Walmart’s ongoing investigation of blockchain technologies seems to have intersected with its growing interest in joining the healthcare space, according to a patent application released earlier this week by the US Patent and Trademark Office. According to the document, which was filed in December, the retail giant is seeking to protect a method that allows a patient’s EHR to be obtained from a blockchain database even if they are unable to communicate.
Doing so would require verification from two different keys: a public key stored in a wearable that would be scanned by emergency responders via RFID, and a private key that is obtained by scanning a biometric signature from the patient. The appeal of storing a patient’s EHR on blockchain is the relative difficulty of an unintended party accessing or modifying their data, the company wrote in its application.
Both a public and private key are required to before the system will allow access to the patient’s record, with the private key being specific to each individual user. “If medical records were stored on the blockchain, the private key of the patient would be needed to view/modify the records.
In the case where a user is unconscious or incapacitated in an emergency, a first responder could not access the user’s medical records stored on the blockchain,” the company wrote. “Thus, there is a need for a method and system for obtaining a medical record stored on the blockchain when the owner of the private key cannot readily provide the private key.” The application envisions a number of potential form factors for the wearable device, such as a bracelet, a ring, or a necklace. This wearable could store the public key and the encrypted private key within a memory drive or, alternatively, house a version of the EHR that would be unlocked with both keys if a cloud-based storage solution is less desirable.
Accompanying this would be an RFID scanner, which scans the wearable to obtain the public key, and a separate biometric scanner device that would verify a bodily feature of the patient (at least a fingerprint, an iris, a retina, and a facial feature, for instance) to grant access to the private key. Taken together, the method would allow a care team or first responders to quickly access a patient’s complete medical record, while keeping the record itself inaccessible to others in the meantime. Read more from mobihealthnews.com…
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