Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis
Three-dimensional printing (3DP), also known as additive manufacturing, has significantly impacted the biomedical field by enabling the creation of complex, patient-specific medical devices, implants, and tissues. The need for advanced medical solutions due to an aging population and increased...
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| Language: | English |
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Sri Devaraj Urs Academy of Higher Education and Research
2024-04-01
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| Series: | Journal of Clinical and Biomedical Sciences |
| Online Access: | https://jcbsonline.ac.in/articles/review-of-3d-printing-applications-in-biomedical-engineering-a-comprehensive-analysis |
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| author | Singh Amit Kumar Jain Tushar |
| author_facet | Singh Amit Kumar Jain Tushar |
| author_sort | Singh Amit Kumar |
| collection | DOAJ |
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Three-dimensional printing (3DP), also known as additive manufacturing, has significantly impacted the biomedical field by enabling the creation of complex, patient-specific medical devices, implants, and tissues. The need for advanced medical solutions due to an aging population and increased reliance on electronic gadgets has driven research into 3DP application. This review focuses on the various biomedical applications of 3DP, including drug synthesis, medical device fabrication, bioprinting, and surgical planning. The review discusses key techniques such as bioprinting, which combines cells, growth factors, and biomaterials to create tissue-like structures, and the use of 3DP for patient-specific prostheses and orthoses. Additionally, the role of 3DP in tissue engineering, organ printing, and the development of bioactive and biodegradable scaffolds is explored. The findings highlight the versatility of 3DP in creating patient-specific medical devices, enhancing surgical outcomes, and advancing tissue engineering and regenerative medicine. Different 3DP techniques discussed also shows promise in producing robust and biocompatible implants, while challenges remain in the widespread application of bio printed organs and tissues. 3DP has the potential to revolutionize the biomedical field by providing customized, efficient, and effective solutions for various medical challenges.
Keywords: Three-dimensional printing, Bioprinting, Biomedical applications, Tissue engineering, Patient-specific implants, Regenerative medicine, Additive manufacturing |
| format | Article |
| id | doaj-art-4c7470e9fbca4f7f8e5e59676d4c117d |
| institution | Kabale University |
| issn | 2231-4180 2319-2453 |
| language | English |
| publishDate | 2024-04-01 |
| publisher | Sri Devaraj Urs Academy of Higher Education and Research |
| record_format | Article |
| series | Journal of Clinical and Biomedical Sciences |
| spelling | doaj-art-4c7470e9fbca4f7f8e5e59676d4c117d2025-08-20T03:44:16ZengSri Devaraj Urs Academy of Higher Education and ResearchJournal of Clinical and Biomedical Sciences2231-41802319-24532024-04-0114412913710.58739/jcbs/v14i4.110Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive AnalysisSingh Amit KumarJain Tushar Three-dimensional printing (3DP), also known as additive manufacturing, has significantly impacted the biomedical field by enabling the creation of complex, patient-specific medical devices, implants, and tissues. The need for advanced medical solutions due to an aging population and increased reliance on electronic gadgets has driven research into 3DP application. This review focuses on the various biomedical applications of 3DP, including drug synthesis, medical device fabrication, bioprinting, and surgical planning. The review discusses key techniques such as bioprinting, which combines cells, growth factors, and biomaterials to create tissue-like structures, and the use of 3DP for patient-specific prostheses and orthoses. Additionally, the role of 3DP in tissue engineering, organ printing, and the development of bioactive and biodegradable scaffolds is explored. The findings highlight the versatility of 3DP in creating patient-specific medical devices, enhancing surgical outcomes, and advancing tissue engineering and regenerative medicine. Different 3DP techniques discussed also shows promise in producing robust and biocompatible implants, while challenges remain in the widespread application of bio printed organs and tissues. 3DP has the potential to revolutionize the biomedical field by providing customized, efficient, and effective solutions for various medical challenges. Keywords: Three-dimensional printing, Bioprinting, Biomedical applications, Tissue engineering, Patient-specific implants, Regenerative medicine, Additive manufacturinghttps://jcbsonline.ac.in/articles/review-of-3d-printing-applications-in-biomedical-engineering-a-comprehensive-analysis |
| spellingShingle | Singh Amit Kumar Jain Tushar Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis Journal of Clinical and Biomedical Sciences |
| title | Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis |
| title_full | Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis |
| title_fullStr | Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis |
| title_full_unstemmed | Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis |
| title_short | Review of 3D Printing Applications in Biomedical Engineering: A Comprehensive Analysis |
| title_sort | review of 3d printing applications in biomedical engineering a comprehensive analysis |
| url | https://jcbsonline.ac.in/articles/review-of-3d-printing-applications-in-biomedical-engineering-a-comprehensive-analysis |
| work_keys_str_mv | AT singhamitkumar reviewof3dprintingapplicationsinbiomedicalengineeringacomprehensiveanalysis AT jaintushar reviewof3dprintingapplicationsinbiomedicalengineeringacomprehensiveanalysis |