Computational Intelligence in Bioprinting
Challenges and Future Directions
Herausgeber: Gangadevi, E.; Balusamy, Balamurugan; Dhanaraj, Rajesh Kumar; Shri, M Lawanya
Computational Intelligence in Bioprinting
Challenges and Future Directions
Herausgeber: Gangadevi, E.; Balusamy, Balamurugan; Dhanaraj, Rajesh Kumar; Shri, M Lawanya
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The book provides a comprehensive exploration of the evolving field of bioprinting in regenerative medicine and is an essential guide for professionals seeking a thorough understanding of the field. Computational Intelligence in Bioprinting provides a comprehensive overview of the evolving field of bioprinting in reformative medicine, defining the process of printing structures using viable cells, biomaterials, and living molecules. The primary goal is to provide substitutes for tissue implants, which might lead to eliminating the requirement for organ donors, as well as to transform animal…mehr
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- Produktdetails
- Verlag: John Wiley & Sons Inc
- Seitenzahl: 352
- Erscheinungstermin: 11. März 2024
- Englisch
- Abmessung: 218mm x 145mm x 25mm
- Gewicht: 632g
- ISBN-13: 9781394204397
- ISBN-10: 1394204396
- Artikelnr.: 69122624
- Verlag: John Wiley & Sons Inc
- Seitenzahl: 352
- Erscheinungstermin: 11. März 2024
- Englisch
- Abmessung: 218mm x 145mm x 25mm
- Gewicht: 632g
- ISBN-13: 9781394204397
- ISBN-10: 1394204396
- Artikelnr.: 69122624
1 The Emergence of Bioprinting and Computational Intelligence 1
P.M. Kavitha, S. Jayachandran and M. Anitha
1.1 Introduction 2
1.2 Related Study 3
1.3 Understanding the Basics of Bioprinting and Computational Intelligence
6
1.4 The Role of Computational Intelligence in Bioprinting 8
1.5 Applications of Bioprinting and Computational Intelligence in Medicine
9
1.6 Bioprinting and Computational Intelligence in Tissue Engineering and
Regenerative Medicine 10
1.7 Advancements in Bioprinting and Computational Intelligence Technologies
12
1.8 The Ethical and Regulatory Implications of Bioprinting and
Computational Intelligence 13
1.9 The Future of Bioprinting and Computational Intelligence: Opportunities
and Challenges 14
1.10 Case Studies: Bioprinting and Computational Intelligence in Action 15
1.11 Conclusion 19
2 Design, Architecture, Implementation, and Evaluation of Bioprinting
Technology for Tissue Engineering 21
Vimala R. T. V., Gangadevi E. and Lawanya Shri M.
2.1 Introduction 21
2.2 3D Bioprinting 23
2.3 Material Characteristics 24
2.4 Mechanical Properties 25
2.5 Biomaterials 25
2.6 Design, Architecture of 3D Bioprinting 25
2.7 3D Bioprinting Tissue Models 28
2.8 3D Multimaterial Bioprinting-Development of Complex Architectures 29
2.9 Implementation and Evaluation 29
2.10 Bone 29
2.11 Cartilage 31
2.12 Soft Tissue Engineering 31
2.13 Vascular Tissue 32
2.14 Skin 32
2.15 Biocompatibility and Control of Degradation and Byproducts 33
2.16 Conclusion 33
3 Design and Development of IoT Devices: Methods, Tools and Technologies 39
Akash Kumar, Sachin Abhay Kumar, Richa Singh, Shivam Maloo, Dishant Rathi
and K. Santhi
3.1 Introduction to IoT Devices and 3D Bioprinting 40
3.2 Methodology for Designing IoT Devices for 3D Bioprinting 40
3.3 Additional Considerations in IoT Device Design for 3D Bioprinting 42
3.4 Tools for Developing IoT Devices for 3D Bioprinting 44
3.5 Techniques for Developing IoT Devices for 3D Bioprinting 46
3.6 Case Studies of IoT Devices for 3D Bioprinting 49
3.7 Future Directions in IoT Devices for 3D Bioprinting 49
3.8 Conclusion 50
4 AI-Based AR/VR Models in Biomedical Sustainable Industry 4.0 53
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Rudra Pratap Ojha,
Balamurugan Balusamy and Gangadevi E.
4.1 Introduction 54
4.2 Mixed Augmented Reality 56
4.3 AR Technology 64
4.4 Requirement of Augmented Reality 71
4.5 Conclusions 74
5 Computational Intelligence-Based Image Classification for 3D Printing:
Issues and Challenges 79
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, B. Tirapathi Reddy and
Gangadevi E.
5.1 Introduction 80
5.2 Brief Concepts 81
5.3 Role of Artificial Intelligence in Industry 4.0 82
5.4 Conclusion 89
6 Role of Cybersecurity to Safeguard 3D Bioprinting in Healthcare:
Challenges and Opportunities 93
Venkatalakshmi S.
6.1 Introduction 94
6.2 Related Work 95
6.3 Creation of 3D Objects and Printing 97
6.4 Schematic Diagram of 3D Bioprinting 100
6.5 Cyberthreats Posed to Bioprinting 106
6.6 Conclusion 125
7 Legal and Bioethical View of Educational Sectors and Industrial Areas of
3D Bioprinting 127
Pothys varan S., Balachander S. and Ashwini S.
7.1 Introduction 128
7.2 Current 3D Bioprinting Market Trends 130
7.3 Legal and Ethical Perspectives 135
7.4 Regarding the Introduction and Advancement of 3D Bioprinting 138
7.5 Conclusion 149
7.6 Future Scope 149
8 Optimizing 3D Bioprinting Using Advanced Deep Learning Techniques A
Comparative Study of CNN, RNN, and GAN 157
K. Sujigarasharma, Sharulatha S., Lawanya Shri M., Gangadevi E. and Rajesh
Kumar Dhanaraj
8.1 Introduction 158
8.2 Convolutional Neural Networks in Optimization of 3D Bioprinting 160
8.3 RNN in Optimization of 3D Bioprinting 160
8.4 Generative Adversarial Networks (GAN) in Optimization of 3D Bioprinting
161
8.5 Datasets Used for Optimization of 3D Bioprinting 162
8.6 3D Slicer Medical Image Segmentation Dataset 163
8.7 Sensor Data 163
8.8 Open Organ Database Dataset 164
8.9 Proposed Model 164
8.10 CNN U-Net 166
8.11 RNN Long Short-Term Memory 167
8.12 Wasserstein Generative Adversarial Network 168
8.13 Process of Combined Model 169
8.14 Conclusion 171
9 Research Trends in Intelligence-Based Bioprinting for Construction
Engineering Applications 175
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Om Prakash, Balamurugan
Balusamy and Feslin Anish Mon
9.1 Introduction 176
9.2 Analysis of Bioprinting 177
9.3 Model Development in Bioprinting Technology 179
9.4 3D Bioprinting Academic Institutions in the World 183
9.5 Emerging Bioprinting Technology 185
9.5.1 Opportunities 185
9.5.2 Challenges 186
9.6 Development in Bioengineering 186
9.7 Evolution of Patent Trends in Bioprinting 188
9.8 Conclusions 189
10 Design and Development to Collect and Analyze Data Using Bioprinting
Software for Biotechnology Industry 193
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Sanjay Kumar, Balamurugan
Balusamy and Lakshmana Kumar Ramasamy
10.1 Introduction 194
10.2 Digital Technology in Bioprinting 195
10.3 Designing Techniques in Bioprinting 199
10.4 3D Bioprinting 201
10.5 Enhanced Biotissue Printing 203
10.6 Conclusion 205
10.7 Future Work 206
11 Cyborg Intelligence for Bioprinting in Computational Design and Analysis
of Medical Application 211
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Naresh Kumar, Balamurugan
Balusamy and Gangadevi E.
11.1 Introduction 212
11.2 Next Generation of Bioprinting 214
11.3 Biosensors and Actuators 223
11.4 Enhancing Technology in Bioprinting 232
11.5 Conclusion and Future Work 233
12 Computer Vision-Aides 3D Bioprinting in Ophthalmology Recent Trends and
Advancements 239
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Ankita Tiwari, Balamurugan
Balusamy and R. Gopal
12.1 Introduction 240
12.2 Digital Laser Printing Techniques 242
12.3 3D Printing Biological Material 248
12.4 Conclusion and Future Work 254
13 Intelligent Image Classification for 3D Printing in Industry 4.0 259
Rajbala, Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Gangadevi E. and
Balamurugan Balusamy
13.1 Introduction 260
13.2 Advantages 261
13.3 Methodology 262
13.4 3D Printing Technology 262
13.5 ANN Methods 270
13.6 Conclusions 271
14 Bioprinting and Robotics Engineering: Applications, Recent Progress, and
Future Directions 275
Pawan Whig, Shama Kouser, Ashima Bhatnagar Bhatia, Rahul Reddy Nadikattu
and Yusuf Jibrin Alkali
14.1 Introduction 276
14.2 Background 277
14.3 3D Printing 279
14.4 3D Printing Applications 280
14.5 Recent Progress in 3D Printing 284
14.6 Future Directions in 3D Printing 289
14.7 Conclusion and Discussion 297
14.8 Future Scope 298
15 3D Bioprinting Technology Optimization Using Machine Learning 303
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Reenu Batra, Balamurugan
Balusamy and Gangadevi E.
15.1 Introduction 304
15.2 Human Organs Printed Through 3D Printers 306
15.3 Predictive Trial and Error 3D Printing 317
15.4 Conclusions 318
References 319
Index 323
1 The Emergence of Bioprinting and Computational Intelligence 1
P.M. Kavitha, S. Jayachandran and M. Anitha
1.1 Introduction 2
1.2 Related Study 3
1.3 Understanding the Basics of Bioprinting and Computational Intelligence
6
1.4 The Role of Computational Intelligence in Bioprinting 8
1.5 Applications of Bioprinting and Computational Intelligence in Medicine
9
1.6 Bioprinting and Computational Intelligence in Tissue Engineering and
Regenerative Medicine 10
1.7 Advancements in Bioprinting and Computational Intelligence Technologies
12
1.8 The Ethical and Regulatory Implications of Bioprinting and
Computational Intelligence 13
1.9 The Future of Bioprinting and Computational Intelligence: Opportunities
and Challenges 14
1.10 Case Studies: Bioprinting and Computational Intelligence in Action 15
1.11 Conclusion 19
2 Design, Architecture, Implementation, and Evaluation of Bioprinting
Technology for Tissue Engineering 21
Vimala R. T. V., Gangadevi E. and Lawanya Shri M.
2.1 Introduction 21
2.2 3D Bioprinting 23
2.3 Material Characteristics 24
2.4 Mechanical Properties 25
2.5 Biomaterials 25
2.6 Design, Architecture of 3D Bioprinting 25
2.7 3D Bioprinting Tissue Models 28
2.8 3D Multimaterial Bioprinting-Development of Complex Architectures 29
2.9 Implementation and Evaluation 29
2.10 Bone 29
2.11 Cartilage 31
2.12 Soft Tissue Engineering 31
2.13 Vascular Tissue 32
2.14 Skin 32
2.15 Biocompatibility and Control of Degradation and Byproducts 33
2.16 Conclusion 33
3 Design and Development of IoT Devices: Methods, Tools and Technologies 39
Akash Kumar, Sachin Abhay Kumar, Richa Singh, Shivam Maloo, Dishant Rathi
and K. Santhi
3.1 Introduction to IoT Devices and 3D Bioprinting 40
3.2 Methodology for Designing IoT Devices for 3D Bioprinting 40
3.3 Additional Considerations in IoT Device Design for 3D Bioprinting 42
3.4 Tools for Developing IoT Devices for 3D Bioprinting 44
3.5 Techniques for Developing IoT Devices for 3D Bioprinting 46
3.6 Case Studies of IoT Devices for 3D Bioprinting 49
3.7 Future Directions in IoT Devices for 3D Bioprinting 49
3.8 Conclusion 50
4 AI-Based AR/VR Models in Biomedical Sustainable Industry 4.0 53
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Rudra Pratap Ojha,
Balamurugan Balusamy and Gangadevi E.
4.1 Introduction 54
4.2 Mixed Augmented Reality 56
4.3 AR Technology 64
4.4 Requirement of Augmented Reality 71
4.5 Conclusions 74
5 Computational Intelligence-Based Image Classification for 3D Printing:
Issues and Challenges 79
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, B. Tirapathi Reddy and
Gangadevi E.
5.1 Introduction 80
5.2 Brief Concepts 81
5.3 Role of Artificial Intelligence in Industry 4.0 82
5.4 Conclusion 89
6 Role of Cybersecurity to Safeguard 3D Bioprinting in Healthcare:
Challenges and Opportunities 93
Venkatalakshmi S.
6.1 Introduction 94
6.2 Related Work 95
6.3 Creation of 3D Objects and Printing 97
6.4 Schematic Diagram of 3D Bioprinting 100
6.5 Cyberthreats Posed to Bioprinting 106
6.6 Conclusion 125
7 Legal and Bioethical View of Educational Sectors and Industrial Areas of
3D Bioprinting 127
Pothys varan S., Balachander S. and Ashwini S.
7.1 Introduction 128
7.2 Current 3D Bioprinting Market Trends 130
7.3 Legal and Ethical Perspectives 135
7.4 Regarding the Introduction and Advancement of 3D Bioprinting 138
7.5 Conclusion 149
7.6 Future Scope 149
8 Optimizing 3D Bioprinting Using Advanced Deep Learning Techniques A
Comparative Study of CNN, RNN, and GAN 157
K. Sujigarasharma, Sharulatha S., Lawanya Shri M., Gangadevi E. and Rajesh
Kumar Dhanaraj
8.1 Introduction 158
8.2 Convolutional Neural Networks in Optimization of 3D Bioprinting 160
8.3 RNN in Optimization of 3D Bioprinting 160
8.4 Generative Adversarial Networks (GAN) in Optimization of 3D Bioprinting
161
8.5 Datasets Used for Optimization of 3D Bioprinting 162
8.6 3D Slicer Medical Image Segmentation Dataset 163
8.7 Sensor Data 163
8.8 Open Organ Database Dataset 164
8.9 Proposed Model 164
8.10 CNN U-Net 166
8.11 RNN Long Short-Term Memory 167
8.12 Wasserstein Generative Adversarial Network 168
8.13 Process of Combined Model 169
8.14 Conclusion 171
9 Research Trends in Intelligence-Based Bioprinting for Construction
Engineering Applications 175
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Om Prakash, Balamurugan
Balusamy and Feslin Anish Mon
9.1 Introduction 176
9.2 Analysis of Bioprinting 177
9.3 Model Development in Bioprinting Technology 179
9.4 3D Bioprinting Academic Institutions in the World 183
9.5 Emerging Bioprinting Technology 185
9.5.1 Opportunities 185
9.5.2 Challenges 186
9.6 Development in Bioengineering 186
9.7 Evolution of Patent Trends in Bioprinting 188
9.8 Conclusions 189
10 Design and Development to Collect and Analyze Data Using Bioprinting
Software for Biotechnology Industry 193
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Sanjay Kumar, Balamurugan
Balusamy and Lakshmana Kumar Ramasamy
10.1 Introduction 194
10.2 Digital Technology in Bioprinting 195
10.3 Designing Techniques in Bioprinting 199
10.4 3D Bioprinting 201
10.5 Enhanced Biotissue Printing 203
10.6 Conclusion 205
10.7 Future Work 206
11 Cyborg Intelligence for Bioprinting in Computational Design and Analysis
of Medical Application 211
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Naresh Kumar, Balamurugan
Balusamy and Gangadevi E.
11.1 Introduction 212
11.2 Next Generation of Bioprinting 214
11.3 Biosensors and Actuators 223
11.4 Enhancing Technology in Bioprinting 232
11.5 Conclusion and Future Work 233
12 Computer Vision-Aides 3D Bioprinting in Ophthalmology Recent Trends and
Advancements 239
Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Ankita Tiwari, Balamurugan
Balusamy and R. Gopal
12.1 Introduction 240
12.2 Digital Laser Printing Techniques 242
12.3 3D Printing Biological Material 248
12.4 Conclusion and Future Work 254
13 Intelligent Image Classification for 3D Printing in Industry 4.0 259
Rajbala, Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Gangadevi E. and
Balamurugan Balusamy
13.1 Introduction 260
13.2 Advantages 261
13.3 Methodology 262
13.4 3D Printing Technology 262
13.5 ANN Methods 270
13.6 Conclusions 271
14 Bioprinting and Robotics Engineering: Applications, Recent Progress, and
Future Directions 275
Pawan Whig, Shama Kouser, Ashima Bhatnagar Bhatia, Rahul Reddy Nadikattu
and Yusuf Jibrin Alkali
14.1 Introduction 276
14.2 Background 277
14.3 3D Printing 279
14.4 3D Printing Applications 280
14.5 Recent Progress in 3D Printing 284
14.6 Future Directions in 3D Printing 289
14.7 Conclusion and Discussion 297
14.8 Future Scope 298
15 3D Bioprinting Technology Optimization Using Machine Learning 303
Kuldeep Singh Kaswan, Jagjit Singh Dhatterwal, Reenu Batra, Balamurugan
Balusamy and Gangadevi E.
15.1 Introduction 304
15.2 Human Organs Printed Through 3D Printers 306
15.3 Predictive Trial and Error 3D Printing 317
15.4 Conclusions 318
References 319
Index 323