: a review of the literature.Romanian journal of morphology and embryology = Revue roumaine de morphologie et embryologie, 51 3
Philip Brown, N. Hamilton, A. Denison (2012)
A novel 3D stereoscopic anatomy tutorialThe Clinical Teacher, 9
M. Tam, Thomas Latham, James Brown, M. Jakeways (2014)
Use of a 3D Printed Hollow Aortic Model to Assist EVAR Planning in a Case With Complex Neck Anatomy: Potential of 3D Printing to Improve Patient OutcomeJournal of Endovascular Therapy, 21
Y. Marchenko, I. Volkau, W. Nowinski (2010)
Vascular Editor: From Angiographic Images to 3D Vascular ModelsJournal of Digital Imaging, 23
Surg Radiol Anat (2017) 39:905–910 DOI 10.1007/s00276-017-1822-2 ORIGINAL ARTICLE Creating vascular models by postprocessing computed tomography angiography images: a guide for anatomical education 1 1 1 2 Figen Govsa · Mehmet Asim Ozer · Suzan Sirinturk · Cenk Eraslan · Ahmet Kemal Alagoz Received: 29 April 2016 / Accepted: 16 January 2017 / Published online: 6 February 2017 © Springer-Verlag France 2017 Abstract Keywords Computed tomography angiography · Three- Background A new application of teaching anatomy dimentional printed model · Anatomical models · Medical includes the use of computed tomography angiography education · Undergraduate education · Post-graduate (CTA) images to create clinically relevant three-dimen- education · Anatomic variation · Preoperative planning · sional (3D) printed models. The purpose of this article is Intraoperative guidance to review recent innovations on the process and the appli- cation of 3D printed models as a tool for using under and post-graduate medical education. Introduction Methods Images of aortic arch pattern received by CTA were converted into 3D images using the Google SketchUp Medical education is not confined within the medical free software and were saved in stereolithography format. school, but it is rather a lifelong process [2, 5, 12, 24]. All Using a 3D printer (Makerbot), a model mode polylactic kinds of theoretical and practical experience during under acid material
Surgical and Radiologic Anatomy – Springer Journals
Published: Feb 6, 2017
Access the full text.
Sign up today, get DeepDyve free for 14 days.