Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Materials Sciences and Applications

Materials Sciences and Applications

Materials Sciences and Applications

ISSN Print: 2153-117X
ISSN Online: 2153-1188
www.scirp.org/journal/msa
E-mail: msa@scirp.org
"3D Printed Scaffolds as a New Perspective for Bone Tissue Regeneration: Literature Review"
written by Raquel Couto de Azevedo Gonçalves Mota, Emerson Oliveira da Silva, Felipe Fortes de Lima, Lívia Rodrigues de Menezes, Antonio Carlos Santos Thiele,
published by Materials Sciences and Applications, Vol.7 No.8, 2016
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] An Overview of Collagen-Based Composite Scaffold for Bone Tissue Engineering
Applied Biochemistry …, 2023
[2] Application of fused deposition modeling (FDM) on bone scaffold manufacturing process: A review
Heliyon, 2022
[3] In vitro characterization of a biocompatible composite based on poly (3-hydroxybutyrate)/hydroxyapatite nanoparticles as a potential scaffold for tissue engineering
Journal of the …, 2022
[4] A Comprehensive Review of Biopolymer Fabrication in Additive Manufacturing Processing for 3D-Tissue-Engineering Scaffolds
Polymers, 2022
[5] 3D printed bio polymeric materials as a new perspective for wound dressing and skin tissue engineering applications: a review
Journal of Polymer …, 2022
[6] Additive Manufacturing and Removal of Biomaterials
Ultrafast Imaging and Spectroscopy for Biomedicine, 2022
[7] 조직공학에서의 3D 바이오프린팅 기술의 잠재력
Polymer (Korea), 2022
[8] A review of various materials for additive manufacturing: Recent trends and processing issues
Journal of Materials …, 2022
[9] Development of Multifunctional Hybrid Scaffolds for Massive Bone Defects Filling and Regeneration
2021
[10] Evaluación de Parámetros en Andamios de PLA y PCL a ser Utilizados en Tejidos Cartilaginosos
Mexican Journal of …, 2021
[11] Mesenchymal Stem Cells, Bioactive Factors, and Scaffolds in Bone Repair: From Research Perspectives to Clinical Practice. Cells 2021, 10, 1925
2021
[12] 3D Bioprinting for Tissue Engineering Application
2021
[13] Evaluation of Parameters in PLA and PCL Scaffolds to be Used in Cartilaginous Tissues
Revista mexicana de …, 2021
[14] Influence of the printing parameters on the properties of Poly (lactic acid) scaffolds obtained by fused deposition modeling 3D printing
Polymers and …, 2021
[15] Biomimetic Design of 3D Printed Tissue-Engineered Bone Constructs
2021
[16] A comparison of the degradation behaviour of 3D printed PDLGA scaffolds incorporating bioglass or biosilica
2021
[17] Preparation and biological assessment of a ZrO2-based bone scaffold coated with hydroxyapatite and bioactive glass composite
2021
[18] Fabrication of a bio-instructive scaffold conferred with a favorable microenvironment allowing for superior implant osseointegration and accelerated in situ …
2021
[19] 3D Bioprinting for Tissue Engineering Application Review
2021
[20] Osteogenic differentiation of adipose-derived mesenchymal stem cells using 3D-Printed PDLLA/β-TCP nanocomposite scaffolds
2021
[21] Influence of Materials Properties on Bio-Physical Features and Effectiveness of 3D-Scaffolds for Periodontal Regeneration
2021
[22] Mesenchymal Stem Cells, Bioactive Factors, and Scaffolds in Bone Repair: From Research Perspectives to Clinical Practice
2021
[23] A deep insight into the preparation of ceramic bone scaffolds utilizing robocasting technique
Ceramics …, 2021
[24] Caracterização da esponja de água doce (Metania reticulata) para uso como arcabouço de engenharia tecidual
2020
[25] Biopolymeric nanocomposite scaffolds for bone tissue engineering applications–A review
2020
[26] Revisión sistemática de la literatura sobre el uso de la Mimosa tenuiflora en tratamientos para la regeneración celular de tejidos
Dissertation, 2020
[27] Trends in 3D Printing Processes for Biomedical Field: Opportunities and Challenges
2020
[28] 4D printing additive manufacturing review; Mechanisim, Chalanges, Applications and Future
2020
[29] An insight into cell-laden 3D-printed constructs for bone tissue engineering
2020
[30] Apatite mineralization process from Silicocarnotite bioceramics: Mechanism of crystal growth and maturation
2020
[31] Design Strategy of Three-dimensional Printed Cages to Reduce Impact-induced Debris along the Load-transferring Path
2020
[32] Review on current limits and potentialities of technologies for biomedical ceramic scaffolds production
2020
[33] In situ mineralization of nano-hydroxyapatite on bifunctional cellulose nanofiber/polyvinyl alcohol/sodium alginate hydrogel using 3D printing
2020
[34] Bone Tissue Engineering via Carbon‐Based Nanomaterials
2020
[35] 3D printed tissue and organ using additive manufacturing: An overview
2019
[36] Additive manufacturing of polymer composites: Processing and modeling approaches
2019
[37] Novel design of low modulus high strength zirconia scaffolds for biomedical applications
2019
[38] Engineering human-scale artificial bone grafts for treating critical-size bone defects
2019
[39] 3D printing applications in bone tissue engineering
2019
[40] MINISTÉRIO DA DEFESA EXÉRCITO BRASILEIRO DEPARTAMENTO DE CIÊNCIA E TECNOLOGIA INSTITUTO MILITAR DE ENGENHARIA CURSO DE …
2019
[41] Additive manufacturing: fundamentals and advancements
2019
[42] 骨修复材料的研究现状与进展
Chinese Journal of Reparative and …, 2018
[43] Research status and progress of biomaterials for bone repair and reconstruction
Zhongguo xiu fu Chong Jian wai ke za zhi …, 2018
[44] Desarrollo de materiales biocompatibles, biodegradables y bioactivos para su aplicación en impresión FDM (modelado por deposición fundida) de implantes para …
Dissertation, 2018
[45] Bacterial cellulose-based scaffold materials for bone tissue engineering
Applied Materials Today, 2018
[46] New generation of bioreactors that advance extracellular matrix modelling and tissue engineering
Biotechnology Letters, 2018
[47] 3D Bioprinting Technologies for Tissue Engineering Applications
Cutting-Edge Enabling Technologies for Regenerative Medicine, 2018
[48] Applied Materials Today
2018
[49] Vascularized 3D printed scaffolds for promoting bone regeneration
Biomaterials, 2018
[50] Polymer Nanocomposites Used as Scaffolds for Bone Tissue Regeneration
2018
[51] Posgrado en Materiales Poliméricos
2018
[52] Fabrication Methodologies of Biomimetic and Bioactive Scaffolds for Tissue Engineering Applications
Scaffolds In Tissue Engineering Materials Technologies And Clinical Applications, 2017
[53] Additive manufacturing: Scientific and technological challenges, market uptake and opportunities
Materials Today, 2017
[54] Porosity distribution affecting mechanical and biological behaviour of hydroxyapatite bioceramic composites
Ceramics International, 2017
[55] Transionospheric Microwave Propagation: Higher-Order Effects up to 100 GHz
2017
[56] Chapter Fabrication Methodologies of Biomimetic and Bioactive Scaffolds for Tissue Engineering Applications
2017
[57] Trabajo Fin de Máster
2016
[58] ESTUDO DE EMPILHAMENTO DE CAMADAS POR IMPRESSÃO 3D DE DEPOSIÇÃO DIRETA E EVAPORAÇÃO DE SOLVENTE
ACS Thiele
Follow SCIRP
Twitter Facebook Linkedin Weibo
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat
Free SCIRP Newsletters
Copyright © 2006-2024 Scientific Research Publishing Inc. All Rights Reserved.
Top