In this third generation of the web, new applications are being researched as it transitions from the centralised web 2.0 to the decentralised web3. In the field of healthcare, Web3 has several useful uses. Web 2.0 is used often. The second generation was the first to employ cutting-edge technology in healthcare applications, electronic health records, and telemedicine.
Despite the fact that modern technology benefits humanity greatly, it may also have negative effects on a number of other things. The secretiveness of the central systems puts our data at danger. Any person who has access to the data is able to edit or remove it. Both medical professionals and hospital patients are quite concerned about this. Web 3 does not adhere to this.
Patients’ data management and medical record organisation are being revolutionised by Web3 for Healthcare. New services and solutions are constantly being developed by Web3 Healthcare. This demonstrates the importance of Web3 in healthcare. The features of Web3 for Healthcare include the ability to protect data, detect fake medications, and carry out metaverse therapies. The metaverse depends on Web3. There are various Web3 development companies that might advance medical technology. Let’s examine how Web3 could benefit the medical industry.
What is Web3?
Third-generation internet technology called Web3 gives people ownership and control over their data. Individuals have ownership over their data on the distributed network known as Web3. The present, centralised web 2.0 environment is in contrast to this. Many of the issues with the current web can be solved with Web3 (or read-write web).
Data leakage, censorship, and centralization are a few of them. Read-write HTML3 is supported by blockchain technology, which offers a permissionless environment that is decentralised, peer-to-peer, and trustless. The ability to deliver healthcare services using Web3 technology exists. Let’s examine how Web3 can facilitate your access to healthcare.
The following advantages are offered to customers:
- Ownership Defying Censorship
- Decentralized Autonomous Groups (DAOs).
- Payments to Native Americans Identification as a sovereign
Web 2.0 and the medical field
When we talk about healthcare 2.0, we’re talking about the web 2.0-era healthcare technologies. A more effective technique of healthcare delivery has been modified by health 2.0. It used a variety of technologies, including as telemedicine, linked health, mHealth, and others, to provide patients access to and control over their data.
Patients may use web 2.0 to track their health data and determine how healthy they are by taking use of the advantages of healthcare applications and platforms. You may monitor your physical and emotional well-being with the use of several monitoring apps, like MyFitnessPal for food intake, Waterlogged for hydration, Down Dog for meditation and yoga, Talkspace for mental health, and many others for workouts, fitness, and exercise sessions.
Described as “participatory health care distinguished by the ability to quickly transmit, categorise, and summarise individual health information with the goal of improving health care systems, experiences, and outcomes through patient and stakeholder integration,” health 2.0 is defined as “participatory health care.”
Web 2.0 technologies in the healthcare industry promote collaboration, involvement, openness, and social networking both inside and across user groups. Through health-related websites or portals, Electronic Health Records (EHR), online communities and support groups, chronic disease management systems, telemedicine and teleconsultation applications, virtual communities, and electronic health records, it significantly expanded the conventional e-health model that first appeared in the 1900s. Access to healthcare was another benefit for people living in rural areas.
It has shortcomings even though it completely overhauled the healthcare system. It creates a number of security risks and data weaknesses. Healthcare organisations that have websites, web servers, and databases that are not sufficiently safeguarded are vulnerable to cyberattacks. Hackers and cybercriminals are always searching for databases that are misconfigured, unprotected, or have weak security so they may attack them and demand a ransom.
Data encryption is one of the technological security measures that should be in place at healthcare institutions that handle electronic Protected Health Information (ePHI), since doing otherwise might endanger your organisation. Additionally, old medical equipment and devices without the most recent threat defences, a lack of established cybersecurity standards and practises, and a lack of cyber awareness can all make data vulnerable.
The healthcare system has undergone a transformation thanks to Web 2.0, but it has also highlighted risks related to data security and other problems. Web3’s introduction is a huge relief for the healthcare industry as a result. After reviewing the web3 principles, think about how the health sector may profit from web3.
Web3 in healthcare
Innovation in healthcare is revolutionised by Web3. The healthcare sector might change thanks to the following three web3 elements:
A distributed encrypted database that enables secure data storage and transmission is created using blockchain technology and blockchain-Web3 application cases in the healthcare industry.
Non-Fungible Tokens (NFTs): Backed by blockchain, NFTs are unique tokens that cannot be replaced and are used to track the ownership of physical or digital assets.
At its foundation, Web3 Blockchain gives medical professionals access to immutable digital blockchain technology to safely preserve patient data. This data is dispersed among nodes, making it impervious to manipulation.
On the other hand, a metaverse may make telemedicine or teleconsultation—both digital forms of healthcare—fun and immersive. Users have ownership rights thanks to Web3 tokens built on blockchain, such NFTs. By decentralising data and transferring ownership to individuals, this enables the healthcare system to concentrate on the patient. This denotes a major transformation in healthcare.
Patient data ownership and management: Web3 for Healthcare is often used to handle data in significant healthcare organisations. Every patient that visits a hospital has their own particular set of symptoms, restrictions, ailments, and treatments. Every patient must have a unique medical file. The fact that the hospital may have hundreds of thousands of visitors each day makes this challenging for management.
Medical practitioners may utilise smart contracts to store their patients’ medical records on the blockchain. The created public key or unique ID is the only way to access the data. A public key or ID must be present for every doctor who wants access to the data. To access the data, the public key is necessary. The information is not accessible to any healthcare provider who needs it. The professional, on the other hand, is always welcome to borrow the key from the keyholder. Data are now accessible to patients. As a result, their private information is protected.
Modern healthcare data management is readily hackable and exposed to security risks. The patients think it will be secure and safe. Because the pharmaceutical supply chain is not transparent, counterfeiting is growing in importance in the healthcare industry. The original material is altered and fabricated by illicit drug producers. Drugs with reduced levels of active chemicals or substances not indicated on the label are consequently produced.
If people eat it, it might be harmful to their health and make their sickness worse. Pharmaceutical companies have worked to stop the sale of fake medications, but unauthorised makers have found a variety of strategies to pass off their products as real.
In especially at prestigious hospitals and institutes, cutting-edge medical technology in the present includes augmented reality, virtual reality, and robots. The ability to view a patient’s whole body in 3D helps surgeons plan and carry out surgeries. The utilisation of AR and VR for therapeutic purposes is not possible, though. The metaverse can provide what doctors need for effective surgical procedures.
Medical education: Currently, 2D graphics and films are the only formats available for medical instruction. Only students may see these movies and get knowledge from them. Students can work with dead bodies at several medical colleges. There are certain ethical issues and rules associated with this. This is an area where the metaverse has had a big influence. A number of healthcare organisations are actively utilising AR, VR, and MR technology to instruct students in anatomy.
Monetization and patient medical records: Under the existing system, patients can get care from a variety of medical facilities. Every hospital has a separate medical file. A patient will have ten medical records files if they visit ten different institutions for treatment. The healthcare system can become fragmented as a result, with no one central repository for patient health data. It’s possible for private patient information to be dispersed randomly across several sites.
Conclusion
The healthcare sector might be completely transformed by a Web3 development business. It has the power to integrate the system and give data back to people who, from the start, ought to have owned it. Healthcare goliaths now possess the data and have total control over it.
To make a substantial profit, they could secretly sell the data to third parties. Your web application idea for your healthcare institution might come to life with the assistance of Suffescom Solutions, a Metaverse development company. Contact us if you have any questions about the infrastructure of the healthcare system.
