Augmented and Virtual Reality in Immersive Healthcare

Future-proof your medical expertise with this indispensable guide that offers a comprehensive, expert-led exploration of how Augmented and Virtual Reality (AR/VR) are revolutionizing healthcare. Augmented reality (AR) and virtual reality (VR) have profoundly impacted the healthcare sector, introducing ground-breaking applications ranging from surgical simulations and pain management to mental health therapies and patient education. This book delves into the various applications of AR and VR, including deep learning, surgical training, teleconsultation, and patient rehabilitation. By blending theoretical insights with practical case studies, it provides a deeper understanding of how these technologies are being integrated into medical practices to improve outcomes, enhance patient care, and train healthcare professionals. It also explores cutting-edge developments, such as AI-powered AR systems and VR-based mental health treatments, highlighting the future of healthcare innovation. With contributions from leading experts in healthcare, technology, and academia, this book offers a multidimensional perspective on the challenges and opportunities associated with AR and VR in the medical field. Through its accessible language and detailed illustrations, this book is an indispensable guide for anyone interested in the intersection of technology and medicine. Readers will find the volume: Provides a comprehensive exploration of how immersive technology is unlocking new possibilities in healthcare, education, and rehabilitation; Offers insights from top researchers and practitioners in the field, providing authoritative perspectives on the latest technologies, applications, and trends shaping the future of XR; Offers practical guidance and actionable insights to help you harness the power of AR and VR, accelerating innovation and driving real-world impacts; Uncovers the diverse range of applications empowered by the convergence of healthcare and gamification, revolutionizing healthcare delivery and improving patient outcomes. Audience Healthcare professionals, medical educators and students, engineers, developers, researchers, and policymakers looking for cutting-edge technologies to enhance patient care and treatment outcomes.

Table of Contents:
Preface xxi Part 1: Healthcare Practices with AR and VR 1 1 Revolutionizing Patient Care: Augmented and Virtual Reality Applications in Healthcare 3 M. Mary Adline Priya 1.1 Introduction: The Rise of XR in Healthcare 4 1.2 Transforming Medical Education and Training 8 1.3 Enhancing Surgical Planning and Precision 9 1.4 Redefining Patient Care and Management 10 1.5 Advancing Rehabilitation and Physical Therapy 12 1.6 Addressing Mental Health Needs 14 1.7 Ethical Considerations and Challenges 16 1.8 The Road Ahead: Future Directions of AR/VR in Healthcare 17 1.9 Economic Implications of AR/VR in Healthcare 19 1.10 Regulatory Landscape of AR/VR in Healthcare 20 1.11 Social and Cultural Considerations of AR/VR in Healthcare 22 1.12 Case Studies: AR/VR Transforming Healthcare Delivery 23 1.13 Conclusion: A New Era of Patient-Centered Care 27 2 Transformation of Augmented Reality and Virtual Reality in Healthcare for Breast Cancer: A Survey 31 Mahalakshmi V. and Sasikala G. 2.1 Introduction 32 2.2 Introduction to AR and VR Technologies 34 2.3 Significance of AR and VR in Revolutionizing Breast Cancer Imaging 39 2.4 Related Works 41 2.5 AI Integration with AR and VR in Breast Cancer Treatment 51 2.6 Challenges and Future Scope 52 2.7 Conclusion 53 3 Revolutionizing Mental Healthcare Through AR/VR Technologies 57 Jacob Tizhe Liberty and Shilni Jacob Liberty 3.1 Introduction 58 3.2 Applications of Augmented Reality in Mental Health 58 3.3 Virtual Reality for Psychological Treatment 61 3.4 AR/VR in Psychiatric Diagnostics and Assessment 63 3.5 Teletherapy and Remote Mental Healthcare 65 3.6 Addressing Stigma and Increasing Accessibility 67 3.7 Ethical and Privacy Considerations 69 3.8 Future Directions and Emerging Trends 71 3.9 Challenges and Opportunities 74 3.10 Conclusion 76 4 Augmented Reality and Virtual Reality in Urology: Innovations in Detection and Diagnosis 85 Naman Chauhan, Gesu Thakur, Ankush Joshi, Vikash Kumar and Yashvir Singh 4.1 Introduction to Augmented Reality and Virtual Reality in Urology 86 4.2 Applications of Augmented Reality in Urology 91 4.3 Utilizing Virtual Reality for Training and Simulation in Urology 97 4.4 Augmented Reality and Virtual Reality for Patient Care and Rehabilitation 105 4.5 Challenges and Future Directions 108 4.6 Case Studies and Clinical Applications 111 4.7 Conclusion 113 5 Revolutionizing Healthcare: The Impact of Augmented and Virtual Reality (AR/VR) Technologies 117 Arati Chabukswar, Swimpy Pahuja and Savitri Kulkarni 5.1 Introduction to AR and VR in Healthcare 118 5.2 Technological Foundations 121 5.3 Applications in Surgical Procedures 130 5.4 Transforming Patient Education 132 5.5 Chronic Disease Management 136 5.6 Telemedicine and Remote Healthcare 138 5.7 Virtual Clinical Trials and Research 142 5.8 Obstacles and Difficulties in Implementation 145 5.9 Conclusion 146 Part 2: AI and Computational Intelligence in AR/VR Healthcare 151 6 Leveraging Deep Learning for Early Detection of Autism Spectrum Disorder in Augmented and Virtual Reality Mental Healthcare Environments 153 Manjunath Ramanna Lamani, Asha V. and Padmaja K. 6.1 Introduction 154 6.2 Background and Related Work 156 6.3 Framework for ASD Detection in AR and VR 159 6.4 Implementation and Methodology 160 6.5 Results and Discussion 163 6.6 Personalized Intervention Strategies 167 6.7 Future Directions 169 6.8 Conclusion 172 7 Computational Intelligence and Augmented Reality in Stomatology 175 Aleš Procházka, Saeid Sanei, Magdaléna Kloubcová, Tatjana Dostálová, Jindøich Charvát, Oldøich Vyšata, Danilo Mandic, Hana Charvátová and Vladimír Maøík 7.1 Introduction 176 7.2 Methods 183 7.3 Results 192 7.4 Discussion 196 7.5 Conclusion 196 7.6 Future Work 198 8 Reality's New Frontier: Exploring AI-Powered AR and VR Applications in Healthcare 207 Gesu Thankur, Bhupendra Singh Rawat, Hemendra Shankar Sharma and Ayush Vaishy 8.1 Introduction 208 8.2 Virtual Reality for Medical Procedure and Education 210 8.3 AR and VR for Public Health and Prevention 214 8.4 Virtual Reality for Mental Health Therapy 216 8.5 AR and VR for Patient Education and Engagement 219 8.6 Augmented Reality for Surgical Planning 221 8.7 AR Medical Simulations 224 8.8 AR Gamification for Patient Engagement 226 8.9 AR Healthcare Remote Diagnostics 228 8.10 AR and VR Drug Design and Discovery 231 8.11 Conclusion 233 9 Machine Learning–Based Disease Diagnosis and Treatment in Healthcare: A Review and Evaluation 239 Chandrashekhar Bechoo and Avinash Mungur 9.1 Introduction 240 9.2 Background Study 241 9.3 Research on Existing Systems with Critics 253 9.4 Quantitative and Qualitative Evaluation 262 9.5 Conclusion 270 10 Enhancing Healthcare Through AI, AR, and VR: Integrating Human–Computer Interaction for Improved Teleconsultations and Diagnostic Accuracy 275 Hans Johnson, Joshua Hayward, Joseph Vayalil Lawrence, Bayarbaatar Bold, Bijetri Biswas, Weiyi Li, Md Hassanuzzaman and Christopher Jacobs 10.1 Introduction to AI, AR, and VR in Healthcare 276 10.2 Technological Foundations and Innovations 278 10.3 Improving Teleconsultations with AR and VR 281 10.4 Enhancing Diagnostic Accuracy through AI 286 10.5 HCI Methods in Clinical AR/VR 289 10.6 Ethical Implications of AI in VR and AR 292 10.7 Future Directions and Concluding Thoughts 295 Part 3: AR/VR Applications in Medical Education and Public Health 315 11 Mixed Reality Applications in Public Healthcare Systems: A Scoping Study of Contemporary Approaches 317 Olunike R. Abodunrin, Mobolaji T. Olagunju, Folahanmi T. Akinsolu, Mobayode O. Akinsolu, Olusola A. Ladokun and Oliver C. Ezechi 11.1 Introduction 318 11.2 Current Applications of MR in Healthcare 321 11.3 Benefits and Drawbacks of MR in Healthcare and Challenges in LMICS 325 11.4 Proposed Model for MR Integration in LMICs' Public Healthcare and Tailored Approaches for LMICs 332 11.5 Conclusion 340 12 Virtual Reality for Procedural Skill Training in Medical Education: An Exploratory Study 353 Akash Gajanan Prabhune, Ragaviveka Gopalan, Chaithanya V.N. and Adith Chinnaswami 12.1 Introduction 354 12.2 Background 356 12.3 Methods 358 12.4 Results 364 12.5 Discussion 368 12.6 Conclusion 374 13 From Concept to Clinic: Augmented Reality and Virtual Reality in Emerging Health Diagnostics with a Focus on Autism 381 Smrity Prasad and Senthil Vadivu M. 13.1 Introduction 382 13.2 AR-Based Autism Diagnosis 383 13.3 Technological Frameworks for Augmented Reality in Autism Therapy 384 13.4 Case Study: Simulated Virtual Classroom 385 13.5 Approaches for AR-Based Autism Treatment 385 13.6 VR-Based Autism Diagnosis 387 13.7 Conclusions 389 14 Immersive Healthcare: Examining Virtual Reality's Revolutionary Potential Using Case Studies 393 Sheena Angra and Bhanu Sharma 14.1 Revolutionary Impact of Virtual Reality (VR) in Healthcare 394 14.2 Importance of Case Studies in Understanding VR's Role in Healthcare 398 14.3 Case Studies on Medical Training 399 14.4 Virtual Reality for Patient Therapy, Phobias Therapy, Persistent Pain, and Rehabilitation 402 14.5 The Application of Virtual Reality (VR) for the Purpose of Visualizing Medical Concepts and Educating Patients 404 14.6 Virtual Reality in Telemedicine and Telehealth 406 14.7 AR and VR in Rural Healthcare 406 14.8 Utilization of VR for Cutting-Edge Data Visualization and Medical Research 408 14.9 Challenges and Possible Approaches 409 14.10 Conclusion 411 Part 4: Next-Gen Digital and Immersive Healthcare Ecosystems 417 15 Integration of IoT, AI, and Metaverse Toward Healthcare 5.0: Navigating Future 419 Rajeev Ranjan 15.1 Introduction 420 15.2 Advantages of Collaborative Working 425 15.3 Literature Review of Collaborative Technologies in Healthcare Domain 428 15.4 Current Challenges and Future Direction 435 15.5 Conclusion 438 16 Driving Healthcare 4.0 with Intelligent Connectivity 449 Tulsi Pawan Fowdur, Aishani Radhakeesoon and Vladan Pantovic 16.1 Introduction 450 16.2 Healthcare 4.0—Evolution from 1.0 to 4.0 453 16.3 Intelligent Connectivity—Components and Architecture 457 16.4 Use Cases 461 16.5 Use-Case Summary 468 16.6 Conclusion 470 17 Meditating in VR: Immersion, Perceived Interactivity, Positive Thinking, and Psychological Well-Being of Young Adults 475 Biju Kunnumpurath, Vishnu Achutha Menon and Ajith Paul 17.1 Introduction 476 17.2 Review of Literature 483 17.3 Methodology 486 17.4 Results 487 17.5 Discussions 490 17.6 Conclusion 493 18 Healthcare Metaverse: A Comprehensive Review of Future Directives, Challenges, and Prospects 499 Sreeparnesh Sharma Sivadevuni and Naveen J. 18.1 Introduction 500 18.2 Exploring the Potential of Metaverse in Healthcare 502 18.3 Role of Blockchain in the Metaverse for Healthcare 504 18.4 Leveraging IoT in the Metaverse for Healthcare 506 18.5 Challenges and Considerations 507 18.6 Conclusion 509 19 Upholding Patient Trust in Healthcare's Digital Realities: Safeguarding Data in Augmented and Virtual Systems 513 Md. Afroz and Emmanuel Nyakwende 19.1 Introduction 514 19.2 Immersive Technologies in Healthcare: An Overview 516 19.3 Privacy and Security Challenges in Immersive Healthcare 519 19.4 Privacy-Enhancing Technologies for Immersive Healthcare 522 19.5 Multifaceted Defense Strategies 525 19.6 User-Centric Design for Privacy and Security 530 19.7 Regulatory Compliance and Ethical Considerations 533 19.8 Future Directions and Emerging Challenges 536 19.9 Conclusion 538 References 539 Index 543

About the Author :
Hari Murthy, PhD is an Assistant Professor in the Department of Electronics and Communication Engineering at Christ University, Bangalore, India. He has edited three books and published papers in international journals and conferences. His research interests include data engineering and material science. Kukatlapalli Pradeep Kumar, PhD is an Associate Professor at Christ University, Bangalore, India. with more than 12 years of experience. He is a certified CISCO and Microsoft trainer in the Data Analytics domain. His areas of interest include data science, information security, computer forensics, data provenance, software engineering, and multiparty secret sharing. Tulsi Pawan Fowdur, PhD is an Associate Professor in the Department of Electrical and Electronic Engineering of the University of Mauritius, Moka, Mauritius. He has published several papers on his research interests in mobile and wireless communications, multimedia communications, networking and security, telecommunications applications development, Internet of Things, and AI. Aynur Unal, PhD is based in Stanford Medical School, Global Health Innovation Center, Palo Alto, CA, USA. She has a strong engineering design and manufacturing background and is credited with developing the Acoustics Institute in conjunction with the NASA-AMES research fellowships. Now, her work revolves around social entrepreneurial projects benefitting needy children and the elderly.