Tag: healthcare blockchain

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Blockchain

Blockchain: Unlocking Healthcare Data to Empower Patients and Improve Care

“Blockchain has the power to: a) reduce costs and increase operational efficiency, b) build trust while improving the quality of comprehensive care and c) empower individuals to take charge of their health. It’s time for us to reimagine the future of healthcare information technology.”

– From Blockchain: Unlocking Healthcare Data to Empower Patients and Improve Care

In a recent blog post for the Healthcare Information & Management Systems Society (HIMSS), Patientory CEO Chrissa McFarlane shares her vision for the application of blockchain to healthcare data. If correctly implemented, blockchain technology could help empower patients and improve care by providing these specific benefits:

  • Aggregated personal health information
  • Improved data security and integrity
  • Patient-centered control of data access and use

To learn more about how Patientory’s distributed application contributes to these goals, click here.

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Blockchain Events

Blockchain Panels from ConV2X Now Available for Listening

Patientory attended ConVerge2Xcelerate in October, a healthcare modernization event that brought together the foremost innovators and leaders in blockchain technology, telehealth, AI, and other technologies. The intention of the conference was to address the most compelling issues, growth opportunities, and financial implications of these technologies for the healthcare industry.

Patientory CEO Chrissa McFarlane spoke on two different blockchain-focused panels at the event. The full audio for both panels is now available from Blockchain in Healthcare Today. Follow the links below to listen to the discussions.

Panel 1: Tokens & The Internet of Value: Blending Game Theory, Computer Science, Psychology, and Economics

Panel 2: Data Sharing? The Case for Blockchain at the Global Convergence of Healthcare, Life Sciences, and Consumer Markets

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Blockchain Events

Blockland Solutions Conference Highlights Cleveland’s Blockchain Efforts and Patientory

Cleveland, Ohio is working hard to lead the way in becoming a cryptocurrency and blockchain friendly city. There is a downtown technology hub in the works as well as a new think tank devoted to blockchain technology research and adoption. Many of the region’s universities, such as Baldwin Wallace, are already incorporating blockchain into curriculums. Additionally, Ohio just became the first state in the nation to accept cryptocurrency for business tax payments.

Patientory had the pleasure of experiencing Cleveland’s technological drive at the inaugural Blockland Solutions: Blockchain for Business & Government, a conference at the start of December. Both the presentation and the healthcare panel featuring CEO Chrissa McFarlane went very well, and we were highlighted as a premier blockchain company. We also discovered opportunities to build case studies with healthcare organizations for enterprise-level adoption of blockchain.

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Blockchain Events

Patientory Participates in a Healthcare Panel at Blockland Cleveland

Blockland Cleveland: Healthcare Block Study panel

Yesterday, Patientory Founder and CEO Chrissa McFarlane was one of the panelists for the Healthcare Block Study during Blockland Solutions: Blockchain for Business and Government. Blockland Solutions, Cleveland’s first blockchain conference, continues through today and has a focus on real-world problem solving and business and government applications of blockchain technology. Check out images from the panel in the gallery below.

Panelists Pictured

Akram Boutros, President & CEO, The MetroHealth System

Evin McMullen, Project Lead at Linnia, a startup within the ConsenSys family of companies

Stephanie Perez, Associate Director, R3

Dr. Shane McNamee, Chief Medical Officer, mdlogix

Chrissa McFarlane, Founder & CEO, Patientory

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Blockchain Patients

The Dark Side of Medical Data Trading

Longitudinal data, i.e. data collected from an individual at multiple points in time, can be very useful to medical researchers and provide valuable insights into health and illness. A famous example is the Framingham Heart Study, which was initiated in 1948 and continues on today. Researchers have followed three generations of participants, collecting and analyzing data to successfully identify the common characteristics and risk factors associated with cardiovascular disease. This type of health data use is common in clinical research and epidemiology, where aggregated data can reveal important information that leads to improved patient care and public health practices. However, health researchers motivated by advancing medical science are not the only ones interested in longitudinal data collection. Commercial companies motivated by profit are interested too.

There is a multi-billion dollar industry that exists around the buying and selling of medical data. Despite the fact that this is a common practice, many people are unaware of it. Data brokers pool data from hundreds of millions of pharmacy prescriptions, medical records, insurance claims, etc., and then slice and dice the information to sell to interested parties. This is technically allowed under the Health Insurance Portability and Accountability Act (HIPAA) because the data is intended to be anonymous. The medical information is not tied directly to a name, social security number, or detailed address. However, data brokers still add unique numbers to the data they collect, which allows them to build detailed patient dossiers by linking different pieces of information to the same individual. And with today’s advances in data mining technology and the vast amount of data available, the re-identification of anonymized data has only gotten easier.

Overall consumers have a troubling lack of control when it comes to their own medical data. We’d like to think the information we share with our healthcare providers remains private but this is not the case. In fact, the legal right of commercial companies to collect and sell health information without the explicit permission of the patient has been upheld by the Supreme Court. In the 1990s, the dominant player in the medical data trading industry began selling data to pharmaceutical companies on what individual physicians were prescribing to patients. These drug companies would then use the information to better tailor and target marketing and sales efforts. Once people caught on and started to complain about the invasion of privacy for profit, a few states passed legislation to limit the trade of prescriber-identifiable information. The major data broker then took them to court and won on corporate “free speech” grounds.

So why are the rights of data brokers to sell data privileged over the rights of patients to manage their own health information? Patientory does not have an answer to this question but we do believe in the power of blockchain to shift this paradigm. Distributed ledger technology has the ability to democratize data access by securing and validating data through a network rather than a single database. In addition to addressing cybersecurity and interoperability issues, blockchain technology can place the control of medical data sharing into the hands of individual patients through an app like Patientory’s. We believe consumers have a right to access their own health information and limit or permit the use of it as they see fit.

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Blockchain Patients

Data Brokers Have Access to Your Health Information, Do You?

In today’s technology-driven world, data is an inevitable part of our lives. From fitness wearables to wireless medical devices to electronic medical records, the digitization of health information will continue to be a common practice. There is another common practice in the healthcare industry that most people do not like to talk about: medical data trading. A multi-billion-dollar market exists for information found in medical records, including prescription records, hospital visits, blood tests, insurance records, and doctor notes. Commercial companies are able to buy and sell this data without violating HIPAA because the information is not directly tied to an individual’s identity. However, the records bought and sold are often still associated with an age, gender, partial zip code, and a doctor’s name.

In the past, the stripping of a name, address, and social security number from a medical record would have been sufficient to protect anonymity. In today’s world, this is not the case as the re-identification of seemingly anonymized data is only getting easier. A straightforward data mining tool can easily cross-reference multiple databases to aggregate data and re-identify individuals from their theoretically private medical information. As an example, Harvard University Professor and computer scientist Latanya Sweeney was able to link zip codes, birth dates, and gender from a voter registration list to publicly available medical data, including hospital discharge records and health care cost data on hospital visits. And this was research conducted almost twenty years ago! The capabilities of data mining technology have only improved alongside the vast amount of data available today.

While consumers have the ability to increase the privacy of their non-medical data and control access to it, there is a frustrating lack of control when it comes to medical data. Even with the advent of electronic medical records, patients still do not have access to comprehensive health data across providers due to a lack of interoperability. Additionally, there is no way for patients to opt out of third parties using their anonymized health data for commercial purposes or otherwise. Theoretically, patients could choose healthcare providers based on whether or not their health information systems sell anonymized data, but in reality, this choice is limited by health insurance companies and specific health plans. If the patient is truly at the center of healthcare, then the management of health information needs to reflect that.

Patientory wants to change this narrative by applying blockchain technology to electronic health information. In addition to blockchain’s robust cybersecurity abilities, it can democratize data access in favor of the consumer. Instead of storing and distributing data through a single database, multiple copies of the same data are shared on a ledger distributed across a peer-to-peer network of users. When one copy of the ledger is changed, all of the other copies are updated in real-time and the validity is guaranteed by the network. By using a distributed application like Patientory’s to access electronic health records, patients will have the power to decide exactly who can access their medical data and for what purpose. The corporate rights of data brokers should no longer be privileged over the rights of consumers to control their own health data.

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Blockchain Public Health

Blockchain and Public Health: Estonia’s Experience

Did you know that the country of Estonia uses blockchain technology to ensure healthcare data security and electronic medical record integrity? Ninety-nine percent of patients have a countrywide digital record that integrates data from Estonia’s different healthcare providers to create a comprehensive record each patient can access online. One of the country’s technology partners, Nortal, writes more about Estonia’s use of blockchain here.

By providing individual citizens with a fully transparent and accurate view of their medical data, Estonia is empowering patients to take control of their health. While the scale and complexity of the United States’ healthcare system makes this more challenging to accomplish, Patientory believes patient-centered blockchain technology can lead the way in facilitating more effective health data practices.

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Blockchain Healthcare Providers Patients Public Health

Restoring Trust in Public Health with Blockchain Technology

Trust is essential to building and maintaining strong, healthy relationships, and the relationship between a patient and their healthcare provider is no exception. Patients with trust in their doctors are more likely to follow treatment plans and medical advice on lifestyle and family planning issues, reducing their lifetime cost of care and increasing their quality of life. A 1999 study found that sixty-two percent of patients with high levels of trust always take their prescribed medication and follow their doctor’s recommendations, but only fourteen percent of patients with low levels of trust do. As another example, for patients with H.I.V., trust in medical providers is associated with more clinic visits, fewer emergency room visits, increased use of antiretroviral drugs, and improved reported physical and mental health.

Mistrust, unfortunately, has been an increasing trend in healthcare. In 1966, almost three-fourths of Americans said they had great confidence in the leaders of the medical profession; by 2012 only one-third expressed this view. Combined with the overall decline in Americans’ trust in institutions the last few decades, the potential threats to public health become apparent. A lack of trust can lead to individual patients refusing vaccinations or forgoing the flu shot, which can have potentially deadly consequences for the greater population. During the 2014 Ebola outbreak, only thirty-one percent of the American public said they trusted public health officials to share complete and accurate information about the Ebola virus and a mere fourteen percent said they trusted the government to do the right thing. If these patterns of mistrust continue, future responses to public health emergencies could be drastically impaired.

So what can be done to rebuild trust in our healthcare systems? A recent report by Accenture reveals two clear steps that healthcare institutions can take: over ninety percent of health executives believe that treating customers as partners and ensuring the security of consumer data are both important or very important for gaining consumer trust. Consumer-centricity and data security are also two of the key benefits of blockchain technology, particularly when applied to electronic health records (EHRs). Traditional EHRs suffer from a lack of interoperability and cybersecurity due to varying practice standards and legacy IT systems. This makes sharing comprehensive health data securely across healthcare providers and institutions especially challenging and leaves consumers with little control over their own data.

Patientory is currently using the PTOYNet blockchain administered by the Patientory Association to shift this paradigm and empower patients to take control of their medical records. Blockchain, or distributed ledger technology, democratizes trust by removing the ‘middleman’ in transactions and allowing information to be recorded and shared by a community. Rather than relying on a central trust authority, blockchain relies on cryptography and a peer network for verification. All of the participants have a copy of the ledger updated in real time, providing a comprehensive, immutable record of information. Patientory’s blockchain-based distributed application allows patients to decide exactly who can access their health data and for what purpose. We believe improving consumer access to health data information is the first step to increasing trust in healthcare institutions.

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Blockchain Events

Women in HIT Are a Driving Force Behind Blockchain Technology

 

The Healthcare Information and Management Systems Society (HIMSS) recently hosted a webinar titled Women in Blockchain: Making a Difference in Healthcare through Distributed Ledger Technology. Patientory Founder & CEO Chrissa McFarlane was one of the three women in Healthcare Information Technology (HIT) featured, alongside Emily Vaughn of Change Healthcare and Heather Flannery of Blockchain in Healthcare Global.

These three women are considered to be “influential thought-leaders working with blockchain technology,” according to HIMSS. The webinar session covered their respective experiences breaking into the male-dominated field of blockchain and their applications of the technology to healthcare. Read more about how these women have become a driving force behind blockchain technology in healthcare here.

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Blockchain Healthcare Providers

Blockchain: The Defender of Healthcare Organizations against Cybercriminals

There has been a surge the past few years in ransomware attacks, one of the most problematic threats to cybersecurity. Cybercriminals are earning hundreds of thousands of dollars every month by deploying malware that locks victims’ computer files until a ransom fee is paid. There is a harrowing pattern found recently in these crimes: the targeting of hospitals and healthcare organizations. According to a 2016 report by NTT Security, a major cybersecurity firm, 88 percent of all detected ransomware attacks were against the firm’s healthcare clients, despite the fact that healthcare organizations made up only 7.4 percent of the firm’s client base. There have been numerous occurrences to evidence this trend over the last few years. Hollywood Presbyterian Medical Center declared an “internal emergency” after ransomware left patient files inaccessible by employees. Hancock Health, a hospital in Greenfield, Indiana, had more than 1,400 files locked with names changed to “I’m sorry” until a ransom was paid. The largest recent ransomware attack severely disrupted the UK’s National Health Service (NHS), forcing 45 NHS organizations to cancel operations and appointments. Unfortunately, this story goes on and on.   

So what makes hospitals and other healthcare facilities such appealing targets? Their daily operations completely depend on up-to-date information from electronic medical records. Healthcare providers need quick access to patient histories, drug allergies, surgery directives, and other critical information to provide the appropriate care. This means hospitals are more likely to pay ransom fees to avoid the risks of death or malpractice accusations brought on by delays in patient care. Additionally, medical data is extremely valuable. In fact, stolen health information is worth ten times more than a credit card number on the dark web. Fraudsters can use names, birth dates, billing information, policy numbers, and diagnosis codes to create fake medical identities that allow them to buy medical equipment and drugs or file fictional insurance claims. Finally, healthcare operations are often known for their aging legacy IT infrastructure and a focus on HIPAA compliance instead of employing robust IT security practices. These two factors also contribute to the lack of interoperability across healthcare providers and institutions, which makes securely sharing accurate, comprehensive medical data especially challenging.

Another trend found across these ransomware attacks is the request by cybercriminals for the ransoms to be paid in Bitcoin. Ironically, the technology that supports Bitcoin is also the most promising solution for the security of electronic medical records: Blockchain. Blockchain’s association with hackers gives blockchain an undeservedly bad reputation. Blockchain is not inherently evil, it is simply an effective tool that lazy criminals find easy to use. In fact, blockchain is an especially effective tool to fight against the hackers threatening health data security in exchange Bitcoins. This is true because blockchain is a distributed ledger or public record, that can store multiple copies of the same encrypted data across a network of users on multiple devices. When a hacker breaches a traditional database, they have access to large quantities of information. When a hacker breaches a blockchain, however, they only have access to one or two blocks of siloed data without the important context of the full blockchain.

As one might be able to tell from above, using blockchain to secure medical records would deter hackers from launching cyber-attacks because they would be unable to obtain any valuable health information. This would help healthcare organizations become much less appealing targets for cybercrimes and empower patients to take control of their medical data with a distributed application like Patientory’s. Our blockchain-based platform ensures end-to-end encryption of sensitive medical data and allows patients to decide who can access that information and for what purpose. We envision a future where blockchain has defeated the reign of ransomware and become a key defender of healthcare security.