Healthcare Web Services by E-Governance

Greener Journal of Computer Sciences

The purpose and the goal of the paper is using a semantic web and XML (the Extensible Markup Language) technologies for managing medical information during a diagnostic process is studied. Following a steady international move towards optimization of health care delivery, the latest development in information technology has drawn the health care industry decision makers' attention. The introduction of proper information technology innovations within the health care processes should provide the necessary optimization. In this manner can be proposed an approach to manage medical data during the whole diagnostic process using the semantic Web and XML technologies. The purpose of the Semantic Web is to bring structure to the content of Web pages allowing software agents to carry out intelligent tasks for the user. This opens a new set of opportunities that can be utilized to improve health care management on a personal and health care provider level.The aim of this paper in progress is to identify the needs and match them to the services possible with the Semantic Web. In this paper, presented an ontology-based framework that successfully combines both Semantic Web and XML technologies to enable the integrated access to biological data sources. The main goal is the seamless integration and application of these technologies in such a way that their deficiencies are over come and their utility maximized.

Lecture Notes in Computer Science, 2014

Information Technology is an important part of the healthcare environment. Accuracy and integrity of the information in any hospital system is necessary. Then, this information has to be up-to-date as well to achieve continuous quality improvement in any organization and particularly in a complex area like healthcare. Therefore, diverse information systems must be integrated across the healthcare enterprise. The main objective of this research is to develop a framework for the exchange of patients records located in different hospitals in Saudi Arabia, adding insurance and prescriptions information along with the patient's record to facilitate the insurance process and to automate the medicine prescription process that is currently manual in most hospitals. The proposed framework aims to improve the regular ways of obtaining patients medical records separated in each hospital. For instance, if a particular patient has different medical records in different hospitals visited by that patient, our architecture focuses on the method by which data should be searched and retrieved efficiently from a database on the cloud from different hospitals by preprocessing the data in current hospital's and saving them in the database that resides on the cloud. Our system design is based on cloud computing service oriented architecture. Some of the information included in these medical records is: medical history, prescribed medications and allergies, immunization status, laboratory and test results, radiology images, personal stats like age and weight, diagnoses, order tests and appointments. All of these records are identified by the national ID of the patient. these systems will be utilized by web services asp.net based framework, the doctor will use his/her ID and password to enter the system for security and then enter the patient's ID to send a request for that patient's record that will be sent back to the doctor, the record will be up-to-date since the last visit of the patient to any hospital in Saudi Arabia. The main aim of this study is to provide a data exchange model of patients records, it is used to decrease the time and cost of patients, and help doctors to get up-to-date and accurate information of patients from the records from any hospital in Saudi Arabia. By using e-Patient medical records and Mirth Connect program which use HEALTH LEVEL 7 (HL7) protocol. HL7 protocol is a standard information format of healthcare for data exchange. We provide a single, complete automated patient medical record to give a better Enhanced Hospital Information System by Cloud Computing: SHEFA'A 57 patient care that avoids medical mistakes due to lack of information and unavailability of medical records.

Advances in Engineering Scientific Research, 2015

An examination of many hospitals that recently implemented in King Saudi Arabia(KSA) a little electronic health record (EHR) system finds that clinical and administrative leaders built EHR adoption into their strategic plans to integrate inpatient and outpatient care and provide a continuum of coordinated services. Using Relational Data Base Management (RDM) and eXtend Marker Language (XML) Systems .Successful implementation depended on: strong leadership, full involvement of clinical staff in design and implementation, mandatory staff training, and strict adherence to timeline and budget. The EHR systems facilitate patient safety and quality improvement through: use of checklists, alerts, and predictive tools; embedded clinical guidelines that promote standardized, evidence-based practices; electronic prescribing and test-ordering that reduces errors and redundancy; and discrete data fields that foster use of performance dashboards and compliance reports. The system will be developed using PHP Hiper Page(PHP) as web based system.

2001

Due to the greater mobility of the population, national and international healthcare networks are increasingly used to facilitate the sharing of healthcare-related information among the various actors of the field. This sharing of information resources is generally accepted as the key to substantial improvements in productivity and better quality of care. Comprehensive medical information about a patient is difficult to

This study conducted a research on the implementation of cloud computing in health care organizations, focused on integrated model of patient medical record information system using health care standard information format for data exchange. Health care organizations use variety of IT applications and infrastructures which always need to be updated as a result of rapid growth in health care services. The diversification on how health care organizations maintaining their operations, especially on maintaining patient's medical information resulted the difficulty of accessing patient's data. This study then proposed a design of an integrated cloud-based e-medical record which uses ICD-10 and HL7.

Fourth International Conference on Information Technology (ITNG'07), 2007

Patients' medical information is dispersed on several providers' medical information systems making personal medical information management a difficult task for patients. Given this situation, there is a need for patients to be able to easily access their patient data from the different providers' systems so as to promote effective management of their medical information. The main objective of this work is to propose a design for a system that will alleviate the personal health information management process for patients by providing them a single point of access to their medical information from disparate healthcare providers' systems over the Internet. The proposed design for this system is based on Extensible Markup Language (XML) web services. An evaluation of a prototype shows that the design allows patients an easy means of managing their health information and the design is also scalable, extensible, secure and interoperable with disparate healthcare providers' information systems.

2006

In this paper, we present a medical information system architecture allowing doctors to share information through the Internet. We also discuss a study on medical diagnosis process, describing the entrance and storage of the patients' information and the doctors' interaction. Thus, we propose a medical information system architecture. We develop this architecture trough a MDA (Model Driven Architecture) approach in which the PIM (Platform Independent Model) is conforming to UML, and the PSM (Platform Specific Model) is conforming to Web Services Platform. In order to implement this medical information system, we provide metamodels for JWSDP (Java Web Services Developer Pack) and Oracle's framework for Web Services. Thus, we provide transformation definitions from UML (Unifying Modeling Language) to Web Services, JWSDP and Oracle's framework for Web Services.

— Theoretical Successful sending of Electronic Health Record enhances tolerant security and nature of care, however it has the essential of interoperability between Health Information Exchange at various doctor's facilities. The Clinical Document Architecture (CDA) created by HL7 is a center record standard to guarantee such interoperability, and engendering of this archive configuration is basic for interoperability. Lamentably, clinics are hesitant to receive interoperable HIS because of its organization fetched with the exception of in a modest bunch nations. An issue emerges notwithstanding when more healing facilities begin utilizing the CDA archive arrange on the grounds that the information scattered in various reports are difficult to oversee. In this paper, we portray our CDA report era and incorporation Open API benefit in light of distributed computing, through which doctor's facilities are empowered to advantageously create CDA archives without purchasing restrictive programming. Our CDA archive combination framework incorporates various CDA records per tolerant into a solitary CDA report and doctors and patients can peruse the clinical information in sequential request. Our arrangement of CDA report era and joining depends on distributed computing and the administration is offered in Open API. Engineers utilizing distinctive stages along these lines can utilize our framework to improve interoperability. Keywords-Health information exchange, HL7, CDA, cloud computing, software as a service.

International Journal of Mechanical and Production Engineering Research and Development, 2020

Health systems are in constant change, either due to technological progress or due to the same need produced by external agents such as COVID-19, which have caused an analysis of all the information systems dedicated to the various procedures in the health area, from clinical information management, information from health insurers, image information management, drug supply management, medical supplies and supplies management, among other systems specific to each health institution. It is in this environment where a lot of vital information for decisionmaking is produced that in most cases is impossible to manage, because it is found on different platforms and in most cases in different institutions. The present research presents a methodology for the exchange of information between systems based on the interoperability of systems and using the XML standard, very similar to what the HL7 protocol advises, the implementation of the methodology can be synchronous or asynchronous depending on the degree. of need that is required to use and depending on the different users who require to share their information. The results show the practicality of the implementation and that these can be implemented in the shortest time possible using communication between messages following the protocol presented, which will depend on the information required, the implementation can be done by reading the message and loading the case system Contrary to being able to enter the system directly, its application will depend on the ease of being able to update the information systems that are running.