3D printed biomedical devices and their applications: A review on state-of-the-art technologies, existing challenges, and future perspectives.

[1]  Avinash Kumar,et al.  Towards a Secure and Sustainable Internet of Medical Things (IoMT): Requirements, Design Challenges, Security Techniques, and Future Trends , 2023, Sustainability.

[2]  B. Shanmugam,et al.  Risk Assessment of Heterogeneous IoMT Devices: A Review , 2023, Technologies.

[3]  C. Alvarez‐Lorenzo,et al.  Simultaneous fabrication of multiple tablets within seconds using tomographic volumetric 3D printing , 2023, International journal of pharmaceutics: X.

[4]  A. Chowdhury,et al.  Biomechanical analysis of the novel S-type dynamic cage by implementation of teaching learning based optimization algorithm - An experimental and finite element study. , 2023, Medical Engineering and Physics.

[5]  Carlos Ezio Garciamendez-Mijares,et al.  Volumetric additive manufacturing of pristine silk-based (bio)inks , 2023, Nature Communications.

[6]  M. Arena,et al.  Design and Qualification of an Additively Manufactured Manifold for Aircraft Landing Gears Applications , 2023, Aerospace.

[7]  Tao Liu,et al.  Additive manufacturing of WC-Co cemented carbides: process, microstructure, and mechanical properties , 2023, Additive Manufacturing.

[8]  G. Wang,et al.  Review of transfer learning in modeling additive manufacturing processes , 2023, Additive Manufacturing.

[9]  E. Toyserkani,et al.  Development of a Novel Tape-Casting Multi-Slurry 3D Printing Technology to Fabricate the Ceramic/Metal Part , 2023, Materials.

[10]  B. Al-Nawas,et al.  Steam-sterilized and degradable fused filament fabrication-printed polylactide/polyhydroxyalkanoate surgical guides for dental implants: Are they accurate enough for static navigation? , 2022, International Journal of Bioprinting.

[11]  J. Shibli,et al.  Performance of Polydioxanone-Based Membrane in Association with 3D-Printed Bioceramic Scaffolds in Bone Regeneration , 2022, Polymers.

[12]  A. Scorilas,et al.  Artificial Intelligence: The Milestone in Modern Biomedical Research , 2022, BioMedInformatics.

[13]  Lei Wu,et al.  3D printing: Innovative solutions for patients and pharmaceutical industry. , 2022, International journal of pharmaceutics.

[14]  O. Lee,et al.  Three-Dimensional Digital Light-Processing Bioprinting Using Silk Fibroin-Based Bio-Ink: Recent Advancements in Biomedical Applications , 2022, Biomedicines.

[15]  H. Miyanaji,et al.  Impact of Binder on Part Densification: Enhancing Binder Jetting Part Properties through the Fabrication of Shelled Geometries , 2022, Additive Manufacturing.

[16]  Feifei Yang,et al.  A review of aging, degradation, and reusability of PA12 powders in selective laser sintering additive manufacturing , 2022, Materials Today Communications.

[17]  Y. Guan,et al.  Review: Application of metal additive manufacturing in oral dentistry , 2022, Current Opinion in Biomedical Engineering.

[18]  Dongzhou Kang,et al.  The Application and Challenge of Binder Jet 3D Printing Technology in Pharmaceutical Manufacturing , 2022, Pharmaceutics.

[19]  N. Harrison,et al.  X-Ray Diffraction Measurements and Computational Prediction of Residual Stress Mitigation Scanning Strategies in Powder Bed Fusion Additive Manufacturing , 2022, SSRN Electronic Journal.

[20]  Weiwei Liu,et al.  High-performance integrated manufacturing of a 3Y-TZP ceramic crown through viscoelastic paste-based vat photopolymerization with a conformal contactless support , 2022, Additive Manufacturing.

[21]  Ayyaz Mahmood,et al.  On the Evolution of Additive Manufacturing (3D/4D Printing) Technologies: Materials, Applications, and Challenges , 2022, Polymers.

[22]  D. Therriault,et al.  Additive manufacturing and characterization of high temperature thermoplastic blends for potential aerospace applications , 2022, Composites Science and Technology.

[23]  Kai Zhang,et al.  Advancing medical device regulatory reforms for innovation, translation and industry development in China , 2022, Journal of orthopaedic translation.

[24]  Yicong Li,et al.  Preparation of High-porosity Biomass-based Carbon Electrodes by Selective Laser Sintering , 2022, Materials Letters.

[25]  M. Javaid,et al.  Internet of Things in the global healthcare sector: Significance, applications, and barriers , 2022, International Journal of Intelligent Networks.

[26]  Jun Yin,et al.  Digital light processing (DLP) in tissue engineering: from promise to reality, and perspectives , 2022, Biomedical materials.

[27]  Liu Zi,et al.  Application of Three-Dimensional (3D) Printing in Neurosurgery , 2022, Advances in Materials Science and Engineering.

[28]  Mengna Liu,et al.  Microstructure and mechanical properties of AlSi10Mg alloy built by laser powder bed fusion/direct energy deposition hybrid laser additive manufacturing , 2022, Additive Manufacturing.

[29]  J. Rantanen,et al.  Structured approach for designing drug-loaded solid products by binder jetting 3D printing. , 2022, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[30]  F. Mazzanti,et al.  Additive manufacturing by digital light processing: a review , 2022, Progress in Additive Manufacturing.

[31]  D. Karagiannis,et al.  Development of a Low-Power IoMT Portable Pillbox for Medication Adherence Improvement and Remote Treatment Adjustment , 2022, Sensors.

[32]  P. Zhang,et al.  Effect of Polycaprolactone Impregnation on the Properties of Calcium Silicate Scaffolds Fabricated by 3d Printing , 2022, SSRN Electronic Journal.

[33]  L. Valandro,et al.  Thickness and internal adjustment of monolithic resin composite milled crowns: Effect on the load-bearing capacity under fatigue. , 2022, Journal of the mechanical behavior of biomedical materials.

[34]  N. Ye,et al.  Mechanical properties analysis of medical endodontic instruments based on parameterization. , 2022, Journal of The Mechanical Behavior of Biomedical Materials.

[35]  P. Bártolo,et al.  3D printed scaffold design for bone defects with improved mechanical and biological properties. , 2022, Journal of the mechanical behavior of biomedical materials.

[36]  S. P. Thipperudraswamy,et al.  Artificial Intelligence (AI) and Internet of Medical Things (IoMT) Assisted Biomedical Systems for Intelligent Healthcare , 2022, Biosensors.

[37]  Yuchun Sun,et al.  Accuracy of a chairside, fused deposition modeling three-dimensional-printed, single tooth surgical guide for implant placement: A randomized controlled clinical trial. , 2022, Clinical oral implants research.

[38]  Suresh Ponnan,et al.  AI based realtime task schedulers for multicore processor based low power biomedical devices for health care application , 2022, Multimedia tools and applications.

[39]  M. Repka,et al.  Fabrication of a Shell-Core Fixed-Dose Combination Tablet Using Fused Deposition Modeling 3D Printing. , 2022, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[40]  B. Belaton,et al.  IoT Adoption and Application for Smart Healthcare: A Systematic Review , 2022, Sensors.

[41]  H. Lemu,et al.  Experimental Investigation and Prediction of Mechanical Properties in a Fused Deposition Modeling Process , 2022, Crystals.

[42]  H. Butt,et al.  3D printed polymer composite optical fiber for sensing applications , 2022, Additive Manufacturing.

[43]  P. Belton,et al.  An investigation into the effects of geometric scaling and pore structure on drug dose and release of 3D printed solid dosage forms. , 2022, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[44]  A. D. Tura,et al.  Characterization and parametric optimization of additive manufacturing process for enhancing mechanical properties , 2022, Heliyon.

[45]  R. Suman,et al.  Significance of machine learning in healthcare: Features, pillars and applications , 2022, Int. J. Intell. Networks.

[46]  Haowen Liang,et al.  Digital light processing (DLP) of nano biphasic calcium phosphate bioceramic for making bone tissue engineering scaffolds , 2022, Ceramics International.

[47]  Robert G. Thompson,et al.  Laser Sintering Approaches for Bone Tissue Engineering , 2022, Polymers.

[48]  Furqan A. Shah,et al.  Complex geometry and integrated macro-porosity: Clinical applications of electron beam melting to fabricate bespoke bone-anchored implants. , 2022, Acta biomaterialia.

[49]  Pedro Cabalar,et al.  Accelerating 3D printing of pharmaceutical products using machine learning , 2022, International journal of pharmaceutics: X.

[50]  Yeong-Jin Choi,et al.  Effect of porosity and phase composition in 3D printed calcium phosphate scaffolds on bone tissue regeneration in vivo , 2022, Materials & Design.

[51]  Md Irfanul Haque Siddiqui,et al.  Additive manufacturing technologies: industrial and medical applications , 2022, Sustainable Operations and Computers.

[52]  S. Biamino,et al.  In-situ alloying of a fine grained fully equiaxed Ti-based alloy via Electron Beam Powder Bed Fusion Additive Manufacturing process , 2022, Additive Manufacturing.

[53]  Liming Shu,et al.  Clinical applications and prospects of 3D printing guide templates in orthopaedics , 2022, Journal of orthopaedic translation.

[54]  C. Pirri,et al.  Current and emerging trends in polymeric 3D printed microfluidic devices , 2022, Additive Manufacturing.

[55]  G. Ciardelli,et al.  Use of Polyesters in Fused Deposition Modeling for Biomedical Applications. , 2022, Macromolecular Bioscience.

[56]  K. Chaudhary,et al.  A review on polyjet 3D printing of polymers and multi-material structures , 2022, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.

[57]  Kwang-Hee Lee,et al.  Self-Loosening of a 3D-Printed Bolt by Using Three Different Materials under Cyclical Temperature Changes , 2022, Applied Sciences.

[58]  A. Procházka,et al.  3D stereolithography print (SLA) in clinical orthodontic and dental applications , 2022, BiOS.

[59]  Sarah J Trenfield,et al.  Prediction of Solid-State Form of SLS 3D Printed Medicines Using NIR and Raman Spectroscopy , 2022, Pharmaceutics.

[60]  P. Kulinowski,et al.  Development of Composite, Reinforced, Highly Drug-Loaded Pharmaceutical Printlets Manufactured by Selective Laser Sintering—In Search of Relevant Excipients for Pharmaceutical 3D Printing , 2022, Materials.

[61]  Craig M. Hamel,et al.  A reaction-diffusion model for grayscale digital light processing 3D printing , 2022, Extreme Mechanics Letters.

[62]  Simon S. Park,et al.  Optimized 3D Bioprinting Technology Based on Machine Learning: A Review of Recent Trends and Advances , 2022, Micromachines.

[63]  A. Mitropoulos,et al.  Cost Profile of 3D Printing Using Biomaterials on a Lab Scale , 2022, Biointerface Research in Applied Chemistry.

[64]  D. Lamprou,et al.  Stereolithography 3D Printed Implants: a Preliminary Investigation as Potential Local Drug Delivery Systems to the Ear. , 2022, International journal of pharmaceutics.

[65]  M. Tarfaoui,et al.  COVID-19: Current challenges regarding medical healthcare supplies and their implications on the global additive manufacturing industry , 2022, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[66]  P. Arany,et al.  Virtual Planning and Rapid 3D Prototyping Surgical Guide for Anterior Crown Lengthening Surgery: A Clinical Case Report. , 2021, Journal of Prosthodontics.

[67]  D. Mehrotra,et al.  Potential of Internet of Medical Things (IoMT) applications in building a smart healthcare system: A systematic review , 2021, Journal of Oral Biology and Craniofacial Research.

[68]  Sreenivasulu Reddy Mogali,et al.  Machine learning for 3D printed multi-materials tissue-mimicking anatomical models , 2021, Materials & Design.

[69]  H. Lemu,et al.  Overview study on challenges of additive manufacturing for a healthcare application , 2021, IOP Conference Series: Materials Science and Engineering.

[70]  Ray Tahir Mushtaq,et al.  Additive manufacturing is sustainable technology: citespace based bibliometric investigations of fused deposition modeling approach , 2021, Rapid Prototyping Journal.

[71]  D. Barh,et al.  Fused deposition modelling: Current status, methodology, applications and future prospects , 2021, Additive Manufacturing.

[72]  Yanen Wang,et al.  A review on the performance characteristics, applications, challenges and possible solutions in electron beam melted Ti-based orthopaedic and orthodontic implants , 2021, Rapid Prototyping Journal.

[73]  Daniel A. Davis,et al.  Selective Laser Sintering of a Photosensitive Drug: Impact of Processing and Formulation Parameters on Degradation, Solid State, and Quality of 3D-Printed Dosage Forms. , 2021, Molecular pharmaceutics.

[74]  Yun Chang Lee,et al.  Binder Jetting of Custom Silicone Powder for Direct Three-Dimensional Printing of Maxillofacial Prostheses. , 2021, 3D printing and additive manufacturing.

[75]  Mohammad Ayoub Khan,et al.  An Intrusion Detection Mechanism for Secured IoMT Framework Based on Swarm-Neural Network , 2021, IEEE Journal of Biomedical and Health Informatics.

[76]  Nastaran Hajiheydari,et al.  Scepticism and resistance to IoMT in healthcare: Application of behavioural reasoning theory with configurational perspective , 2021 .

[77]  Jia‐Min Wu,et al.  Preparation and characterization of ZrO2-Al2O3 bioceramics by stereolithography technology for dental restorations , 2021, Additive Manufacturing.

[78]  C. Borzan,et al.  Selective Laser Sintering of PA 2200 for Hip Implant Applications: Finite Element Analysis, Process Optimization, Morphological and Mechanical Characterization , 2021, Materials.

[79]  Jörg Lüchtenborg,et al.  Implementation of Fused Filament Fabrication in Dentistry , 2021, Applied Sciences.

[80]  A. Basit,et al.  Disrupting 3D printing of medicines with machine learning. , 2021, Trends in pharmacological sciences.

[81]  Ola Harrysson,et al.  Resource planning for direct fabrication of customized orthopedic implants using EBM technology , 2021, Journal of Manufacturing Systems.

[82]  C. Persson,et al.  The Potential of Stereolithography for 3D Printing of Synthetic Trabecular Bone Structures , 2021, Materials.

[83]  B. Grigolo,et al.  Cartilage Tissue Engineering by Extrusion Bioprinting: Process Analysis, Risk Evaluation, and Mitigation Strategies , 2021, Materials.

[84]  Montry S Suprono,et al.  Enhancement of peripheral seal of medical face masks using a 3-dimensional–printed custom frame , 2021, The Journal of the American Dental Association.

[85]  A. Basit,et al.  Advances in powder bed fusion 3D printing in drug delivery and healthcare. , 2021, Advanced drug delivery reviews.

[86]  M. Peak,et al.  Controlling drug release with additive manufacturing-based solutions. , 2021, Advanced drug delivery reviews.

[87]  Bikash K. Pradhan,et al.  IoT-Based Applications in Healthcare Devices , 2021, Journal of healthcare engineering.

[88]  Mohd Javaid,et al.  Exploring the significant applications of Internet of Things (IoT) with 3D printing using advanced materials in medical field , 2021 .

[89]  M. Reymus,et al.  Influence of 3D- printing method, resin material, and sterilization on the accuracy of virtually designed surgical implant guides. , 2021, The Journal of prosthetic dentistry (Print).

[90]  M. Salmi Additive Manufacturing Processes in Medical Applications , 2021, Materials.

[91]  J. Franke,et al.  Generic design of an anatomical heart model optimized for additive manufacturing with silicone , 2020 .

[92]  S. Catros,et al.  Correction to: 3D printed bone models in oral and craniomaxillofacial surgery: a systematic review , 2020, 3D Printing in Medicine.

[93]  Lin Li,et al.  Additive manufacturing of hybrid metal/polymer objects via multiple-material laser powder bed fusion , 2020 .

[94]  K. Pochiraju,et al.  Moisture Ingress and Degradation of Additively Manufactured PLA, ABS and PLA/SiC Composite Parts , 2020 .

[95]  S. Giliani,et al.  Selective Laser Melting and Electron Beam Melting of Ti6Al4V for Orthopedic Applications: A Comparative Study on the Applied Building Direction , 2020, Materials.

[96]  T. D. Subash,et al.  Enhancement of remote monitoring implantable system for diagnosing using IoMT , 2020 .

[97]  J. Njuguna,et al.  3D Printing for Hip Implant Applications: A Review , 2020, Polymers.

[98]  Michael C. McAlpine,et al.  3D-printed multifunctional materials enabled by artificial-intelligence-assisted fabrication technologies , 2020, Nature Reviews Materials.

[99]  Pamela Robles Martinez,et al.  Vat photopolymerization 3D printing for advanced drug delivery and medical device applications. , 2020, Journal of controlled release : official journal of the Controlled Release Society.

[100]  C. Kenel,et al.  3D ink-extrusion printing and sintering of Ti, Ti-TiB and Ti-TiC microlattices , 2020 .

[101]  A. Sayem,et al.  3D printing technology for textiles and fashion , 2020, Textile Progress.

[102]  Ming Yan,et al.  Immunological response triggered by metallic 3D printing powders , 2020 .

[103]  A. Brillowska-Dąbrowska,et al.  Processing of Polyester-Urethane Filament and Characterization of FFF 3D Printed Elastic Porous Structures with Potential in Cancellous Bone Tissue Engineering , 2020, Materials.

[104]  Andrea Gazzaniga,et al.  Quality considerations on the pharmaceutical applications of fused deposition modeling 3D printing. , 2020, International journal of pharmaceutics.

[105]  S. Heo,et al.  Flexural Strength of 3D-Printing Resin Materials for Provisional Fixed Dental Prostheses , 2020, Materials.

[106]  T. Kniesner,et al.  The forgotten numbers: A closer look at COVID-19 non-fatal valuations , 2020, Journal of Risk and Uncertainty.

[107]  V. Barão,et al.  3D metal printing in dentistry: An in vitro biomechanical comparative study of two additive manufacturing technologies for full-arch implant-supported prostheses. , 2020, Journal of the mechanical behavior of biomedical materials.

[108]  Eduardo Cuesta,et al.  Analysis of Modern Optical Inspection Systems for Parts Manufactured by Selective Laser Melting , 2020, Sensors.

[109]  I. Buj-Corral,et al.  Development of AM Technologies for Metals in the Sector of Medical Implants , 2020 .

[110]  A. Buchmeier US Food and Drug Administration Clinical Investigator Inspections. , 2020, Seminars in Oncology Nursing.

[111]  Joyce Lau Chui Fern,et al.  3D printing for oral drug delivery: a new tool to customize drug delivery , 2020, Drug Delivery and Translational Research.

[112]  D. StJohn,et al.  Metal injection moulding of surgical tools, biomaterials and medical devices: A review , 2020 .

[113]  R. Jegan,et al.  Internet of Medical Things (IoMT) - An overview , 2020, 2020 5th International Conference on Devices, Circuits and Systems (ICDCS).

[114]  J. Bai,et al.  A study on Mg wires/poly-lactic acid composite degradation under dynamic compression and bending load for implant applications. , 2020, Journal of the mechanical behavior of biomedical materials.

[115]  Fadi Al-Turjman,et al.  Intelligence in the Internet of Medical Things era: A systematic review of current and future trends , 2020, Comput. Commun..

[116]  Andreas Schwitalla,et al.  Parameters Influencing the Outcome of Additive Manufacturing of Tiny Medical Devices Based on PEEK , 2020, Materials.

[117]  A Tejo-Otero,et al.  3D Printing in Medicine for Preoperative Surgical Planning: A Review , 2019, Annals of Biomedical Engineering.

[118]  Byungjeong Lee,et al.  Building a Rule-Based Goal-Model from the IEC 62304 Standard for Medical Device Software , 2019, KSII Trans. Internet Inf. Syst..

[119]  L. Tang,et al.  China National Medical Products Administration approval summary: anlotinib for the treatment of advanced non-small cell lung cancer after two lines of chemotherapy , 2019, Cancer communications.

[120]  Michael Müller,et al.  Accuracy of patient-specific implants and additive-manufactured surgical splints in orthognathic surgery - A three-dimensional retrospective study. , 2019, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[121]  C. Culmone,et al.  Additive manufacturing of medical instruments: A state-of-the-art review , 2019, Additive Manufacturing.

[122]  S. H. Mian,et al.  Additive manufacturing: Challenges, trends, and applications , 2019, Advances in Mechanical Engineering.

[123]  A. Kemper,et al.  Effects of postmortem time and storage fluid on the material properties of bovine liver parenchyma in tension. , 2018, Journal of the mechanical behavior of biomedical materials.

[124]  A. Abdolmaleki,et al.  Thermo-chemical modification of a natural biomembrane to induce mucoadhesion, pH sensitivity and anisotropic mechanical properties. , 2018, Journal of the mechanical behavior of biomedical materials.

[125]  Christopher J. Sutcliffe,et al.  Pilot capability evaluation of a feedback electronic imaging system prototype for in-process monitoring in electron beam additive manufacturing , 2018, The International Journal of Advanced Manufacturing Technology.

[126]  Gilbert Regan,et al.  A Software Process Improvement Roadmap for IEC 62304: An Expert Review , 2018, EuroSPI.

[127]  G. V. Van Norman Expanded Patient Access to Investigational New Devices , 2018, JACC. Basic to translational science.

[128]  Alex Attridge,et al.  Computed tomography metrological examination of additive manufactured acetabular hip prosthesis cups , 2018, Additive Manufacturing.

[129]  Chaofang Dong,et al.  Bio-functional and anti-corrosive 3D printing 316L stainless steel fabricated by selective laser melting , 2018, Materials & Design.

[130]  Tommaso Ghidini,et al.  Regenerative medicine and 3D bioprinting for human space exploration and planet colonisation. , 2018, Journal of thoracic disease.

[131]  Dongxu Ke,et al.  Additive manufacturing of biomaterials. , 2018, Progress in materials science.

[132]  Cuie Wen,et al.  Anisotropic Ti-6Al-4V gyroid scaffolds manufactured by electron beam melting (EBM) for bone implant applications , 2018 .

[133]  Abdulrahman Al-Ahmari,et al.  Structural and mechanical characterization of custom design cranial implant created using Additive manufacturing , 2017 .

[134]  R. Löfstedt,et al.  Medicines transparency at the European Medicines Agency (EMA) in the new information age: the perspectives of patients , 2016 .

[135]  Henrique Takachi Moriya,et al.  Development of a hand- transmitted vibration measurement instrument to perform tests in medical equipment according to the international standard IEC 60601-1-2005 Ed.3 , 2016 .

[136]  Mika Salmi,et al.  Possibilities of Preoperative Medical Models Made by 3D Printing or Additive Manufacturing , 2016, Journal of medical engineering.

[137]  Charles W. Hull,et al.  The Birth of 3D Printing , 2015 .

[138]  Harri Korhonen,et al.  Preparation of poly(ε-caprolactone)-based tissue engineering scaffolds by stereolithography. , 2011, Acta biomaterialia.

[139]  V Hegde,et al.  Case study — Risk management for medical devices (based on ISO 14971) , 2011, 2011 Proceedings - Annual Reliability and Maintainability Symposium.

[140]  Jeffrey A. Cadeddu,et al.  DLP hyperspectral imaging for surgical and clinical utility , 2009, MOEMS-MEMS.

[141]  M. von Walter,et al.  Structural, mechanical and in vitro characterization of individually structured Ti-6Al-4V produced by direct laser forming. , 2006, Biomaterials.

[142]  I. Ono,et al.  Producing a full-scale model from computed tomographic data with the rapid prototyping technique using the binder jet method: a comparison with the laser lithography method using a dry skull. , 2000, The Journal of craniofacial surgery.

[143]  Larry J. Hornbeck,et al.  Digital Light Processing update: status and future applications , 1999, Electronic Imaging.

[144]  I. Fassi,et al.  Micro-texturing of molds via Stereolithography for the fabrication of medical components , 2022, Procedia CIRP.

[145]  Irene Buj-Corral,et al.  Use of FDM Technology in Healthcare Applications: Recent Advances , 2021 .

[146]  S. H. Mian,et al.  Feasibility Study of the Cranial Implant Fabricated without Supports in Electron Beam Melting , 2021 .

[147]  Jan Wolff,et al.  CT image segmentation methods for bone used in medical additive manufacturing. , 2018, Medical engineering & physics.

[148]  A. Khairuzzaman Regulatory Perspectives on 3D Printing in Pharmaceuticals , 2018 .

[149]  D. Bowen,et al.  European Medicines Agency (EMA): Regulatory Perspectives on Geriatric Medicines , 2016 .

[150]  E. Savio,et al.  Feasibility of Cryogenic Cooling in Finishing Turning of Acetabular Cups Made of Additive Manufactured Ti6Al4 V , 2016 .

[151]  Giuseppe Andreoni,et al.  Emerging Issues in Healthcare , 2014 .