Relevant bibliographies by topics / Telemedicine and Blockchain

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Telemedicine and Blockchain'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles

Select a source type:

Consult the lists of relevant articles, books, theses, conference reports, and other scholarly sources on the topic 'Telemedicine and Blockchain.'

Next to every source in the list of references, there is an 'Add to bibliography' button. Press on it, and we will generate automatically the bibliographic reference to the chosen work in the citation style you need: APA, MLA, Harvard, Chicago, Vancouver, etc.

You can also download the full text of the academic publication as pdf and read online its abstract whenever available in the metadata.

Journal articles on the topic "Telemedicine and Blockchain"

1

Koshechkin, Konstantin, Georgy Lebedev, George Radzievsky, Ralf Seepold, and Natividad Madrid Martinez. "Blockchain Technology Projects to Provide Telemedical Services: Systematic Review." Journal of Medical Internet Research 23, no. 8 (August 18, 2021): e17475. http://dx.doi.org/10.2196/17475.

Full text
Abstract:
Background One of the most promising health care development areas is introducing telemedicine services and creating solutions based on blockchain technology. The study of systems combining both these domains indicates the ongoing expansion of digital technologies in this market segment. Objective This paper aims to review the feasibility of blockchain technology for telemedicine. Methods The authors identified relevant studies via systematic searches of databases including PubMed, Scopus, Web of Science, IEEE Xplore, and Google Scholar. The suitability of each for inclusion in this review was assessed independently. Owing to the lack of publications, available blockchain-based tokens were discovered via conventional web search engines (Google, Yahoo, and Yandex). Results Of the 40 discovered projects, only 18 met the selection criteria. The 5 most prevalent features of the available solutions (N=18) were medical data access (14/18, 78%), medical service processing (14/18, 78%), diagnostic support (10/18, 56%), payment transactions (10/18, 56%), and fundraising for telemedical instrument development (5/18, 28%). Conclusions These different features (eg, medical data access, medical service processing, epidemiology reporting, diagnostic support, and treatment support) allow us to discuss the possibilities for integration of blockchain technology into telemedicine and health care on different levels. In this area, a wide range of tasks can be identified that could be accomplished based on digital technologies using blockchains.
APA, Harvard, Vancouver, ISO, and other styles
2

Ahmad, Raja Wasim, Khaled Salah, Raja Jayaraman, Ibrar Yaqoob, Samer Ellahham, and Mohammed Omar. "The role of blockchain technology in telehealth and telemedicine." International Journal of Medical Informatics 148 (April 2021): 104399. http://dx.doi.org/10.1016/j.ijmedinf.2021.104399.

Full text
APA, Harvard, Vancouver, ISO, and other styles
3

Wang, Wei, Lianhai Wang, Peijun Zhang, Shujiang Xu, Kunlun Fu, Lianxin Song, and Shanshan Hu. "A privacy protection scheme for telemedicine diagnosis based on double blockchain." Journal of Information Security and Applications 61 (September 2021): 102845. http://dx.doi.org/10.1016/j.jisa.2021.102845.

Full text
APA, Harvard, Vancouver, ISO, and other styles
4

Ключка, Я. О., О. В. Шматко, С. П. Євсеєв, and С. В. Милевський. "Peculiarities of blockchain technology introduction in the field of healthcare: current situation and prospects." Системи обробки інформації, no. 1(164) (March 17, 2021): 33–44. http://dx.doi.org/10.30748/soi.2021.164.04.

Full text
Abstract:
The current situation in the field of health care is considered and the key problems faced by this industry are described. Today, there are two main issues to be addressed in healthcare: data ownership and data security. The patient's medical data is preferably stored in centralized, isolated systems that are incompatible with each other. This situation creates difficulties in terms of timely exchange of medical data and access to them. The lack of data complicates further diagnosis and treatment of the patient. In addition, systems that store medical data are not completely reliable. Third parties can easily access and modify medical data. It is expected that blockchain technology can solve the problems that currently exist in the field of health care. Blockchain technology will create distributed, decentralized systems that will significantly improve the quality of care provided. The paper considers the areas in the field of health care, in which blockchain technology is beginning to develop, as well as related projects. All considered projects can be divided into four areas: supply chain surveillance and fight against counterfeit products, telemedicine, diagnostics, storage and management of medical data. The healthcare sector is developing rapidly and new areas are expected in which the blockchain will be used. Although there are still some problems that need to be overcome for the blockchain to be fully used.
APA, Harvard, Vancouver, ISO, and other styles
5

Durneva, Polina, Karlene Cousins, and Min Chen. "The Current State of Research, Challenges, and Future Research Directions of Blockchain Technology in Patient Care: Systematic Review." Journal of Medical Internet Research 22, no. 7 (July 20, 2020): e18619. http://dx.doi.org/10.2196/18619.

Full text
Abstract:
Background Blockchain offers a promising new distributed technology to address the challenges of data standardization, system interoperability, security, privacy, and accessibility of medical records. Objective The purpose of this review is to assess the research on the use of blockchain technology for patient care and the associated challenges and to provide a research agenda for future research. Methods This review followed the Preferred Reporting Items for Systematic Reviews and Meta-Analysis guidelines. We queried the Cumulative Index of Nursing and Allied Health Literature (CINAHL), PubMed, Excerpta Medica dataBASE (EMBASE), and Web of Science databases for peer-reviewed research articles published up to December 2019 that examined the implementation of blockchain technology in health care settings. We identified 800 articles from which we selected 70 empirical research articles for a detailed review. Results Blockchain-based patient care applications include medical information systems, personal health records, mobile health and telemedicine, data preservation systems and social networks, health information exchanges and remote monitoring systems, and medical research systems. These blockchain-based health care applications may improve patient engagement and empowerment, improve health care provider access to information, and enhance the use of health care information for medical research. Conclusions Blockchain health information technology (HIT) provides benefits such as ensuring data privacy and security of health data, facilitating interoperability of heterogeneous HIT systems, and improving the quality of health care outcomes. However, barriers to using blockchain technology to build HIT include security and privacy vulnerabilities, user resistance, high computing power requirements and implementation costs, inefficient consensus algorithms, and challenges of integrating blockchain with existing HIT. With 51% of the research focused on medical information systems such as electronic health record and electronic medical record, and 53% of the research focused on data security and privacy issues, this review shows that HIT research is primarily focused on the use of blockchain technologies to address the current challenges HIT faces. Although Blockchain presents significant potential for disrupting health care, most ideas are in their infancy.
APA, Harvard, Vancouver, ISO, and other styles
6

Guo, Rui, Huixian Shi, Dong Zheng, Chunming Jing, Chaoyuan Zhuang, and Zhengyang Wang. "Flexible and Efficient Blockchain-Based ABE Scheme With Multi-Authority for Medical on Demand in Telemedicine System." IEEE Access 7 (2019): 88012–25. http://dx.doi.org/10.1109/access.2019.2925625.

Full text
APA, Harvard, Vancouver, ISO, and other styles
7

Yang, Huijie, Jian Shen, Junqing Lu, Tianqi Zhou, Xueya Xia, and Sai Ji. "A Privacy-Preserving Data Transmission Scheme Based on Oblivious Transfer and Blockchain Technology in the Smart Healthcare." Security and Communication Networks 2021 (September 3, 2021): 1–12. http://dx.doi.org/10.1155/2021/5781354.

Full text
Abstract:
With the development of the Internet of Things and the demand for telemedicine, the smart healthcare system has attracted much attention in recent years. As a platform for medical data interaction, the smart healthcare system is demanded to ensure the privacy of both the receiver and the sender, as well as the security of data transmission. In this paper, we propose a privacy-preserving data transmission scheme where both secure ciphertext conversion and malicious users identification are supported. In particular, the OT m n protocol is introduced to guarantee the two-way privacy of communication parties. Meanwhile, we adopt proxy reencryption algorithm to support secure ciphertext conversion so as to ensure the confidentiality of data in many-to-many communication pattern. In addition, by taking advantage of the concept of blockchain technology, a novel OT m n protocol is proposed to prevent data from being tampered with and effectively identify malicious users. Theoretical and experimental analyses indicate that the proposed scheme is practical for smart healthcare with high security and efficiency.
APA, Harvard, Vancouver, ISO, and other styles
8

Colón, Kenneth Antonio. "Creating a Patient-Centered, Global, Decentralized Health System: Combining New Payment and Care Delivery Models with Telemedicine, AI, and Blockchain Technology." Blockchain in Healthcare Today 1 (2018): 1–18. http://dx.doi.org/10.30953/bhty.v1.30.

Full text
APA, Harvard, Vancouver, ISO, and other styles
9

Erick Giovani Sperandio Nascimento, Adhvan Novais Furtado, Roberto Badaró, and Luciana Knop. "The New Technologies in the Pandemic Era." JOURNAL OF BIOENGINEERING AND TECHNOLOGY APPLIED TO HEALTH 3, no. 2 (November 29, 2020): 134–64. http://dx.doi.org/10.34178/jbth.v3i2.122.

Full text
Abstract:
The pandemic of the new coronavirus affected people’s lives by an unprecedented scale. Due to the need for isolation and the treatments, drugs, and vaccines, the pandemic amplified the digital health technologies, such as Artificial Intelligence (AI), Big Data Analytics (BDA), Blockchain, Telecommunication Technology (TT) as well as High-Performance Computing (HPC) and other technologies, to historic levels. These technologies are being used to mitigate, facilitate pandemic strategies, and find treatments and vaccines. This paper aims to reach articles about new technologies applied to COVID-19 published in the main database (PubMed/Medline, Elsevier Science Direct, Scopus, Isi Web of Science, Embase, Excerpta Medica, UptoDate, Lilacs, Novel Coronavirus Resource Directory from Elsevier), in the high-impact international scientific Journals (Scimago Journal and Country Rank - SJR - and Journal Citation Reports - JCR), such as The Lancet, Science, Nature, The New England Journal of Medicine, Physiological Reviews, Journal of the American Medical Association, Plos One, Journal of Clinical Investigation, and in the data from Center for Disease Control (CDC), National Institutes of Health (NIH), National Institute of Allergy and Infectious Diseases (NIAID) and World Health Organization (WHO). We prior selected meta-analysis, systematic reviews, article reviews, and original articles in this order. We reviewed 252 articles and used 140 from March to June 2020, using the terms coronavirus, SARS-CoV-2, novel coronavirus, Wuhan coronavirus, severe acute respiratory syndrome, 2019-nCoV, 2019 novel coronavirus, n-CoV-2, covid, n-SARS-2, COVID-19, corona virus, coronaviruses, New Technologies, Artificial Intelligence, Telemedicine, Telecommunication Technologies, AI, Big Data, BDA, TT, High-Performance Computing, Deep Learning, Neural Network, Blockchain, with the tools MeSH (Medical Subject Headings), AND, OR, and the characters [,“,; /., to ensure the best review topics. We concluded that this pandemic lastly consolidates the new technologies era and will change the whole way of the social life of human beings. Also, a big jump in medicine will happen on procedures, protocols, drug designs, attendances, encompassing all health areas, as well as in social and business behaviors.
APA, Harvard, Vancouver, ISO, and other styles
10

Kotenko, Nataliia, and Viktoriya Bohnhardt. "Digital health projects financing: challenges and opportunities." Health Economics and Management Review 2, no. 1 (2021): 100–107. http://dx.doi.org/10.21272/hem.2021.1-10.

Full text
Abstract:
The article summarizes current trends in financial support for digital health in Ukraine, considering the requirements and recommendations of international institutions. The research goal is to identify problems and challenges in public funding in Ukraine and find effective ways to solve them based on world experience. The systematization of scientific sources and approaches to solving the problem of financing digital health projects has shown that most studies present the results on finding effective mechanisms for financing health care or technical aspects of digital health and its components. However, under the WHO report, the lack or insufficient level of sustainable funding is an insuperable obstacle for implementing digital health projects in most countries. Thus, the above confirmed the relevance of the investigated scientific problem. Methodical tools of this research were systematization, structural and comparative analyses, logical generalization. The practical implementation of the study was carried out using the tools of Excel 2016. In the study, the start point for gathering data was 2016, which is the beginning of the digital health transformation in Ukraine. For gaining the research goal, this study was conducted in the following logical sequence: analyzing the effectiveness and stability of budget funding for the electronic health record projects in Ukraine within the eHealth initiative; defining the current state of Telemedicine and Mobile Medicine financings; identifying the potential directions for solving the problem of lack of funding based on world experience; determining the innovative digital medicine projects implemented by startups; setting the relationship between the amount of venture financing, the maturity and number of employees of companies. Following the findings, the authors developed the recommendations to use AI, Big Data, blockchain technologies, the Internet of Things to establish cooperation between the private, public sectors, academia, and non-governmental organizations.
APA, Harvard, Vancouver, ISO, and other styles
More sources

Dissertations / Theses on the topic "Telemedicine and Blockchain"

1

Shubbar, Safa. "Ultrasound Medical Imaging Systems Using Telemedicine and Blockchain for Remote Monitoring of Responses to Neoadjuvant Chemotherapy in Women’s Breast Cancer: Concept and Implementation." Kent State University / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=kent1493646959335823.

Full text
APA, Harvard, Vancouver, ISO, and other styles

Book chapters on the topic "Telemedicine and Blockchain"

1

Kumar, Gautam, and Hemraj Saini. "Secure and Robust Telemedicine using ECC on Radix-8 with Formal Verification." In Research Anthology on Blockchain Technology in Business, Healthcare, Education, and Government, 1733–48. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-5351-0.ch094.

Full text
Abstract:
The scalar multiplication techniques used in Elliptic curve cryptography (ECC) are having the scope for gaining the computation efficiency. This is possible through the reduction of precomputed operations. Finding the more efficient technique compares to the most recent or efficient one is a research gap for all schemes. The manuscript presents an application oriented work for Telemedicine using ECC. It is based on robust application on reduced computational complexity. The methodology we apply for the same is Scalar Multiplication without precomputation on Radix-8. Introduced software and the hardware performance are reporting a big advantage over all the related proposed techniques. The reason to cover this problem is to provide a path on a fascinating area of ECC on a smaller key size be applicable for all applications on a same level of security strengths. The smaller length key gives the higher speed and shorter clock cycle to initiate the operation.
APA, Harvard, Vancouver, ISO, and other styles
2

Al-Shorbaji, Najeeb. "Improving Healthcare Access through Digital Health: The Use of Information and Communication Technologies." In Healthcare Access [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.99607.

Full text
Abstract:
Healthcare has been going through major digital transformations due to the extensive use of information and communication technologies (ICT) in the sector. Many patients lack access to healthcare services due to lack of knowledge of the exitance of the service, physical or mental disability, distance, siege, lockdown and other possible reasons. Access to healthcare services has been impacted by a number of innovations including electronic health record, artificial intelligence, sensors, wearable devices, Internet of (medical) things, Blockchain, big data and other applications. COVID-19 has created new realities in accessing healthcare services through telehealth and telemedicine services as many countries have imposed lockdown and physical distancing. Digital health has been used to empower people, in general and patients in particular, to enable them to access healthcare services at the point of care or remotely. Healthcare professionals have been using digital health to enhance their knowledge, skills and more important to enable them to reach to patients to provide guidance and assistance. Using digital health solutions has a number of challenges which can be legal, ethical, infrastructural, human and material resources, training, education, attitude, cultural, organizational and behavioral. A number of national, regional and international agencies have adopted resolutions and developed strategies to support digital health implementation in countries. This chapter provides few examples to demonstrate how access to healthcare services is being enabled and facilitated by information and communication technology (ICT) through proper national planning of digital health.
APA, Harvard, Vancouver, ISO, and other styles

Conference papers on the topic "Telemedicine and Blockchain"

1

Nusrat, Syeda Ajbina, Jannatul Ferdous, Sara Binty Ajmat, Ameer Ali, and Golam Sorwar. "Telemedicine System Design using Blockchain in Bangladesh." In 2019 IEEE Asia-Pacific Conference on Computer Science and Data Engineering (CSDE). IEEE, 2019. http://dx.doi.org/10.1109/csde48274.2019.9162401.

Full text
APA, Harvard, Vancouver, ISO, and other styles
2

Kordestani, Hossain, Kamel Barkaoui, and Wagdy Zahran. "HapiChain: A Blockchain-based Framework for Patient-Centric Telemedicine." In 2020 IEEE 8th International Conference on Serious Games and Applications for Health(SeGAH). IEEE, 2020. http://dx.doi.org/10.1109/segah49190.2020.9201726.

Full text
APA, Harvard, Vancouver, ISO, and other styles
You might also be interested in the extended bibliographies on the topic 'Telemedicine and Blockchain' for particular source types:
Journal articles
We offer discounts on all premium plans for authors whose works are included in thematic literature selections. Contact us to get a unique promo code!

To the bibliography