scholarly journals Improvement of patient safety through implementation of electronic medical records

2017 ◽  
Vol 1 (4) ◽  
pp. 111-112
Author(s):  
Elahe Gozali ◽  
Marjan Ghazisaiedi ◽  
Malihe Sadeghi ◽  
Reza Safdari

Introduction: Today, with the complexity of the process of conducting activities, the increase in diversity and the number of hospital services, and the increase in the expectations of clients - consistent with the fast technological advances - most of the hospitals in Iran have turned to mechanized systems to organize their daily activities and to register the patients' information and the care provided. One of these technologies is electronic medical records, which is known as a valuable system to evaluate patients' information in hospitals. The purpose of this paper was to examine the advantages of running electronic medical records in patient safety. Methods: This study is a review paper based on a structured review of papers published in the Google Scholar, SID, Magiran, Pubmed, and Science Direct databases (from 2007 to 2015) and the books on the benefits of implementing electronic medical records in patient safety and the related keywords. Results: Clinical information systems can have a significant effect on the quality of the outputs and patient safety. Various studies have indicated that the physicians with access to clinical guidelines and features such as computer reminders, doctors who did not have these features, presented more appropriate preventive care. Studies show that electronic medical records play a crucial role in improving the quality of patient health and safety services. Moreover, electronic medical record system is usually in connection with other technological tools: electronic drug management records,  electronic record of time and date of drug management are usually associated with bar code technology. Among the benefits of this system is the possibility to record clinical care by the treatment team, which would be especially beneficial for patient's bedside record. If the treatment personnel forgets to ask the patient a particular question, system reminds him/her. Furthermore, electronic medical record is able to remind the nurses of the patient's allergic reactions and medical history without the need for the patient to remind, which improves patient safety. Conclusion: Implementation of electronic medical records boosts up the quality of health services, patient safety, people's access to health care services, and the speed of patients treatment, leading to lower healthcare costs. Thus, considering the benefits mentioned and some other benefits of this kind, one can use this technology in clinical care provided to patients to come up with a safe and effective clinical care.

Author(s):  
Dean E. Johnson

For many years the electronic medical record has been the holy grail of hospital system integration. Hundreds of millions of dollars have been spent in attempts to develop effective electronic medical records (EMR) to provide clinical care for patients. The advantages of an EMR are listed as reducing error, streamlining care, and allowing multiple people to provide simultaneous care. Unfortunately, most current EMR implementations are developed without completely understanding the processes that are being automated. In some implementations, there is an effort to first outline the process, and then try to create software that will facilitate the existing process, but this effort is not typically done systematically or with the discipline of an engineer. We will discuss the areas that management systems engineers can facilitate the design and implementation of the EMR, reducing the errors in the current processes and preparing the healthcare system for further improvements.


2004 ◽  
Vol 43 (05) ◽  
pp. 537-542 ◽  
Author(s):  
R. Klar

Summary Objectives: To present an overview of early European and American work on Electronic Medical Records and patient information. Method: The invited lectures of “pioneers of electronic patient information” given at the farewell symposium of Wolfgang Giere in Frankfurt, Germany, are summarized and discussed. Results: The origin of medical record writing goes back to Hippocrates and over many centuries this important medical duty was regarded as an annoying, laborious and error-prone task. First steps towards a better medical record started in 1936 with punch cards. In the 1960s the minimum basic data set, a unique patient ID was introduced and even for outpatients first com-puterized medical record systems were developed applying some important standards and well accepted data structures. Nowadays multimedia are included in patient record systems, highly specialized subsystems e.g. for radiology or cardiology are available, and semantic and statistic mining techniques as well as medical classifications and standardized terminologies support evaluation. All these methods should primarily improve the quality of care, reduce errors, improve communication between multiple specialists, reduce wait times for patients and improve efficiency. Conclusions: Over decades it became obvious that the structure of a medical record notably for coded data but also for narrative text and pictures must be carefully modelled. Well maintained standardized health terminologies and medical classifications are important issues for a user-friendly electronic medical record, which bring benefits for clinicians and patients.


2017 ◽  
Vol 7 (1) ◽  
pp. 11-13
Author(s):  
Steven A Olson ◽  
Maria Manson

ABSTRACT The increasing adoption of electronic medical record (EMR) systems has added complexity to performing clinical research in today's care environment. Each of the contributions from Duke University within this journal has interfaced with the systems for performing clinical research described in this study. While the increased use of EMRs has aided many aspects of clinical care, the logistics of doing the work of clinical research is seldom discussed. In this review, we briefly outline current practices regarding clinical research as they relate to interface with the EMR. Olson SA, Manson M. Logistics of Clinical Research in the Age of Electronic Medical Records. The Duke Orthop J 2017;7(1):11-13.


Author(s):  
Katherine Blondon ◽  
Frederic Ehrler

Patient-generated health data (PGHD), when shared with the provider, provides potential as an approach to improve quality of care. Based on interviews and a focus group with stakeholders involved in PGHD integration in the electronic medical record (EMR), we explore the benefits, barriers and possible risks. We propose solutions to address liability concerns, such as clarifying patient and provider expectations for the analyses of PGHD and emphasize considerations for future steps, which include the need to screen PGHD for patient safety.


2021 ◽  
Vol 2021 ◽  
pp. 1-11
Author(s):  
Yang Liu ◽  
Zhaoxiang Yu ◽  
Yunlong Yang

In today’s society, the development of information technology is very rapid, and the transmission and sharing of information has become a development trend. The results of data analysis and research are gradually applied to various fields of social development, structured analysis, and research. Data mining of electronic medical records in the medical field is gradually valued by researchers and has become a major work in the medical field. In the course of clinical treatment, electronic medical records are edited, including all personal health and treatment information. This paper mainly introduces the research of diabetes risk data mining method based on electronic medical record analysis and intends to provide some ideas and directions for the research of diabetes risk data mining method. This paper proposes a research strategy of diabetes risk data mining method based on electronic medical record analysis, including data mining and classification rule mining based on electronic medical record analysis, which are used in the research experiment of diabetes risk data mining method based on electronic medical record analysis. The experimental results in this paper show that the average prediction accuracy of the decision tree is 91.21%, and the results of the training set and the test set are similar, indicating that there is no overfitting of the training set.


Jurnal Medali ◽  
2021 ◽  
Vol 3 (1) ◽  
pp. 20
Author(s):  
Adam Reza Pahlevi ◽  
Erdianto Setya Wardhana ◽  
Erna Dwi Agustin

Background: An electronic medical record is a medical system that can be used to store information about the track of a patient`s health. The completeness format of Electronic Medical Record used the format of Electronic Medical Record Guidance from Health Ministry Year 2015. The safety of electronic medical records has 6 aspects as follows privacy, integrity, authenticity, availability, access, control, non-rapadiatum.Method: This research aimed to know the description of the completeness format and the safety of The Electronic Medical Record at RSIGM Sultan Agung Semarang. This research used descriptive observational using a cross-sectional method. The subject of this study was Electronic Medical Records in March 2020. The samples were selected according to the inclusion criteria obtained from RSIGM Sultan Agung SemarangResult: The result of this research was used to know the description of the completeness of Electronic Medical Record Format and the safety of Electronic Medical Record at RSIGM Sultan Agung Semarang.Conclusion: The conclusion of this research showed Electronic Medical Record had been applied at RSIGM Sultan Agung Semarang but there are still lack in the informed consent form and the informed refusal, the safety of the electronic medical record was still lack in the electronic signature format.


Sensors ◽  
2021 ◽  
Vol 21 (22) ◽  
pp. 7765
Author(s):  
Weizhe Chen ◽  
Shunzhi Zhu ◽  
Jianmin Li ◽  
Jiaxin Wu ◽  
Chin-Ling Chen ◽  
...  

With the popularity of the internet 5G network, the network constructions of hospitals have also rapidly developed. Operations management in the healthcare system is becoming paperless, for example, via a shared electronic medical record (EMR) system. A shared electronic medical record system plays an important role in reducing diagnosis costs and improving diagnostic accuracy. In the traditional electronic medical record system, centralized database storage is typically used. Once there is a problem with the data storage, it could cause data privacy disclosure and security risks. Blockchain is tamper-proof and data traceable. It can ensure the security and correctness of data. Proxy re-encryption technology can ensure the safe sharing and transmission of relatively sensitive data. Based on the above situation, we propose an electronic medical record system based on consortium blockchain and proxy re-encryption to solve the problem of EMR security sharing. Electronic equipment in this process is connected to the blockchain network, and the security of data access is ensured through the automatic execution of blockchain chaincodes; the attribute-based access control method ensures fine-grained access to the data and improves the system security. Compared with the existing electronic medical records based on cloud storage, the system not only realizes the sharing of electronic medical records, but it also has advantages in privacy protection, access control, data security, etc.


2017 ◽  
Vol 24 (2) ◽  
pp. 186 ◽  
Author(s):  
Anant Raut ◽  
Chase Yarbrough ◽  
Vivek Singh ◽  
Bikash Gauchan ◽  
David Citrin ◽  
...  

IntroductionGlobally, electronic medical records are central to the infrastructure of modern healthcare systems. Yet the vast majority of electronic medical records have been designed for resource-rich environments and are not feasible in settings of poverty. Here we describe the design and implementation of an electronic medical record at a public sector district hospital in rural Nepal, and its subsequent expansion to an additional public sector facility.DevelopmentThe electronic medical record was designed to solve for the following elements of public sector healthcare delivery: 1) integration of the systems across inpatient, surgical, outpatient, emergency, laboratory, radiology, and pharmacy sites of care; 2) effective data extraction for impact evaluation and government regulation; 3) optimization for longitudinal care provision and patient tracking; and 4) effectiveness for quality improvement initiatives.ApplicationFor these purposes, we adapted Bahmni, a product built with open-source components for patient tracking, clinical protocols, pharmacy, laboratory, imaging, financial management, and supply logistics. In close partnership with government officials, we deployed the system in February of 2015, added on additional functionality, and iteratively improved the system over the following year. This experience enabled us then to deploy the system at an additional district-level hospital in a different part of the country in under four weeks. We discuss the implementation challenges and the strategies we pursued to build an electronic medical record for the public sector in rural Nepal.DiscussionOver the course of 18 months, we were able to develop, deploy and iterate upon the electronic medical record, and then deploy the refined product at an additional facility within only four weeks. Our experience suggests the feasibility of an integrated electronic medical record for public sector care delivery even in settings of rural poverty.


Complexity ◽  
2021 ◽  
Vol 2021 ◽  
pp. 1-11
Author(s):  
Qiuli Qin ◽  
Shuang Zhao ◽  
Chunmei Liu

Because of difficulty processing the electronic medical record data of patients with cerebrovascular disease, there is little mature recognition technology capable of identifying the named entity of cerebrovascular disease. Excellent research results have been achieved in the field of named entity recognition (NER), but there are several problems in the pre processing of Chinese named entities that have multiple meanings, of which neglecting the combination of contextual information is one. Therefore, to extract five categories of key entity information for diseases, symptoms, body parts, medical examinations, and treatment in electronic medical records, this paper proposes the use of a BERT-BiGRU-CRF named entity recognition method, which is applied to the field of cerebrovascular diseases. The BERT layer first converts the electronic medical record text into a low-dimensional vector, then uses this vector as the input to the BiGRU layer to capture contextual features, and finally uses conditional random fields (CRFs) to capture the dependency between adjacent tags. The experimental results show that the F1 score of the model reaches 90.38%.


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