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2 The recent developments in 3D bioprinting: a general bibliometric study and thematic investigation

  • Purnima Sharma , Satyajit Anand and Vikrant Sharma
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3D Printing Technologies
This chapter is in the book 3D Printing Technologies

Abstract

This chapter presents an analysis of biomaterial-based three-dimensional (3D) bioprinting technology for fabricating tissues. In this study, the advances in 3D bioprinting are analyzed bibliometrically and thematically. A literature search was carried out on the Scopus database for documents related to biomaterial-based 3D bioprinting. To conduct this study, a total of 1,053 research articles from 2012 to March 2023 were reviewed. Bibliometrix (R package) and SciMAT tools were used to conduct this review in terms of bibliometric and thematic analysis. The analysis presents results such as contributing authors and coauthors, main affiliations, leading contributing countries, main relevant sources, and major themes. The derived results provide insights into the limitations and scope of collaborative research in the area of 3D bioprinting using biomaterials. In terms of publications and citations, the top three contributing countries are the USA, China, and Canada. It appears that 3D bioprinting for tissue engineering is a growing area of exploration. This chapter also explores the role of artificial intelligence in 3D bioprinting. The present study is the first to analyze the current state evaluation of 3D bioprinting.

Abstract

This chapter presents an analysis of biomaterial-based three-dimensional (3D) bioprinting technology for fabricating tissues. In this study, the advances in 3D bioprinting are analyzed bibliometrically and thematically. A literature search was carried out on the Scopus database for documents related to biomaterial-based 3D bioprinting. To conduct this study, a total of 1,053 research articles from 2012 to March 2023 were reviewed. Bibliometrix (R package) and SciMAT tools were used to conduct this review in terms of bibliometric and thematic analysis. The analysis presents results such as contributing authors and coauthors, main affiliations, leading contributing countries, main relevant sources, and major themes. The derived results provide insights into the limitations and scope of collaborative research in the area of 3D bioprinting using biomaterials. In terms of publications and citations, the top three contributing countries are the USA, China, and Canada. It appears that 3D bioprinting for tissue engineering is a growing area of exploration. This chapter also explores the role of artificial intelligence in 3D bioprinting. The present study is the first to analyze the current state evaluation of 3D bioprinting.

Chapters in this book

  1. Frontmatter I
  2. Acknowledgments V
  3. Preface VII
  4. Contents XI
  5. List of contributors XV
  6. 1 3D-printed antennas 1
  7. 2 The recent developments in 3D bioprinting: a general bibliometric study and thematic investigation 39
  8. 3 Additive manufacturing of compositionally complex alloys: trends, challenges, and future perspectives 61
  9. 4 Adoptability of additive manufacturing process: design perceptive 77
  10. 5 Advanced bioprinting processes using additive manufacturing technologies: revolutionizing tissue engineering 95
  11. 6 Comparative analysis of thermal characteristics and optimizing laminar flow within medical-grade 3D printers for fabrication of sterile patientspecific implants (PSIs) using computational fluid dynamics 119
  12. 7 Review of 4D printing and materials enabling Industry 4.0 for implementation in manufacturing: an Indian context 143
  13. 8 Processing of smart materials by additive manufacturing and 4D printing 181
  14. 9 A comprehensive review on effect of DMLS process parameters and post-processing on quality of product in biomedical field 197
  15. 10 Finite element method investigation on delamination of 3D printed hybrid composites during the drilling operation 223
  16. 11 Analyzing the dimensional stability in direct ink written composite ink: a machine learning approach 235
  17. 12 Recent applications of rapid prototyping with 3D printing: a review 245
  18. 13 3D printing insight: techniques, application, and transformation 259
  19. 14 Additive manufacturing and 4D printing applications for Industry 4.0-enabled digital biomedical and pharmaceutical sectors 289
  20. 15 Application of three-dimensional printing in medical, agriculture, engineering, and other sectors 311
  21. 16 Recent developments in 3D printing: a critical analysis and deep dive into innovative real-world applications 335
  22. 17 Exploring design strategies for enhanced 3D printing performance 353
  23. Biographies 371
  24. Index 375
https://doi.org/10.1515/9783111215112-002

Chapters in this book

  1. Frontmatter I
  2. Acknowledgments V
  3. Preface VII
  4. Contents XI
  5. List of contributors XV
  6. 1 3D-printed antennas 1
  7. 2 The recent developments in 3D bioprinting: a general bibliometric study and thematic investigation 39
  8. 3 Additive manufacturing of compositionally complex alloys: trends, challenges, and future perspectives 61
  9. 4 Adoptability of additive manufacturing process: design perceptive 77
  10. 5 Advanced bioprinting processes using additive manufacturing technologies: revolutionizing tissue engineering 95
  11. 6 Comparative analysis of thermal characteristics and optimizing laminar flow within medical-grade 3D printers for fabrication of sterile patientspecific implants (PSIs) using computational fluid dynamics 119
  12. 7 Review of 4D printing and materials enabling Industry 4.0 for implementation in manufacturing: an Indian context 143
  13. 8 Processing of smart materials by additive manufacturing and 4D printing 181
  14. 9 A comprehensive review on effect of DMLS process parameters and post-processing on quality of product in biomedical field 197
  15. 10 Finite element method investigation on delamination of 3D printed hybrid composites during the drilling operation 223
  16. 11 Analyzing the dimensional stability in direct ink written composite ink: a machine learning approach 235
  17. 12 Recent applications of rapid prototyping with 3D printing: a review 245
  18. 13 3D printing insight: techniques, application, and transformation 259
  19. 14 Additive manufacturing and 4D printing applications for Industry 4.0-enabled digital biomedical and pharmaceutical sectors 289
  20. 15 Application of three-dimensional printing in medical, agriculture, engineering, and other sectors 311
  21. 16 Recent developments in 3D printing: a critical analysis and deep dive into innovative real-world applications 335
  22. 17 Exploring design strategies for enhanced 3D printing performance 353
  23. Biographies 371
  24. Index 375
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