Atormac
Home  -  About us  -  Editorial board  -  Search  -  Ahead of print  -  Current issue  -  Archives  -  Instructions  -  Subscribe  -  Contacts  -  Advertise - Login 
 
 
     
This article has been cited by
1Challenges for Product Development of Orthopedic Implants
Jitesh Madhavi,Jayesh Dange,Vivek Sunnapwar
SSRN Electronic Journal.2017;()
[DOI]
2Three-dimensional Cross-Platform Planning for Complex Spinal Procedures
Michael Kosterhon,Angelika Gutenberg,Sven R. Kantelhardt,Jens Conrad,Amr Nimer Amr,Joachim Gawehn,Alf Giese
Clinical Spine Surgery.2017;30(7)E1000
[DOI]
3Three-Dimensional Printing and Medical Imaging: A Review of the Methods and Applications
Alessandro Marro,Taha Bandukwala,Walter Mak
Current Problems in Diagnostic Radiology.2016;45(1)2
[DOI]
4Patient-Specific Surgical Implants Made of 3D Printed PEEK: Material, Technology, and Scope of Surgical Application
Philipp Honigmann,Neha Sharma,Brando Okolo,Uwe Popp,Bilal Msallem,Florian M. Thieringer
BioMed Research International.2018;2018(1)1
[DOI]
5Patient-Specific Surgical Implants Made of 3D Printed PEEK: Material, Technology, and Scope of Surgical Application
K. Palka,R. Pokrowiecki,M. Krzywicka
BioMed Research International.2019;2018(1)27
[DOI]
6In Vitro Biomechanical Simulation Testing of Custom Fabricated Temporomandibular Joint Parts Made of Electron Beam Melted Titanium, Zirconia, and Poly-Methyl Methacrylate
Mohammed Alkindi,Sundar Ramalingam,Khaja Moiduddin,Osama Alghamdi,Hisham Alkhalefah,Mohammed Badwelan
Applied Sciences.2019;9(24)5455
[DOI]
7Current Trends in 3D Printing, Bioprosthetics, and Tissue Engineering in Plastic and Reconstructive Surgery
Cesar Colasante,Zachary Sanford,Evan Garfein,Oren Tepper
Current Surgery Reports.2016;4(2)5455
[DOI]
8Augmented patient-specific facial prosthesis production using medical imaging modelling and 3D printing technologies for improved patient outcomes
Mazher I. Mohammed,Brenton Cadd,Greg Peart,Ian Gibson
Virtual and Physical Prototyping.2018;13(3)164
[DOI]
9Augmented patient-specific facial prosthesis production using medical imaging modelling and 3D printing technologies for improved patient outcomes
Lewis R. Hart,Yinfeng He,Laura Ruiz-Cantu,Zuoxin Zhou,Derek Irvine,Ricky Wildman,Wayne Hayes
Virtual and Physical Prototyping.2020;13(3)467
[DOI]
10Clinical and volumetric outcomes after vertical ridge augmentation using computer-aided-design/computer-aided manufacturing (CAD/CAM) customized titanium meshes: a pilot study
Alessandro Cucchi,Alessandro Bianchi,Paolo Calamai,Lisa Rinaldi,Francesco Mangano,Elisabetta Vignudelli,Giuseppe Corinaldesi
BMC Oral Health.2020;20(1)467
[DOI]
11Metallic additive manufacturing for bone-interfacing implants
Avik Sarker,Martin Leary,Kate Fox
Biointerphases.2020;15(5)050801
[DOI]
12Surface characteristics and biocompatibility of cranioplasty titanium implants following different surface treatments
Muhanad M. Hatamleh,Xiaohong Wu,Ahmad Alnazzawi,Jason Watson,David Watts
Dental Materials.2018;34(4)676
[DOI]
13Surface characteristics and biocompatibility of cranioplasty titanium implants following different surface treatments
Georgi Todorov,Nikolay Nikolov,Yavor Sofronov,Nikolay Gabrovski,Maria Laleva,Todor Gavrilov
Dental Materials.2019;283(4)347
[DOI]
14An In Vivo Evaluation of Biocompatibility and Implant Accuracy of the Electron Beam Melting and Commercial Reconstruction Plates
Khaja Moiduddin,Syed Hammad Mian,Mohammed Alkindi,Sundar Ramalingam,Hisham Alkhalefah,Osama Alghamdi
Metals.2019;9(10)1065
[DOI]
15Effect of Dexamethasone on Room Temperature Three-Dimensional Printing, Rheology, and Degradation of a Low Modulus Polyester for Soft Tissue Engineering
Tanmay Jain,David Saylor,Charlotte Piard,Qianhui Liu,Viraj Patel,Rahul Kaushal,Jae-Won Choi,John Fisher,Irada Isayeva,Abraham Joy
ACS Biomaterials Science & Engineering.2019;5(2)846
[DOI]
16Regenerative Approach to Bilateral Rostral Mandibular Reconstruction in a Case Series of Dogs
Boaz Arzi,Derek D. Cissell,Rachel E. Pollard,Frank J. M. Verstraete
Frontiers in Veterinary Science.2015;2(2)846
[DOI]
17Three-dimensional printing for craniomaxillofacial regeneration
Laura Gaviria,Joseph J. Pearson,Sergio A. Montelongo,Teja Guda,Joo L. Ong
Journal of the Korean Association of Oral and Maxillofacial Surgeons.2017;43(5)288
[DOI]
183D printing and modelling of customized implants and surgical guides for non-human primates
Xing Chen,Jessy K. Possel,Catherine Wacongne,Anne F. van Ham,P. Christiaan Klink,Pieter R. Roelfsema
Journal of Neuroscience Methods.2017;286(5)38
[DOI]
193D printing and modelling of customized implants and surgical guides for non-human primates
A. Ataee,Y. Li,G. Song,C. Wen
Journal of Neuroscience Methods.2017;286(5)83
[DOI]
203D printed drug delivery devices: perspectives and technical challenges
Mirja Palo,Jenny Holländer,Jaakko Suominen,Jouko Yliruusi,Niklas Sandler
Expert Review of Medical Devices.2017;14(9)685
[DOI]
21Comparations of the 3D Printing Methods for the Production of the Reporting Medical Models
Peter Sedlacko,Radovan Hudák,Teodor Tóth,Tatiana Kelemenová,Jozef Živcák
Acta Mechanica Slovaca.2015;19(4)44
[DOI]
22Comparations of the 3D Printing Methods for the Production of the Reporting Medical Models
M. T. Ugidos Lozano,F. Blaya Haro,Alessandro Ruggiero,J. A. Juanes Mendez
Acta Mechanica Slovaca.2017;19(4)1
[DOI]
23Improve the accuracy, surface smoothing and material adaption in STL file for RP medical models
Manmadhachary A.,Ravi Kumar Y.,Krishnanand L.
Journal of Manufacturing Processes.2016;21(4)46
[DOI]
24Improve the accuracy, surface smoothing and material adaption in STL file for RP medical models
A. Manmadhachary,Santosh Kumar Malyala,Adityamohan Alwala
Journal of Manufacturing Processes.2019;30(4)1643
[DOI]
25The Predictive Hole Technique: A Technical Note
Mohammed Qaisi,Mohamed Ali Boukheir,Biraj Shah,James Murphy
Journal of Oral and Maxillofacial Surgery.2020;30(4)1643
[DOI]
26Innovations and Future Directions in Head and Neck Microsurgical Reconstruction
Marissa Suchyta,Samir Mardini
Clinics in Plastic Surgery.2017;44(2)325
[DOI]
27Direct ink writing of ceramics for bio medical applications – A Review
Utsav Golcha,A S Praveen,D L Belgin Paul
IOP Conference Series: Materials Science and Engineering.2020;912(2)032041
[DOI]
283D-Printing Technologies for Craniofacial Rehabilitation, Reconstruction, and Regeneration
Ethan L. Nyberg,Ashley L. Farris,Ben P. Hung,Miguel Dias,Juan R. Garcia,Amir H. Dorafshar,Warren L. Grayson
Annals of Biomedical Engineering.2017;45(1)45
[DOI]
29Correction of a Posttraumatic Orbital Deformity Using Three-Dimensional Modeling, Virtual Surgical Planning with Computer-Assisted Design, and Three-Dimensional Printing of Custom Implants
Kristopher M. Day,Paul M. Phillips,Larry A. Sargent
Craniomaxillofacial Trauma & Reconstruction.2018;11(1)078
[DOI]
30Controversies in Traditional Oral and Maxillofacial Reconstruction
John S. Vorrasi,Antonia Kolokythas
Oral and Maxillofacial Surgery Clinics of North America.2017;29(4)401
[DOI]
31Amorphous Silicon Oxynitrophosphide-Coated Implants Boost Angiogenic Activity of Endothelial Cells
Felipe A. do Monte,Kamal R. Awad,Neelam Ahuja,Harry K.W. Kim,Pranesh Aswath,Marco Brotto,Venu G. Varanasi
Tissue Engineering Part A.2020;26(1-2)15
[DOI]
32Evaluation of Physical Properties of Titanium Specimen Fabricated by 3D Printing Technique
Yun-Jeong Oh,Soohwang Seok,Sang-Hyeok Lee,Kwang-Mahn Kim,Jae-Sung Kwon,Bum-Soon Lim
Korean Journal of Dental Materials.2016;43(1)29
[DOI]
33Evaluation of Physical Properties of Titanium Specimen Fabricated by 3D Printing Technique
Maria Agnese Pirozzi,Emilio Andreozzi,Mario Magliulo,Paolo Gargiulo,Mario Cesarelli,Bruno Alfano
Korean Journal of Dental Materials.2020;76(1)292
[DOI]
34Evaluation of Physical Properties of Titanium Specimen Fabricated by 3D Printing Technique
E. Van de Casteele,E. Shaheen,Y. Sun,M. EzEldeen,M. Shahbazian,L. Daems,P. Legrand,R. Jacobs,C. Politis
Korean Journal of Dental Materials.2015;76(1)239
[DOI]
35Calvarial Defects: Cell-Based Reconstructive Strategies in the Murine Model
Matthew P. Murphy,Natalina Quarto,Michael T. Longaker,Derrick C. Wan
Tissue Engineering Part C: Methods.2017;23(12)971
[DOI]
36Electron beam melting in the fabrication of three-dimensional mesh titanium mandibular prosthesis scaffold
Rongzeng Yan,Danmei Luo,Haitao Huang,Runxin Li,Niu Yu,Changkui Liu,Min Hu,Qiguo Rong
Scientific Reports.2018;8(1)971
[DOI]
37Recent advances in the reconstruction of cranio-maxillofacial defects using computer-aided design/computer-aided manufacturing
Ji-hyeon Oh
Maxillofacial Plastic and Reconstructive Surgery.2018;40(1)971
[DOI]
38Clinical Application of a Specific Simulation Software for 3-Dimensional Orbital Volume Modeling for Orbital Wall Reconstruction
Min Ji Kim,Woo Shik Jeong,Yun Hwan Kim,Hannah Kim,Hyunchul Cho,Youngjun Kim,Jong-Woo Choi
Annals of Plastic Surgery.2019;83(1)48
[DOI]
39Limb-sparing in dogs using patient-specific, three-dimensional-printed endoprosthesis for distal radial osteosarcoma: A pilot study
Bernard Séguin,Chris Pinard,Bertrand Lussier,Deanna Williams,Lynn Griffin,Brendan Podell,Sebastian Mejia,Anatolie Timercan,Yvan Petit,Vladimir Brailovski
Veterinary and Comparative Oncology.2020;18(1)92
[DOI]
40Limb-sparing in dogs using patient-specific, three-dimensional-printed endoprosthesis for distal radial osteosarcoma: A pilot study
Rupinder Singh,Sunpreet Singh,M.S.J. Hashmi
Veterinary and Comparative Oncology.2017;18(1)92
[DOI]
41Applications of Computer Technology in Complex Craniofacial Reconstruction
Kristopher M. Day,Kyle S. Gabrick,Larry A. Sargent
Plastic and Reconstructive Surgery - Global Open.2018;6(3)e1655
[DOI]
42Clinical outcomes of patient-specific porous titanium endoprostheses in dogs with tumors of the mandible, radius, or tibia: 12 cases (2013–2016)
Jonathan P. Bray,Andrew Kersley,Warwick Downing,Katherine R. Crosse,Andrew J. Worth,Arthur K. House,Guy Yates,Alastair R. Coomer,Ian W. M. Brown
Journal of the American Veterinary Medical Association.2017;251(5)566
[DOI]
43Semiautomated fabrication of a custom orbital prosthesis with 3-dimensional printing technology
So-Hyun Kim,Woo-Beom Shin,Seung-Woon Baek,Jin-Sook Yoon
The Journal of Prosthetic Dentistry.2019;122(5)494
[DOI]
44Perturbations of radiation field caused by titanium dental implants in pencil proton beam therapy
C Oancea,A Luu,I Ambrožová,G Mytsin,V Vondrácek,M Davídková
Physics in Medicine & Biology.2018;63(21)215020
[DOI]
45Perturbations of radiation field caused by titanium dental implants in pencil proton beam therapy
Seung Hwan Joo,Sung Mo Lee,Jin Ho Yoo,Hyeon Jin Son,Seung Ho Lee
Physics in Medicine & Biology.2020;63(21)210
[DOI]
46Update of patient-specific maxillofacial implant
James A. Owusu,Kofi Boahene
Current Opinion in Otolaryngology & Head and Neck Surgery.2015;23(4)261
[DOI]
47A comparison study on the design of mirror and anatomy reconstruction technique in maxillofacial region
Khaja Moiduddin,Abdulrahman Al-Ahmari,Emad S. Abouel Nasr,Syed Hammad Mian,Mohammed Al Kindi
Technology and Health Care.2016;24(3)377
[DOI]
48Computer-aided position planning of miniplates to treat facial bone defects
Jan Egger,Jürgen Wallner,Markus Gall,Xiaojun Chen,Katja Schwenzer-Zimmerer,Knut Reinbacher,Dieter Schmalstieg,Jose Manuel Garcia Aznar
PLOS ONE.2017;12(8)e0182839
[DOI]
49Addressing Unmet Clinical Needs with 3D Printing Technologies
Udayan Ghosh,Shen Ning,Yuzhu Wang,Yong Lin Kong
Advanced Healthcare Materials.2018;7(17)1800417
[DOI]
50Physical–Mechanical Characteristics and Microstructure of Ti6Al7Nb Lattice Structures Manufactured by Selective Laser Melting
Cosmin Cosma,Igor Drstvensek,Petru Berce,Simon Prunean,Stanislaw Legutko,Catalin Popa,Nicolae Balc
Materials.2020;13(18)4123
[DOI]
51Exploring Macroporosity of Additively Manufactured Titanium Metamaterials for Bone Regeneration with Quality by Design: A Systematic Literature Review
Daniel Martinez-Marquez,Ylva Delmar,Shoujin Sun,Rodney A. Stewart
Materials.2020;13(21)4794
[DOI]
52Haptics-assisted Virtual Planning of Bone, Soft Tissue, and Vessels in Fibula Osteocutaneous Free Flaps
Pontus Olsson,Fredrik Nysjö,Andrés Rodríguez-Lorenzo,Andreas Thor,Jan-Michaél Hirsch,Ingrid B. Carlbom
Plastic and Reconstructive Surgery - Global Open.2015;3(8)e479
[DOI]
53Two different techniques of manufacturing TMJ replacements – A technical report
Marcin Kozakiewicz,Tomasz Wach,Piotr Szymor,Rafal Zielinski
Journal of Cranio-Maxillofacial Surgery.2017;45(9)1432
[DOI]
54Two different techniques of manufacturing TMJ replacements – A technical report
Alex M. Greenberg
Journal of Cranio-Maxillofacial Surgery.2019;45(9)787
[DOI]
55Three-Dimensional Printing: Custom-Made Implants for Craniomaxillofacial Reconstructive Surgery
Mariana Matias,Horácio Zenha,Horácio Costa
Craniomaxillofacial Trauma & Reconstruction.2017;10(2)089
[DOI]
56Review of additive manufacturing methods for high-performance ceramic materials
Jia-Chang Wang,Hitesh Dommati,Sheng-Jen Hsieh
The International Journal of Advanced Manufacturing Technology.2019;103(5-8)2627
[DOI]
573D Printed, Customized Cranial Implant for Surgical Planning
Venkata Phanindra Bogu,Yennam Ravi Kumar,Khanra Asit Kumar
Journal of The Institution of Engineers (India): Series C.2018;99(3)255
[DOI]
58Different post-processing conditions for 3D bioprinted a-tricalcium phosphate scaffolds
Liciane Sabadin Bertol,Rodrigo Schabbach,Luis Alberto Loureiro dos Santos
Journal of Materials Science: Materials in Medicine.2017;28(10)255
[DOI]
59Development of customized implant and customized surgical osteotomy guide in ablative tumor surgery for accurate mandibular reconstruction
Sandeep Dahake,Abhaykumar Kuthe,Mahesh Mawale,Pranav Sapkal,Ashutosh Bagde,Subodh Daronde,Manish Kamble,Bhupesh Sarode
The International Journal of Medical Robotics and Computer Assisted Surgery.2020;16(1)255
[DOI]
60Evaluation of the suitability of cranial measurements obtained from surface-rendered CT scans of living people for estimating sex and ancestry
Terrie L. Simmons-Ehrhardt,Christopher J. Ehrhardt,Keith L. Monson
Journal of Forensic Radiology and Imaging.2019;19(1)100338
[DOI]
613D surface imaging of abdominal wall muscular contraction
Silvia Todros,Niccolò de Cesare,Silvia Pianigiani,Gianmaria Concheri,Gianpaolo Savio,Arturo N. Natali,Piero G. Pavan
Computer Methods and Programs in Biomedicine.2019;175(1)103
[DOI]
62A digital design methodology for surgical planning and fabrication of customized mandible implants
Emad Abouel Nasr,Abdurahman Mushabab Al-Ahmari,Khaja Moiduddin,Mohammed Al Kindi,Ali K. Kamrani
Rapid Prototyping Journal.2017;23(1)101
[DOI]
63Experimental investigation and constitutive modeling of the deformation behavior of Poly-Ether-Ether-Ketone at elevated temperatures
Bing Zheng,Haitao Wang,Zhigao Huang,Yi Zhang,Huamin Zhou,Dequn Li
Polymer Testing.2017;63(1)349
[DOI]
64Integrative and multi-disciplinary framework for the 3D rehabilitation of large mandibular defects
Khaja Moiduddin,Syed Hammad Mian,Naveed Ahmed,Wadea Ameen,Hisham Al-Khalefah,Muneer khan Mohammed,Usama Umer
The International Journal of Advanced Manufacturing Technology.2020;106(9-10)3831
[DOI]
65Replicating Skull Base Anatomy With 3D Technologies
Ricky Chae,Jeffrey D. Sharon,Ioannis Kournoutas,Sinem S. Ovunc,Minghao Wang,Adib A. Abla,Ivan H. El-Sayed,Roberto Rodriguez Rubio
Otology & Neurotology.2020;41(3)e392
[DOI]
66Steps for biomodel acquisition through addtive manufacturing for health
Ana Waleska Pessoa BARROS,Érika PORTO,Jefferson Felipe Silva de LIMA,Nadja Maria da Silva Oliveira BRITO,Renata de Souza Coelho SOARES
RGO - Revista Gaúcha de Odontologia.2016;64(4)442
[DOI]
67The use of 3D-printed titanium mesh tray in treating complex comminuted mandibular fractures
Junli Ma,Limin Ma,Zhifa Wang,Xiongjie Zhu,Weijian Wang
Medicine.2017;96(27)e7250
[DOI]
68Interactive reconstructions of cranial 3D implants under MeVisLab as an alternative to commercial planning software
Jan Egger,Markus Gall,Alois Tax,Muammer Ücal,Ulrike Zefferer,Xing Li,Gord von Campe,Ute Schäfer,Dieter Schmalstieg,Xiaojun Chen,Peter M.A. van Ooijen
PLOS ONE.2017;12(3)e0172694
[DOI]
69Preparation and In Vitro Analysis of Craniofacial Titanium Implants Surfaces Produced by Additive 3D Printing and Conventional Manufacturing
Muhanad M. Hatamleh
Craniomaxillofacial Trauma & Reconstruction.2020;12(3)194338752097079
[DOI]
70Fabrication of mandible fracture plate by indirect additive manufacturing
M Aizat,S F Khan
Journal of Physics: Conference Series.2017;908(3)012063
[DOI]
71Image based simulation of the low dose computed tomography images suggests 13?mAs 120?kV suitability for non-syndromic craniosynostosis diagnosis without iterative reconstruction algorithms
Arijanda Neverauskiene,Mazena Maciusovic,Marius Burkanas,Birute Griciene,Linas Petkevicius,Linas Zaleckas,Algirdas Tamosiunas,Jonas Venius
European Journal of Radiology.2018;105(3)168
[DOI]
72Optimization of extrusion based ceramic 3D printing process for complex bony designs
Uday Kiran Roopavath,Sara Malferrari,Annemieke Van Haver,Frederik Verstreken,Subha Narayan Rath,Deepak M. Kalaskar
Materials & Design.2019;162(3)263
[DOI]
73Computerassistierte Gesichtsschädelrekonstruktion
F. Wilde,A. Schramm
HNO.2016;64(9)641
[DOI]
74RETRACTED: Microstructure and mechanical properties of porous titanium structures fabricated by electron beam melting for cranial implants
Khaja Moiduddin
Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine.2018;232(2)185
[DOI]
75Patient-Specific Surgical Implant Using Cavity-Filled Approach for Precise and Functional Mandible Reconstruction
Khaja Moiduddin,Syed Hammad Mian,Wadea Ameen,Mohammed Alkindi,Sundar Ramalingam,Osama Alghamdi
Applied Sciences.2020;10(17)6030
[DOI]
76The use of virtual surgical planning and navigation in the treatment of orbital trauma
Alan Scott Herford,Meagan Miller,Floriana Lauritano,Gabriele Cervino,Fabrizio Signorino,Carlo Maiorana
Chinese Journal of Traumatology.2017;20(1)9
[DOI]
77Advances in Bioprinting Technologies for Craniofacial Reconstruction
Dafydd O. Visscher,Elisabet Farré-Guasch,Marco N. Helder,Susan Gibbs,Tymour Forouzanfar,Paul P. van Zuijlen,Jan Wolff
Trends in Biotechnology.2016;34(9)700
[DOI]
78Advances in Bioprinting Technologies for Craniofacial Reconstruction
Georgi Todorov,Nikolay Nikolov,Yavor Sofronov,Nikolay Gabrovski,Maria Laleva,Todor Gavrilov
Trends in Biotechnology.2019;283(9)339
[DOI]
79Use of 3D Printed Bone Plate in Novel Technique to Surgically Correct Hallux Valgus Deformities
Kathryn E. Smith,Kenneth M. Dupont,David L. Safranski,Jeremy W. Blair,Dawn R. Buratti,Vladimir Zeetser,Ryan Callahan,Jason S. Lin,Ken Gall
Techniques in Orthopaedics.2016;31(3)181
[DOI]
80Computer Assisted Design and Analysis of Customized Porous Plate for Mandibular Reconstruction
K. Moiduddin,S. Anwar,N. Ahmed,M. Ashfaq,A. Al-Ahmari
IRBM.2017;38(2)78
[DOI]
81Patient-Specific Mandibular Reconstruction Plates Increase Accuracy and Long-Term Stability in Immediate Alloplastic Reconstruction of Segmental Mandibular Defects
A. N. Zeller,M. T. Neuhaus,L. V. M. Weissbach,M. Rana,A. Dhawan,F. M. Eckstein,N. C. Gellrich,R. M. Zimmerer
Journal of Maxillofacial and Oral Surgery.2020;19(4)609
[DOI]
82Development of a custom zygomatic implant using metal sintering
Vijay Kumar Meena,Gagandeep Gagandeep,Aneesh Aneesh,Vidya Rattan,Gaurav Luthra,Parveen Kalra
Rapid Prototyping Journal.2018;24(5)828
[DOI]
83Accuracy in dental surgical guide fabrication using different 3-D printing techniques
Mamta Juneja,Niharika Thakur,Dinesh Kumar,Ankur Gupta,Babandeep Bajwa,Prashant Jindal
Additive Manufacturing.2018;22(5)243
[DOI]
84Accuracy in dental surgical guide fabrication using different 3-D printing techniques
Ana Morais,Jan Egger,Victor Alves
Additive Manufacturing.2019;932(5)151
[DOI]
85Development of 18 Quality Control Gates for Additive Manufacturing of Error Free Patient-Specific Implants
Daniel Martinez-Marquez,Milda Jokymaityte,Ali Mirnajafizadeh,Christopher P. Carty,David Lloyd,Rodney A. Stewart
Materials.2019;12(19)3110
[DOI]
86The Use of Computer-aided Design and 3-Dimensional Models in the Treatment of Forearm Malunions in Children
Dora A.R. Storelli,Andrea S. Bauer,Lisa L. Lattanza,H. Relton McCarroll
Techniques in Hand & Upper Extremity Surgery.2015;19(1)23
[DOI]
87Computer-Based Surgical Planning and Custom-Made Titanium Implants for Cranial Fibrous Dysplasia
Ozkan Tehli,Ahmet Murat Dursun,Caglar Temiz,Ilker Solmaz,Cahit Kural,Murat Kutlay,Yunus Kacar,Mehmet Can Ezgu,Erbil Oguz,Mehmet K Daneyemez,Yusuf Izci
Operative Neurosurgery.2015;11(2)213
[DOI]
88Sol–gel-derived mineral scaffolds within SiO2–P2O5–CaO–MgO–ZnO–CaF2 system
Sorin-Ion Jinga,Izabela Constantinoiu,Vasile-Adrian Surdu,Florin Iordache,Cristina Busuioc
Journal of Sol-Gel Science and Technology.2019;90(2)411
[DOI]
89Customized porous implants by additive manufacturing for zygomatic reconstruction
Khaja Moiduddin,Abdulrahman Al-Ahmari,Mohammed Al Kindi,Emad S. Abouel Nasr,Ashfaq Mohammad,Sundar Ramalingam
Biocybernetics and Biomedical Engineering.2016;36(4)719
[DOI]
90Structural and mechanical characterization of custom design cranial implant created using additive manufacturing
Khaja Moiduddin,Saied Darwish,Abdulrahman Al-Ahmari,Sherif ElWatidy,Ashfaq Mohammad,Wadea Ameen
Electronic Journal of Biotechnology.2017;29(4)22
[DOI]
91Technology and vascularized composite allotransplantation (VCA)—lessons learned from the first bilateral pediatric hand transplant
Arash Momeni,Benjamin Chang,L. Scott Levin
Journal of Materials Science: Materials in Medicine.2016;27(11)22
[DOI]
92Materiales reabsorbibles en el tratamiento de fracturas maxilofaciales pediátricas
Alex Bernardo Pimentel-Mendoza,Lazaro Rico-Pérez,Luis Jesús Villarreal-Gómez
Revista de Ciencias Tecnológicas.2018;1(1)1
[DOI]
93A Pilot Study Assessing the Impact of 3-D Printed Models of Aortic Aneurysms on Management Decisions in EVAR Planning
Matthew D. Tam,Tom R. Latham,Mark Lewis,Kunal Khanna,Ali Zaman,Mike Parker,Iris Q. Grunwald
Vascular and Endovascular Surgery.2016;50(1)4
[DOI]
94Screw extrusion-based additive manufacturing of PEEK
Jian-Wei Tseng,Chao-Yuan Liu,Yi-Kuang Yen,Johannes Belkner,Tobias Bremicker,Bernard Haochih Liu,Ta-Ju Sun,An-Bang Wang
Materials & Design.2018;140(1)209
[DOI]
95Reliability and accuracy of skin-supported surgical templates for computer-planned craniofacial implant placement, a comparison between surgical templates: With and without bony fixation
J.P.J. Dings,L. Verhamme,T.J.J. Maal,M.A.W. Merkx,G.J. Meijer
Journal of Cranio-Maxillofacial Surgery.2019;47(6)977
[DOI]
96Surface Finish has a Critical Influence on Biofilm Formation and Mammalian Cell Attachment to Additively Manufactured Prosthetics
Sophie C. Cox,Parastoo Jamshidi,Neil M. Eisenstein,Mark A. Webber,Hanna Burton,Richard J. A. Moakes,Owen Addison,Moataz Attallah,Duncan E.T. Shepherd,Liam M. Grover
ACS Biomaterials Science & Engineering.2017;3(8)1616
[DOI]
97Surface Finish has a Critical Influence on Biofilm Formation and Mammalian Cell Attachment to Additively Manufactured Prosthetics
Abdulrahman Al-Ahmari,Emad Abouel Nasr,Khaja Moiduddin,Mohammed Alkindi,Ali Kamrani
ACS Biomaterials Science & Engineering.2015;3(8)1
[DOI]
983D printing in dentistry
A. Dawood,B. Marti Marti,V. Sauret-Jackson,A. Darwood
British Dental Journal.2015;219(11)521
[DOI]
993D printing in dentistry
Eoin P. Hinchy
British Dental Journal.2019;219(11)23
[DOI]
1003D printing in dentistry
Djim Kanters,Anke de Vries,Henk Boon,Joost Urbach,Arjen Becht,Homme-Auke Kooistra
British Dental Journal.2019;68/1(11)669
[DOI]
101A design approach to facilitate selective attachment of bacteria and mammalian cells to additively manufactured implants
Victor M. Villapún,Luke N. Carter,Nan Gao,Owen Addison,Mark A. Webber,Duncan E.T. Shepherd,James W. Andrews,Morgan Lowther,Steven Avery,Sarah J. Glanvill,Liam M. Grover,Sophie Cox
Additive Manufacturing.2020;36(11)101528
[DOI]
102Impact Optimization of 3D-Printed Poly(methyl methacrylate) for Cranial Implants
Sandra Petersmann,Martin Spoerk,Philipp Huber,Margit Lang,Gerald Pinter,Florian Arbeiter
Macromolecular Materials and Engineering.2019;304(11)1900263
[DOI]
103Patient Specific Three-Dimensional Implant for Reconstruction of Complex Mandibular Defect
Vignesh U,Divya Mehrotra,Debraj Howlader,Praveen Kumar Singh,Sneha Gupta
Journal of Craniofacial Surgery.2019;30(4)e308
[DOI]
104Three-Dimensional Printing and Its Applications in Otorhinolaryngology–Head and Neck Surgery
Trevor D. Crafts,Susan E. Ellsperman,Todd J. Wannemuehler,Travis D. Bellicchi,Taha Z. Shipchandler,Avinash V. Mantravadi
Otolaryngology–Head and Neck Surgery.2017;156(6)999
[DOI]
105Rapid prototyping assisted fabrication of customized surgical guides in mandibular distraction osteogenesis: a case report
Sandeep W. Dahake,Abhaykumar M. Kuthe,Jitendra Chawla,Mahesh B. Mawale
Rapid Prototyping Journal.2017;23(3)602
[DOI]
106Designing Biomaterials for 3D Printing
Murat Guvendiren,Joseph Molde,Rosane M.D. Soares,Joachim Kohn
ACS Biomaterials Science & Engineering.2016;2(10)1679
[DOI]
107Three-Dimensional Planning of the Mandibular Margin in Hemifacial Microsomia Using a Printed Patient-Specific Implant
Sebastian Igelbrink,Leonardo Matos Santolim Zanettini,Lauren Bohner,Johannes Kleinheinz,Susanne Jung
Journal of Craniofacial Surgery.2020;Publish Ahead of Print(10)1679
[DOI]
108Three-Dimensional Planning of the Mandibular Margin in Hemifacial Microsomia Using a Printed Patient-Specific Implant
Georgios Georgantis,Evanthia Kostidi,Ioannis Dagkinis,Dimitrios Papachristos,Nikitas Nikitakos
Journal of Craniofacial Surgery.2020;Publish Ahead of Print(10)69
[DOI]
109Three-Dimensional Planning of the Mandibular Margin in Hemifacial Microsomia Using a Printed Patient-Specific Implant
Zhang Min,Dai Ning,Meng Ling-Yin,Yu Xiao-Ling,Zhang Yi-Hua,Liu Bing-Yao,Zhang Sen-Lin
Journal of Craniofacial Surgery.2017;Publish Ahead of Print(10)139
[DOI]
110Polyester-based ink platform with tunable bioactivity for 3D printing of tissue engineering scaffolds
Shen Ji,Koustubh Dube,Julian P. Chesterman,Stephanie L. Fung,Chya-Yan Liaw,Joachim Kohn,Murat Guvendiren
Biomaterials Science.2019;7(2)560
[DOI]
111Polyester-based ink platform with tunable bioactivity for 3D printing of tissue engineering scaffolds
Markus Gall,Xing Li,Xiaojun Chen,Dieter Schmalstieg,Jan Egger
Biomaterials Science.2016;7(2)1179
[DOI]
112Polyester-based ink platform with tunable bioactivity for 3D printing of tissue engineering scaffolds
Kenneth R. Foster
Biomaterials Science.2017;26(2)211
[DOI]
113Innovations and Future Directions in Head and Neck Microsurgical Reconstruction
Marissa Suchyta,Samir Mardini
Clinics in Plastic Surgery.2020;47(4)573
[DOI]
114Comparative Cost-Effectiveness of Cranioplasty Implants
Adam Binhammer,Josie Jakubowski,Oleh Antonyshyn,Paul Binhammer
Plastic Surgery.2020;28(1)29
[DOI]
115Reconstruction in head and neck cancer surgery: The ways we came through and the path ahead
Subramania Iyer
Journal of Head and Neck Physicians and Surgeons.2020;8(1)1
[DOI]
116The Influence of Selective Laser Melting (SLM) Process Parameters on In-Vitro Cell Response
Bartlomiej Wysocki,Joanna Idaszek,Joanna Zdunek,Krzysztof Rozniatowski,Marcin Pisarek,Akiko Yamamoto,Wojciech Swieszkowski
International Journal of Molecular Sciences.2018;19(6)1619
[DOI]
117A 3-Dimensional–Printed Short-Segment Template Prototype for Mandibular Fracture Repair
Parul Sinha,Gary Skolnick,Kamlesh B. Patel,Gregory H. Branham,John J. Chi
JAMA Facial Plastic Surgery.2018;20(5)373
[DOI]
118Software Framework for the Creation and Application of Personalized Bone and Plate Implant Geometrical Models
Nikola Vitkovic,Srdan Mladenovic,Milan Trifunovic,Milan Zdravkovic,Miodrag Manic,Miroslav Trajanovic,Dragan Mišic,Jelena Mitic
Journal of Healthcare Engineering.2018;2018(5)1
[DOI]
119Computer-aided methods for single-stage fibrous dysplasia excision and reconstruction in the zygomatico-orbital complex
Igor Budak,Aleksandar Kiralj,Mario Sokac,Zeljko Santosi,Dominic Eggbeer,Sean Peel
Rapid Prototyping Journal.2019;25(4)728
[DOI]
120Enabling personalized implant and controllable biosystem development through 3D printing
Neerajha Nagarajan,Agnes Dupret-Bories,Erdem Karabulut,Pinar Zorlutuna,Nihal Engin Vrana
Biotechnology Advances.2018;36(2)521
[DOI]
121Enabling personalized implant and controllable biosystem development through 3D printing
Gerald T. Grant,Jayanthi Parthasarathy,Shivakumar Raman,Bruno Azevedo,William C. Scarfe
Biotechnology Advances.2018;36(2)1207
[DOI]
122Preparation and Characterization for Antibacterial Activities of 3D Printing Polyetheretherketone Disks Coated with Various Ratios of Ampicillin and Vancomycin Salts
Ngi-Chiong Lau,Min-Hua Tsai,Dave W. Chen,Chien-Hao Chen,Kong-Wei Cheng
Applied Sciences.2019;10(1)97
[DOI]
123Measuring and Establishing the Accuracy and Reproducibility of 3D Printed Medical Models
Elizabeth George,Peter Liacouras,Frank J. Rybicki,Dimitrios Mitsouras
RadioGraphics.2017;37(5)1424
[DOI]
124Curved-Layered Additive Manufacturing of non-planar, parametric lattice structures
John C.S. McCaw,Enrique Cuan-Urquizo
Materials & Design.2018;160(5)949
[DOI]
125Curved-Layered Additive Manufacturing of non-planar, parametric lattice structures
Miodrag Manic,Zoran Stamenkovic,Nikola Vitkovic,Milos Stojkovic,Miroslav Trajanovic,Jelena Mitic,Sladjana Petrovic
Materials & Design.2015;160(5)1
[DOI]
126Tissue Engineering and 3-Dimensional Modeling for Facial Reconstruction
Kyle K. VanKoevering,David A. Zopf,Scott J. Hollister
Facial Plastic Surgery Clinics of North America.2019;27(1)151
[DOI]
127Surgical Advances in the Management of the Silent Sinus Syndrome: Our Experience and Review of the Literature
Mirza Z Baig,Joanna F Weber,Faiz Bhora,Al Haitham Al Shetawi
Journal of Oral and Maxillofacial Surgery.2020;78(12)2289
[DOI]
128Feasibility and Efficiency of Sutureless End Enterostomy by Means of a 3D-Printed Device in a Porcine Model
Eric Sejor,Tarek Debs,Niccolo Petrucciani,Pauline Brige,Sophie Chopinet,Mylène Seux,Marjorie Piche,Aline Myx-Staccini,Imed Ben Amor,Sebastien Frey,Frederic Prate,Arnaud Zenerino,Jean Gugenheim
Surgical Innovation.2020;27(2)203
[DOI]
1293D scanning applications in medical field: A literature-based review
Abid Haleem,Mohd. Javaid
Clinical Epidemiology and Global Health.2019;7(2)199
[DOI]
130Additive manufacturing in maxillofacial reconstruction
Luciana Laura Dinca,Alexandra Banu,Aurelian Visan,N. Balc
MATEC Web of Conferences.2017;137(2)02001
[DOI]
131Biomechanical Stress and Strain Analysis of Mandibular Human Region from Computed Tomography to Custom Implant Development
Rafael Ferreira Gregolin,Cecília Amelia de Carvalho Zavaglia,Ruís Camargo Tokimatsu,João A. Pereira
Advances in Materials Science and Engineering.2017;2017(2)1
[DOI]
132A retrospective descriptive study of cranioplasty failure rates and contributing factors in novel 3D printed calcium phosphate implants compared to traditional materials
Michael Koller,Daniel Rafter,Gillian Shok,Sean Murphy,Sheena Kiaei,Uzma Samadani
3D Printing in Medicine.2020;6(1)1
[DOI]
133Custom implant design for large cranial defects
Filipe M. M. Marreiros,Y. Heuzé,M. Verius,C. Unterhofer,W. Freysinger,W. Recheis
International Journal of Computer Assisted Radiology and Surgery.2016;11(12)2217
[DOI]
134Simultaneous Computer-Aided Design/Computer-Aided Manufacture Bimaxillary Orthognathic Surgery and Mandibular Reconstruction Using Selective-Laser Sintered Titanium Implant
Muhanad M. Hatamleh,Gurprit Bhamrah,Francine Ryba,Gavin Mack,Chrisopher Huppa
Journal of Craniofacial Surgery.2016;27(7)1810
[DOI]
135Biomechanical Assessment of Design Parameters on a Self-Developed 3D-Printed Titanium-Alloy Reconstruction/Prosthetic Implant for Mandibular Segmental Osteotomy Defect
Sheng-Ni Huang,Ming-You Shie,Yen-Wen Shen,Jui-Ting Hsu,Heng-Li Huang,Lih-Jyh Fuh
Metals.2019;9(5)597
[DOI]
136Reconstruction of Complex Zygomatic Bone Defects Using Mirroring Coupled with EBM Fabrication of Titanium Implant
Khaja Moiduddin,Syed Hammad Mian,Usama Umer,Naveed Ahmed,Hisham Alkhalefah,Wadea Ameen
Metals.2019;9(12)1250
[DOI]
137Virtual Surgical Planning in Craniofacial Surgery
Lindsey N. Teal,Kristopher M. Day
Journal of Craniofacial Surgery.2019;30(8)2459
[DOI]
138Simplifying Facial Feminization Surgery Using Virtual Modeling on the Female Skull
Han Hoang,Anthony A. Bertrand,Allison C. Hu,Justine C. Lee
Plastic and Reconstructive Surgery - Global Open.2020;8(3)e2618
[DOI]
139Simplifying Facial Feminization Surgery Using Virtual Modeling on the Female Skull
Mina D. Fahmy,Brinda Shah,Jasmine Faldu,Tarek El-Bialy,Hossein E. Jazayeri,Lobat Tayebi
Plastic and Reconstructive Surgery - Global Open.2017;8(3)445
[DOI]
140Treatment Options for Exposed Calvarium Due to Trauma and Burns
Samuel Golpanian,Wrood Kassira,Mutaz B. Habal,Seth R. Thaller
Journal of Craniofacial Surgery.2017;28(2)318
[DOI]
141Influence of CT parameters on STL model accuracy
Maureen van Eijnatten,Ferco Henricus Berger,Pim de Graaf,Juha Koivisto,Tymour Forouzanfar,Jan Wolff
Rapid Prototyping Journal.2017;23(4)678
[DOI]
1423D printing of polyether-ether-ketone for biomedical applications
Sunpreet Singh,Chander Prakash,Seeram Ramakrishna
European Polymer Journal.2019;114(4)234
[DOI]
1433D printing from diagnostic images: a radiologist’s primer with an emphasis on musculoskeletal imaging—putting the 3D printing of pathology into the hands of every physician
Tamir Friedman,Mark Michalski,T. Rob Goodman,J. Elliott Brown
Skeletal Radiology.2016;45(3)307
[DOI]
144A technique for evaluating bone ingrowth into 3D printed, porous Ti6Al4V implants accurately using X-ray micro-computed tomography and histomorphometry
Anders Palmquist,Furqan A. Shah,Lena Emanuelsson,Omar Omar,Felicia Suska
Micron.2017;94(3)1
[DOI]
145Implementation of Computer-Assisted Design, Analysis, and Additive Manufactured Customized Mandibular Implants
Khaja Moiduddin
Journal of Medical and Biological Engineering.2018;38(5)744
[DOI]
146Fabrication and Analysis of a Ti6Al4V Implant for Cranial Restoration
Khaja Moiduddin,Syed Hammad Mian,Usama Umer,Hisham Alkhalefah
Applied Sciences.2019;9(12)2513
[DOI]
147Three Dimensional Osteometric Analysis of Mandibular Symmetry and Morphological Consistency in Cats
Peter Southerden,Richard M. Haydock,Duncan M. Barnes
Frontiers in Veterinary Science.2018;5(12)2513
[DOI]
148Individualized Physical 3-dimensional Kidney Tumor Models Constructed From 3-dimensional Printers Result in Improved Trainee Anatomic Understanding
Margaret Knoedler,Allison H. Feibus,Andrew Lange,Michael M. Maddox,Elisa Ledet,Raju Thomas,Jonathan L. Silberstein
Urology.2015;85(6)1257
[DOI]
149Three-dimensional printing of patient-specific surgical plates in head and neck reconstruction: A prospective pilot study
Wei-fa Yang,Wing Shan Choi,Yiu Yan Leung,Justin Paul Curtin,Ruxu Du,Chun-yu Zhang,Xian-shuai Chen,Yu-xiong Su
Oral Oncology.2018;78(6)31
[DOI]
150Multi and mixed 3D-printing of graphene-hydroxyapatite hybrid materials for complex tissue engineering
Adam E. Jakus,Ramille. N. Shah
Journal of Biomedical Materials Research Part A.2017;105(1)274
[DOI]
151Virtual surgical planning and 3D printing in repeat calvarial vault reconstruction for craniosynostosis: technical note
Melissa LoPresti,Bradley Daniels,Edward P. Buchanan,Laura Monson,Sandi Lam
Journal of Neurosurgery: Pediatrics.2017;19(4)490
[DOI]
152DESIGN OF A MAXILLOFACIAL PROSTHESIS BASED ON TOPOLOGY OPTIMIZATION
NING DAI,JIAN-FENG ZHU,MIN ZHANG,LING-YIN MENG,XIAO-LING YU,YI-HUA ZHANG,BING-YAO LIU,SEN-LIN ZHANG
Journal of Mechanics in Medicine and Biology.2018;18(03)1850024
[DOI]
153DESIGN OF A MAXILLOFACIAL PROSTHESIS BASED ON TOPOLOGY OPTIMIZATION
Raja Sawhney,David Chan,Yadranko Ducic
Journal of Mechanics in Medicine and Biology.2020;18(03)93
[DOI]
154The Use of a Three-Dimensional Printed Model for Surgical Excision of a Vascular Lesion in the Head and Neck
Marek A. Paul,Jakub Opyrchal,Jan Witowski,Ahmed M.S. Ibrahim,Michal Knakiewicz,Pawel Jaremków
Journal of Craniofacial Surgery.2019;30(6)e566
[DOI]
155Advancing the field of 3D biomaterial printing
Adam E Jakus,Alexandra L Rutz,Ramille N Shah
Biomedical Materials.2016;11(1)014102
[DOI]
156Mechanical characterization of structurally porous biomaterials built via additive manufacturing: experiments, predictive models, and design maps for load-bearing bone replacement implants
D. Melancon,Z.S. Bagheri,R.B. Johnston,L. Liu,M. Tanzer,D. Pasini
Acta Biomaterialia.2017;63(1)350
[DOI]
157Titanium surface modifications and their soft-tissue interface on nonkeratinized soft tissues—A systematic review (Review)
Brandaan G. R. Zigterman,Casper Van den Borre,Annabel Braem,Maurice Y. Mommaerts
Biointerphases.2019;14(4)040802
[DOI]
158Topological design and additive manufacturing of porous metals for bone scaffolds and orthopaedic implants: A review
Xiaojian Wang,Shanqing Xu,Shiwei Zhou,Wei Xu,Martin Leary,Peter Choong,M. Qian,Milan Brandt,Yi Min Xie
Biomaterials.2016;83(4)127
[DOI]
159Standardized Protocol for Virtual Surgical Plan and 3-Dimensional Surgical Template–Assisted Single-Stage Mandible Contour Surgery
Xi Fu,Jia Qiao,Sabine Girod,Feng Niu,Jian feng Liu,Gordon K. Lee,Lai Gui
Annals of Plastic Surgery.2017;79(3)236
[DOI]
160The role of virtual and augmented reality in orthopedic trauma surgery: From diagnosis to rehabilitation
José Negrillo-Cárdenas,Juan-Roberto Jiménez-Pérez,Francisco R. Feito
Computer Methods and Programs in Biomedicine.2020;191(3)105407
[DOI]
161Novel Osteogenic Ti-6Al-4V Device For Restoration Of Dental Function In Patients With Large Bone Deficiencies: Design, Development And Implementation
D. J. Cohen,A. Cheng,A. Kahn,M. Aviram,A. J. Whitehead,S. L. Hyzy,R. M. Clohessy,B. D. Boyan,Z. Schwartz
Scientific Reports.2016;6(1)105407
[DOI]
162An improved process for the fabrication and surface treatment of custom-made titanium cranioplasty implants informed by surface analysis
Milovan Joe Cardona,Catherine Turner,Calum Ross,Elaine Baird,Richard Anthony Black
Journal of Biomaterials Applications.2020;6(1)088532822095789
[DOI]
163Application of Customized Navigated Template for Percutaneous Radiofrequency Thermocoagulation Treatment of Primary Trigeminal Neuralgia
Peng Wang,Tiebao Gu,Zefeng Zhang,Huiqun Wu,Dafeng Ji
Chinese Medicine.2015;06(03)175
[DOI]
164Comparative assessment of anatomical details of thoracic limb bones of a horse to that of models produced via scanning and 3D printing
Daniela de Alcântara Leite dos Reis,Beatriz Laura Rojas Gouveia,José Carlos Rosa Júnior,Antônio Chaves de Assis Neto
3D Printing in Medicine.2019;5(1)175
[DOI]
  Feedback 
  Subscribe 

Subscribe this journal
Submit articles
Most popular articles
Joiu us as a reviewer
Email alerts
Recommend this journal
Facebook Icon