Blockchain technology in e-healthcare management.

Format:

Book

Author/Creator:

Namasudra, Suyel.

Contributor:

De Albuquerque, Victor Hugo C.

Series:

Healthcare Technologies Series

Language:

English

Subjects (All):

Blockchains (Databases).

Physical Description:

1 online resource (258 pages)

Edition:

1st ed.

Place of Publication:

New York : Institution of Engineering & Technology, 2023.

Summary:

This book discusses the applications of distributed ledger technology in healthcare environments such as e-healthcare records and data security, health insurance management and fraud detection, pharmaceutical supply chain management and drug traceability, and IoT enabled patient monitoring.

Contents:

Intro

Title

Copyright

Contents

About the Editors

Preface

1 Blockchain technology: fundamentals, applications, and challenges

1.1 Introduction

1.2 Fundamentals of blockchain technology

1.2.1 History

1.2.2 Characteristics

1.2.3 Advantages

1.2.4 Disadvantages

1.2.5 Types

1.3 Technical details of blockchain technology

1.3.1 Block

1.3.2 Chaining of blocks

1.3.3 Merkle tree

1.3.4 Consensus algorithm

1.3.5 Smart contract

1.3.6 Hyperledger

1.4 Applications of blockchain technology

1.4.1 Applications of blockchain technology in healthcare

1.4.2 Applications of blockchain in banking and finance

1.4.3 Applications of blockchain in government

1.4.4 Applications of blockchain in manufacturing

1.4.5 Applications of blockchain in other industries

1.5 Challenges in adopting blockchain technology

1.6 Conclusions

References

2 e-Healthcare record management using blockchain technology

2.1 Introduction

2.2 Electronic health record

2.2.1 Benefits of using EHRs

2.2.2 Risks of EHR

2.3 Monitoring and managing e-healthcare data using blockchain technology

2.3.1 Patient data management

2.3.2 Prescription management

2.4 Drug traceability using blockchain technology

2.4.1 Drug safety

2.4.2 Drug efficacy and effectiveness

2.4.3 Drug logistics

2.4.4 Global challenges to logistics

2.4.5 Blockchain in managing drug logistics

2.5 The use case for blockchain technology in healthcare

2.5.1 Clinical trials

2.5.2 Smart contracts

2.6 Challenges to implement blockchain technology in e-healthcare record management

2.7 Conclusions and future scope

3 Blockchain in pharmaceutical sector

3.1 Introduction

3.2 Pharmaceutical drug discovery

3.2.1 Discovery and development

3.2.2 Pre-clinical research process.

3.2.3 Clinical drug development and regulatory approval process

3.2.4 FDA review

3.2.5 Post-market monitoring

3.3 Pharmaceutical supply chain management and its challenges

3.4 Supplier consortiums and preventive maintenance

3.4.1 Quality agreements

3.4.2 License agreements

3.4.3 Product supply agreements

3.4.4 Research and development agreements

3.5 Clinical trails

3.5.1 Need for traceability in clinical trials

3.5.2 Revolutionizing clinical trials using blockchain technology

3.6 Pharmaceutical supply chain management using blockchain technology

3.7 Conclusions

4 Managing health insurance using blockchain technology

4.1 Introduction

4.2 The insurance industry: its aspects and challenges

4.3 Causality in health insurance

4.4 Blockchain technology: a revolution in the health insurance industry

4.5 Customer service management of health insurance using blockchain technology

4.5.1 Monitor and response management

4.5.2 Complaint and grievances management

4.6 Health insurance claim management using blockchain technology

4.7 Health insurance bill management using blockchain technology

4.8 Fraud detection and risk prevention in health insurance using blockchain technology

4.9 Health insurance data record and sharing management using blockchain technology

4.10 Limitations and future directions

4.10.1 Limitations

4.10.2 Future directions

4.11 Conclusions

5 e-Healthcare data security using blockchain technology

5.1 Introduction

5.1.1 Motivation

5.1.2 Contributions

5.1.3 Organization of the chapter

5.2 Healthcare data storage and security: a conceptual scenario

5.2.1 Evolution of the healthcare industry

5.2.2 Common threats in the healthcare industry

5.2.3 Threat model

5.2.4 How to keep patient data secure.

5.3 Blockchain architecture

5.4 Smart contract modeling

5.4.1 Requirement of innovative contract-based blockchain in healthcare 4.0

5.5 Improving security of e-healthcare data using blockchain technology

5.5.1 Maintaining secured and trusted records of healthcare using blockchain-based federated learning

5.5.2 Identity preservation using the blockchain-based application

5.6 Recording patient consent using non-fungible tokens

5.7 Security breaches of blockchain in the healthcare industry

5.8 Future scope in the healthcare industry

5.9 Conclusion

6 IoT and blockchain technology-based healthcare monitoring

6.1 Introduction

6.2 IoT devices for health monitoring

6.3 e-Healthcare data collection using IoT devices

6.3.1 Applications of AI and big data in e-healthcare data collection

6.3.2 e-Healthcare data collection using IoT devices

6.4 e-Healthcare IoT topology

6.5 IoT and blockchain technology for remote patient monitoring

6.5.1 Blockchain in health sector

6.6 Fake drug detection using IoT and blockchain technology

6.6.1 Underused technology

6.7 Conclusions

7 Case study: a novel system to manage e-healthcare data by using blockchain technology

7.1 Introduction

7.2 Literature reviews

7.3 Preliminary studies

7.3.1 The need of a decentralized model for healthcare

7.3.2 Blockchain and distributed ledger applications for healthcare

7.3.3 Hyperledger fabric

7.4 Proposed scheme

7.4.1 Assets and rules at the blockchain level

7.4.2 Workflow description

7.5 Results and discussion

7.5.1 Experimental environment

7.5.2 Proof of concept simulations

7.5.3 Performance considerations

7.6 Conclusion

8 Challenges and future work directions in e-healthcare using blockchain technology

8.1 Introduction.

8.2 Requirements for developing blockchain-based healthcare applications

8.2.1 Multi-party and trust

8.2.2 Storage

8.2.3 Availability, scalability, and real-time processing

8.2.4 Data integrity, consistency, and immutability

8.2.5 Interoperability, data transparency, and validation

8.2.6 User privacy

8.2.7 Identity and key management

8.2.8 Technology acceptance and costs

8.2.9 Legalization of blockchain technology

8.3 Key challenges for healthcare applications using blockchain technology

8.3.1 Healthcare challenges

8.3.2 Blockchain adoption challenges

8.4 Benefits and drawbacks of existing blockchain-based healthcare applications

8.4.1 Health data and EHR

8.4.2 Scalability analysis

8.4.3 Supply chain management

8.5 Future work directions

8.5.1 Healthcare blockchain-based application trends

8.5.2 Blockchain architectural trends

8.6 Conclusion

Index.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

1-83724-478-2

1-83953-603-9

OCLC:

1376193514