A computer implemented method of predicting the health and therapeutic behavior of patients and making treatment plan recommendations includes the steps of: receiving patient healthcare data having one or more conditions and limiting factors; determining a therapeutic behavior pattern of patient; determining unsuccessful therapies and successful therapies for each condition based on therapeutic behavior pattern; and calculating cost quote for successful therapies based on limiting factors for time period. A computer implemented method of providing cost effective therapy for a patient is also provided and includes the steps of: receiving patient healthcare data; determining unsuccessful therapies and successful therapies; calculating probability of disease progression; calculating possible therapies ranked by probability of successful treatment; calculate cost quote for possible therapies; and paying a smart contract for a selected therapy.

In one embodiment, a method for operating a system for management of implantable medical devices (IMDs), comprises: conducting communications sessions with a plurality of clinician programmer devices, wherein some of the communication sessions occur while the plurality of clinician programmer devices are engaged in respective programming sessions with IMDs; conducting communications sessions with a plurality of patient controller devices, wherein the communication sessions with the patient controller devices include communication of data pertaining to offline programming of IMDs; reconciling programming session data received from the plurality of clinician programmer devices with programming session data received from patient controller devices to identify instances of unauthorized IMD programming; and distributing revocation data to patient controller devices to be downloaded to corresponding IMDs, wherein the revocation data identifies cryptographic keys that are no longer trusted.

A system for managing medical data is disclosed, comprising a computing device to permit a user to upload a plurality of medical data files. A server comprises a server engine having an encryption module to encrypt the uploaded plurality of medical data files and store the plurality of encrypted medical data files in a database.

The present disclosure relates to a document management system and a computer-implemented method. Embodiments may include receiving, using a processor, information relating to a case being adjudicated at an electronic storage system. Embodiments may also include identifying, using a categorization process, one or more evidentiary elements relevant to the case being adjudicated and displaying information at a graphical user interface, the information including a view of a history, progression and a status of a medical condition associated with the case being adjudicated. Embodiments may further include generating a report or analysis based upon, at least in part, the information.

A system for cryptographically secured outputs from telemedicine sessions includes a computing device at a first location, the computing device configured to initiate a secure communication interface between the computing device and a client device associated with a human subject and at a second location, receive, from at least a remote sensor at the second location, a plurality of current biological data associated with the human subject, input, using the secure communication interface, an identifier of a biochemical element, determine, as a function of the plurality of current biological data, a tolerability of the biochemical element, and generate a digitally signed authorization datum as a function of the determination.

In one embodiment, a method to store data collected by a wearable cardioverter defibrillator (WCD) is described. The method includes connecting to at least one sensor and obtaining a signal from the at least one sensor. The method also includes analyzing the signal from the at least one sensor into usable data and cataloguing the data into one or more segments. The method encrypts the one or more segments and sends the encrypted one or more segments to a verified distributed network.

A patient identity and information manager (PIIM) is configured for establishing direct trust relationships between itself and (i) a particular patient; (ii) a biomarker monitoring device corresponding to the patient; and (iii) a medical care provider associated with the patient. The PIIM establishes: a first direct trust relationship corresponding to the patient by way of communication between the PIIM and a patient identification/biometrics module and establishment of a validated currently active patient identity; a second direct trust relationship corresponding to the biomarker data monitoring device by way of communication between the PIIM and the biomarker data monitoring device under the currently active patient identity; and a third direct trust relationship corresponding to the care provider by way of validating the care provider and providing the validated care provide with a biomarker data encryption key corresponding to each of the currently active patient identity and the biomarker monitoring device.

Disclosed is a contact center that stores data related to a consumer in a blockchain. More specifically, disclosed is a methodology for conducting and concluding a communication with the consumer; creating a record of the communication; encrypting the record of the communication with asymmetric cryptography; and updating the blockchain with the record of the communication.

Embodiments facilitate interoperability and secure determination of healthcare costs. An entity may receive a first Electronic Health Record (EHR) sub-block with patient medical coverage information and first treatments and may transmit a first Device Drug Information (DIR) sub-block comprising first treatment classes corresponding to each first treatment, first treatment class members corresponding to each first treatment class, and corresponding first treatment class member cost information. In response, the entity may receive a second EHR sub-block comprising second treatments each: associated with a corresponding first treatment, and selected from corresponding first treatment class members. Upon receipt of a transaction confirmation, the entity may augment a multi-dimensional blockchain with a multi-dimensional block formed by linking: a DIR block including second treatment information, an EHR block including information based on the second EHR sub-block and a transaction block. Payment assistance information determined from the second EHR block may be transmitted to a patient.

A computer implemented method of initiating a communication session between a client device and a server using an authentication key exchange protocol comprising: including the steps of receiving at the server from the client device a first communication to initiate the communication session, the first communication comprising a first session resumption indicator to indicate whether or not session resumption is required to be used by the client device; , and establishing, at the server, a session resumption state for the client device based on or in response to a value of the first session resumption indicator.