CARE MANAGEMENT SOFTWARE

Patient Portal Personal Electronic Health Record

Patient-portal-personal-electronic-health-record-girl-cover-concept

Patient Portal Personal Electronic Health Record: Today, patients are treated by different healthcare professionals and medical specialists in varying healthcare facilities, especially when they are chronically ill. Particularly for these patients, it is essential to improve inter-sectoral and cross-sectoral patient treatment. One challenge is bringing together all the relevant data for medical care. The communication of healthcare facilities by using physician moderated electronic health records (EHRs) has the advantage to directly connect the primary systems of the healthcare facilities and hence makes it possible to transmit documents automatically. Personal health records (PHRs) are focused on the patient, empower the patient as the owner and manager of his medical data.
Keywords: eHealth; PEHR; e-Commerce; Web2.0; Personal Electronic Health Record; Patient Portal Personal Electronic Health Record

Over the last years we implemented our vision of a personal cross-enterprise electronic health record (PEHR) in Germany. PEHR architecture combines the benefits of EHRs and PHRs in one concept. Therefore, a project called INFOPAT “INFOrmation technology for PATient-entered healthcare”, funded by the German Federal Ministry of Education and Research has been initiated in Germany. The project aims to improve healthcare focused on the patient in different care settings and especially for chronically ill patients.

Patient Portal Personal Electronic Health Record: Central communication platform

The patient portal is the UI component for patients in the PEHR architecture. Figure 1 gives a conceptual view of the underlying architecture of the PEHR. The PEHR is seen as a central communication platform between different healthcare providers and the patient himself. One of the axioms is that the patient is in control of his medical data and decides who can send data towards his medical record and who gets access to his medical data by giving his consent. The sources of data are different healthcare providers’ information systems like electronic medical records (EMR) of e.g. hospitals, general practitioners, pharmacies or other healthcare facilities. The healthcare professionals get access to the permitted medical data via the professional portal. To give patients a view of the PEHR with standardised, IHE-based interfaces to the backend “PEHR core”, a patient portal has been developed.

Patient Portal Personal Electronic Health-Record

Patient Portal Personal Electronic Health Record: Figure 1. PEHR architecture

The patient portal is connected to the cross-enterprise health record core with the aim to collect all relevant medical data of one patient in a regional record, to give patients the possibility to access their medical data, to manage their medical data and to provide additional data. After evaluating different technologies for the implementation of the patient portal, we decided to base on Liferay as a technology platform. Requirements analyses with regards to the functional and non-functional requirements for a PEHR and particularly to the patient portal have been conducted. Furthermore, our project partners worked out a requirements catalogue within the INFOPAT project with a focus on patients suffering from colorectal cancer.

Currently, feasibility tests of the patient portal with patients are performed in two phases. The first phase was a pre-implementation study to get feedback for the development regarding usability and bug fixing, with given scenarios of use in laboratory conditions, participatory observation during the test with think-aloud-protocol and semi-structured interviews after the test. Next, a pilot implementation in a given setting is planned to test the patient portal in a productive environment with patients having gastrointestinal cancer.

The patient portal is divided into different functional sections. Figure 2 shows the architecture of the patient portal with the modules: login, registration, consent management, medication, documents, surveys, audit and emergency contact. The connectivity of the patient portal is designed to fit into any IHE-based system architecture.

Patient Portal Personal Electronic Health-Record

Patient Portal Personal Electronic Health Record: Figure 2. The architecture of the patient portal

Patient Portal Personal Electronic Health Record: Profile Page

We distinguish different user groups with different roles. Besides a mandatory administrator, there are two main groups of users: the patient and the study assistant. The study assistant registers the patient in the study context of the INFOPAT project and explains to the patient the functionalities of the patient portal. Patients log in with username and password. After successful authentication, the patient is led to the dashboard of the patient portal. This page gives an overview with information about the person logged in: name, date of birth and the last login. Furthermore, one can see whether new documents were sent to the PEHR since the last login. There is also a link to the medication platform and to the last medication plan if available. To give the patient the possibility to get more information to specific diseases, we integrated links to more information collected by our project partner within the INFOPAT project. From the dashboard, the patient can navigate to all other modules of the patient portal by choosing the respective tab.

The documents page shows all documents within the PEHR of the patient with the IHE document metadata. For displaying the document an in place viewer is opened. By using a filter the document list can be limited according to the selected criteria, e.g. when the document was created or added to the PEHR, the type of document or the specialty where the document was created.References:

Patient Portal Personal Electronic Health-Record

Patient Portal Personal Electronic Health Record: Figure 3. Patient portal – Dashboard

Within the consent management module which is based on a model for consent-based privilege management the patient is able to control the access to his record by giving rights to physicians to read his medical record and/or to add data to his medical record. For this purpose he first selects his healthcare provider (e.g. a department in a hospital or a general practitioner) and afterwards document classes or types (e.g. discharge letters) and puts them into a personal healthcare team. Afterwards, professionals related to this team are able to access the documents within the selected document classes or types, in some cases limited to a given validity period.

Patient Portal Personal Electronic Health Record: Patient able to manage medication

As an additional application, the patient is able to manage his medication in the PEHR. Therefore we adapted and included an existing medication platform. With this tool, it is also possible to save a medication plan in the patients’ PEHR. The patient can get more information about his drugs and gets warnings about possible adverse drug events. For research questions (e.g. patient-reported outcomes) it is possible to generate questionnaires within the patient portal and send them to a patient or a specific study group of patients. Thus, patients can fill in the questionnaires online. Finally, there is more functionality in the patient portal like adding emergency contact information. Last, to give the patient a transparent overview of which healthcare provider accessed his record or added data a UI to the IHE ATNA repository was implemented and provided to the patient.

Patient Portal for Personal Electronic Health Record.

Patient Self Service Portals

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The PEHR combines two different architectures of health-related records, EHRs and PHRs, in a unique way. Thus, the patient portal is a major instrument for managing the PEHR by the patients and to enable them to carry out their informational self-determination. When implementing the functionalities of the patient portal it was not easy to match the requirements and interests from patients and physicians. E.g. on the one hand patients may want to delete documents with stigmatising data from their medical record. On the other hand, physicians want an entire medical record to be able to treat the patient at best and don’t want information, on which they based their decision for medical therapy, to get lost. This is why physicians may rather download a copy of important documents in their local systems as proof in forensic issues.

Regarding the usability it is apparent that the consent management is not easy to realise. According to the so far received patient feedback, giving the patient an understanding of what he can manage and what consequences this might have is a complex endeavour. For this, an application study is currently performed and a research project is assigned to revise the functionalities and the usability of the consent management. Furthermore, the processing of the ATNA repository for the patient was difficult due to the volume of entries and the technical content. This has to be improved by representing the technical contents in a more comprehensible way.

Finally, there are additional requirements to develop. Patients, for example, would like to have a schedule in which they can obtain appointments from their healthcare providers automatically and functionalities for a proxy who is able to give assistance in managing his medical record. As a security requirement integrating a two-factor authentication for login is necessary for a productive environment, but in this field, a broad infrastructure is still missing. This features will be developed in future releases.

References:

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https://www.researchgate.net/publication/307606662
Exploring Complexity in Health: An Interdisciplinary Systems Approach 157 A. Hoerbst et al. (Eds.)
© 2016 European Federation for Medical Informatics (EFMI) and IOS Press.
This article is published online with Open Access by IOS Press and distributed under the terms
of the Creative Commons Attribution Non-Commercial License 4.0 (CC BY-NC 4.0). doi:10.3233/978-1-61499-678-1-157
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About Christian Krauter

The Founder of Datanova, a visionary and digital business solution architect with 24 years experience in the rapidly expanding fields ofinformation management systems, data governance and customer focused-strategy. Christian Krauter, is a recognised expert on analytical applications for Australian Government Services focused on improving client’s business results through cloud development, information management and data governance.