Invented by Roderick A. Hyde, Edward K. Y. Jung, Jordin T. Kare, Eric C. Leuthardt, Royce A. Levien, Richard T. Lord, Robert W. Lord, Mark A. Malamud, John D. Rinaldo, Jr., Dennis J. Rivet, Clarence T. Tegreene, Lowell L. Wood, JR., Invention Science Fund II LLC

The market for Evidence-based Healthcare Information Management Protocols In recent years, the healthcare industry has witnessed a significant shift towards evidence-based practices. Evidence-based healthcare information management protocols have emerged as a crucial tool for healthcare providers, researchers, and policymakers to make informed decisions and improve patient outcomes. As a result, the market for these protocols has experienced substantial growth and is projected to continue expanding in the coming years. Evidence-based healthcare information management protocols are designed to ensure that healthcare decisions are based on the best available evidence from clinical research, patient preferences, and clinical expertise. These protocols provide a standardized framework for collecting, analyzing, and interpreting healthcare data, allowing healthcare professionals to deliver high-quality care and improve patient safety. One of the key drivers behind the increasing demand for evidence-based healthcare information management protocols is the growing emphasis on quality improvement and patient-centered care. Healthcare organizations are under increasing pressure to deliver better outcomes, reduce costs, and enhance patient satisfaction. Evidence-based protocols help healthcare providers achieve these goals by providing them with reliable and up-to-date information on the most effective treatments and interventions. Furthermore, evidence-based healthcare information management protocols play a crucial role in promoting interoperability and data sharing across different healthcare systems. With the advent of electronic health records (EHRs) and other digital health technologies, there is a vast amount of healthcare data being generated. However, this data is often fragmented and not easily accessible or usable. Evidence-based protocols help standardize data collection and management, facilitating the integration and analysis of healthcare information from various sources. The market for evidence-based healthcare information management protocols is also driven by the increasing adoption of value-based reimbursement models. In these models, healthcare providers are reimbursed based on the quality and outcomes of care rather than the volume of services provided. Evidence-based protocols enable healthcare organizations to demonstrate the value of their services by aligning their practices with the latest evidence and best practices. Moreover, the market for evidence-based healthcare information management protocols is supported by advancements in technology and data analytics. With the advent of artificial intelligence (AI) and machine learning, healthcare organizations can leverage these technologies to analyze vast amounts of healthcare data and generate actionable insights. Evidence-based protocols can be integrated into AI-powered systems, enabling real-time decision support and personalized care recommendations. In conclusion, the market for evidence-based healthcare information management protocols is witnessing significant growth due to the increasing demand for quality improvement, patient-centered care, interoperability, and value-based reimbursement models. As healthcare organizations strive to deliver better outcomes and enhance patient safety, evidence-based protocols provide them with the necessary tools to make informed decisions and improve healthcare delivery. With advancements in technology and data analytics, the market for evidence-based protocols is expected to continue expanding, revolutionizing the way healthcare information is managed and utilized.

The Invention Science Fund II LLC invention works as follows

Structures are provided for signaling statuses or decisions (such as processing or transmitting medical records or other resources, etc.). conditionally. This signaling can be based in part on symptoms, regimen attributes or performance indicators (compliance indicators, for example). Privacy considerations (patient consent for example) or contextual factors can also be considered. Contextual considerations (being admitted to or in a facility for care, e.g. Sensor data or other determinants may be used. This may lead to an incentive (as in the case of a gift, for example). Intercommunication (e.g., telephone call) A device is being configured, for example (enabled, customized). Data distillations are being tracked or presented, or similar results.

Background for Evidence-based Healthcare Information Management Protocols

A method is provided by an embodiment.” In one implementation of the method, it is possible to create an electronic record for a first protocol, which includes one or more instances such as diagnostic evaluations or regimen implementations or medical interventions. For a specific condition (including one or more instances, for example, of injuries, complaints or pathologies), the method includes but is not limited to causing an electronic record of a first protocol (comprising a diagnostic evaluation, regimen implementations, or medical interventions, e.g.). Annotating the electronic record with a scan from a document, and retrieving it after the electronic document of the protocol has been annotated. This is based partly on the indication that a patient first undergoes the protocol and partly on the indication of an institution readmission. Other method aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a system. In one implementation, circuitry is provided for annotating an electronic record for a first protocol of a condition with a scan from a document. Circuitry is also provided for retrieving an electronic record for the first program after it has been annotated. The scan is based partly on the indication that a patient is undergoing the protocol and partly on the indication of institutional readmission. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a product including a computer-programme. In one implementation, an article of manufacture may include but not be limited to a signal bearing medium configured with one or more instructions relating to annotating an electronic record for a first procedure for a condition with a scan from a document. The article of manufacture can also retrieve the electronic document of the first procedure after it has been annotated by the scan based partly on an indication that a patient is undergoing the protocol and partly on an indication that an institution is readmitted. Other computer program product features are described, in addition to those already mentioned, in the claims and drawings that form a part the present disclosure.

An embodiment is a system.” The system may include, but not be limited to, a computing device with instructions in one implementation. When the instructions are executed on the computing devices, the computing devices configure themselves to cause an electronic record for a first protocol of a condition to be annotated by a scan from a document. They also configure them for retrieving the electronic records of the first protocols after the electronic records of the protocol have been annotated based partly on an indication that a patient is undergoing a protocol for the first time and partly on an indication that an institution has readmitted. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a method. In one implementation, a method may include but not be limited to: obtaining an indicator that a specific condition was treated by a patient using a first protocol. Adding the indication to a record for a second-patient; retrieving the second-patient’s record selectively based on an association with an indication of institutional readmission. Other method aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a system. In one implementation, a system may include circuitry that obtains an indication that a specific condition has been treated by a patient using a first protocol. Circuitry that causes a record for a second to contain the indication that this particular condition is treated by the patient using the first protocol. Other system aspects, in addition to those described above, are described in the claims and drawings that form a part the disclosure.

An embodiment” provides an article of manufacturing that includes a computer-programme product. In one implementation, an article of manufacture may include but not be limited to: a signal-bearing media configured with one or more instructions relating to obtaining an indicator that a specific condition was cured in a patient using a first protocol. causing the indication to appear in a record for a second person; retrieving the record after an association is made between the record for the second person and an indication of institutional readmission. Other computer program product features are described, in addition to those mentioned above, in the claims and drawings that form a part the present disclosure.

An embodiment is a system.” The system may include, but not be limited to, a computing device or instructions in one implementation. When the instructions are executed on the computing devices, the computing devices configure themselves to obtain an indication that a certain condition was diagnosed and treated by a patient using a first protocol. They also cause a record for a second person to include an indication that this particular condition has been treated with a patient using a first protocol. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

A method is provided by an embodiment. In one implementation, a method may include, but not be limited to, obtaining an indication that a protocol is being used in relation to the condition of a patient, requesting an efficacy indication from an entity based partly on an entity validating a protocol and partially based upon a communication delay of the protocol. The communication delay is greater than one hour. Signaling a decision to update the prominence of the protocol in response to the received effectiveness indication based partly on an entity validating a protocol and partly on Other method aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

A system is provided by an embodiment. In one implementation, a system may include, but not be limited to, circuitry to obtain an indication that a protocol is being used in relation to the condition of a patient, circuitry to request an effectiveness indication from an entity based partly on an entity validating a protocol, and partly on a communication delay of the protocol associated with a communication delay of more than one hour, and circuitry to signal a decision on whether to update the prominence indication for the protocol based upon whether the effectiveness indicator of the protocol has been Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides an article of manufacturing including a computer-programme product. In one implementation, an article of manufacture may include, but not be limited to, a signal-bearing media configured with one or more instructions relating to obtaining an indicator of a protocol employed by a patient in relation to the condition of that patient, requesting a effectiveness indication from an entity based partly on an entity validating a protocol and partially based upon a communication delay of the protocol associated with a delay of at least one hour, and signaling whether to update the prominence indication for the protocol in response Other computer program product features are described, in addition to those mentioned above, in the claims and drawings that form a part the present disclosure.

An embodiment is a system.” The system may include a computing device or instructions in one implementation. When the instructions are executed on the computing devices, they configure the computing devices to obtain an indication that a protocol is being used in relation to the particular condition of a patient. They also request an effectiveness indication from an entity based partly on an entity validating a protocol and partially based upon a communication delay of a protocol. The communication delay of a protocol exceeds one hour. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

A method is provided by an embodiment.” The method may include, but not be limited to: obtaining an associated between a condition and a protocol. Comparing the threshold with a prominence indicator of treating that condition with the protocol. Other method aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a system. In one implementation, a system may include circuitry that obtains an association between a condition and a protocol. Circuitry is also provided for comparing a threshold with a prominence indicator of treating a condition with a protocol. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides an article of manufacturing including a computer-programme product. In one implementation, an article of manufacture may include but not be limited to: a signal-bearing media configured with one or more instructions relating to obtaining a relationship between a condition and a protocol. After achieving the association with the protocol for the condition in question, the medium is used to compare a threshold with a prominence indicator of treating that condition using the protocol. Other computer program product features are described, in addition to those already mentioned, in the claims and drawings that form a part the present disclosure.

An embodiment is a system.” The system may include, but not be limited to, a computing device or instructions in one implementation. When the instructions are executed on the computing devices, the computing devices are configured to obtain an association between a specific condition and a protocol. They also cause a comparison of a threshold with a prominence indicator of treating that particular condition using the protocol. Other system aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

An embodiment” provides a method. The method may include, but not be limited to, obtaining a relationship between a care management space and a device, obtaining a consent from a patient via a second mobile device conditionally authorizing release of a medical record and causing the device to receive a medical record based partly on the second device entering a care management space, and partly on the consent of the patient authorizing release of the medical record. Other method aspects, in addition to those described above, are described in the drawings, text, and claims that form a part the present disclosure.

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