Health Information management
Asefeh Asemi
Abstract
This letter has been written to express my views on the increasing use of pervasive and mobile computing in health information systems. Pervasive and mobile computing has become increasingly important in the field of healthcare over the past decade. The use of mobile devices, wireless communication, ...
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This letter has been written to express my views on the increasing use of pervasive and mobile computing in health information systems. Pervasive and mobile computing has become increasingly important in the field of healthcare over the past decade. The use of mobile devices, wireless communication, and cloud computing has revolutionized the way healthcare is delivered, making it more efficient and accessible to patients as well as healthcare providers.Pervasive computing refers to the integration of computing technology into daily life. This includes the use of smart devices, such as smartphones, tablets, and wearable technology, to connect individuals to the Internet and to other devices. Mobile computing, on the other hand, refers specifically to the use of mobile devices to access information and communication. Both pervasive and mobile computing have the potential to transform the way healthcare is delivered, making it more patient-centered, personalized, and accessible.One of the most significant applications of pervasive and mobile computing in healthcare is the use of mobile health apps like MHealth. These apps can be used by patients to monitor their health, track their medication, and communicate with healthcare providers. For example, a patient with diabetes can use an app to track their blood sugar levels and send the data to their doctor in real time, allowing for quick adjustments to treatment plans. These apps could also be used to provide patients with education and support, helping them to manage their condition more effectively Another important application of pervasive and mobile computing in healthcare is the use of telemedicine. Telemedicine allows healthcare providers to communicate with patients remotely, using video conferencing and other technology tools. This can be particularly beneficial for patients who live in rural areas or who have mobility issues, as it allows them to access healthcare services without having to travel long distances. Telemedicine can also be used to provide patients with access to specialists who may not be available locally.In addition to healthcare apps and telemedicine, pervasive and mobile computing can be used to improve the efficiency of healthcare delivery. For example, electronic health records (EHRs) can be accessed from mobile devices, allowing healthcare providers to access patient information anywhere. This can be particularly useful in emergency situations, where quick access to patient data can be critical.Despite the benefits of pervasive and mobile computing in healthcare, there are challenges to their implementation. One of the biggest challenges is ensuring the security and privacy of patient data. Healthcare data is highly sensitive, and the use of mobile devices and cloud computing can increase the risk of data breaches. It seems indispensable that healthcare providers take steps to ensure the security of patient data, including the use of encryption and other security measures.Another challenge is ensuring that patients have access to the technology they need to benefit from pervasive and mobile computing. While smartphones and other mobile devices are becoming increasingly widespread, not all patients may have access to these technologies. Healthcare providers may need to provide patients with devices or other support to ensure that they are able to use related apps and other technology tools.In conclusion, the use of pervasive and mobile computing in healthcare has the potential to revolutionize the way healthcare is delivered, making it more patient-centered, personalized, and accessible. From healthcare apps to telemedicine, these technologies can improve the efficiency of healthcare delivery while providing patients with better access to care. However, there are also challenges to their implementation, including the need to ensure the security and privacy of patient data and to provide patients with access to the necessary technology. By addressing these challenges, healthcare providers can harness the power of pervasive and mobile computing to improve the health and well-being of their patients.
Health Information management
Asefeh Asemi
Abstract
This letter has been written to share the researcher’s thoughts on the topic of interactive intelligent health information systems. With the rapid advancement of technology, healthcare professionals now have access to a vast amount of information, which they can use to promote the quality of care ...
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This letter has been written to share the researcher’s thoughts on the topic of interactive intelligent health information systems. With the rapid advancement of technology, healthcare professionals now have access to a vast amount of information, which they can use to promote the quality of care provided to patients. Interactive intelligent health information systems are one such example of this technological advancement. Interactive intelligent health information refer to systems that use artificial intelligence and machine learning algorithms to analyze and interpret medical data. These systems are developed to assist healthcare professionals in making accurate diagnoses and creating personalized treatment plans for their patients. One of the key benefits of interactive intelligent health information systems is that they enable healthcare professionals to make real-time informed decisions. With the help of these systems, medical professionals can quickly analyze patient data and determine the best course of treatment for each patient. This can lead to faster diagnosis and treatment, which can ultimately save lives. Another advantage of interactive intelligent health information systems is that they can help healthcare professionals identify patterns and trends in medical data. By analyzing large amounts of data from multiple resources, these systems can identify potential health risks and suggest preventive measures. This could be especially useful in the case of chronic diseases, such as diabetes, where early intervention can make a significant difference in the patient's quality of life. Interactive intelligent health information systems can also help healthcare professionals reduce the risk of medical errors. By analyzing patient data, these systems can identify potential drug interactions and allergies, reducing the likelihood of adverse reactions. Moreover, these systems can alert healthcare professionals to potential diagnostic errors, ensuring that patients receive accurate diagnoses and appropriate treatment. One of the promising applications of interactive intelligent health information systems is in the field of telemedicine. With the help of these systems, healthcare professionals can provide remote consultations and diagnoses to patients who are unable to visit a healthcare facility in person. This can be especially useful in rural areas or in cases where patients are unable to travel due to illness or disability. However, while interactive intelligent health information systems offer many benefits, there are also some potential challenges that need to be addressed. One of the significant challenges is ensuring the privacy and security of patient data. Healthcare professionals should ensure that patient data is protected from unauthorized access, and that patients are informed about how their data will be used. Another challenge is the need for healthcare professionals to receive proper training in the use of these systems. Interactive intelligent health information systems can be complex and require specialized knowledge to use effectively. Healthcare professionals need to properly trained to use these systems to ensure that they are used appropriately and effectively. As a result, interactive intelligent health information systems represent a significant advancement in healthcare technology. By providing healthcare professionals with real-time access to medical data, these systems can help improve patient outcomes and reduce the risk of medical errors. However, it seems indispensable to ensure that patient data is protected and that healthcare professionals receive proper training in the use of these systems. With these considerations in mind, interactive intelligent health information systems have the potential to revolutionize the way healthcare is delivered, improving the lives of patients around the world.
Mahboobeh Shokouhian; Asefeh Asemi; Ahmad Shabani; Mozafar Cheshme-Sohrabi
Abstract
Introduction: Access to patient’s complete information is critical in improving clinical care and reducing medical errors. Electronic Health Record is a collection of individuals' health information, from prenatal to posthumous, which is stored electronically, is available at any center and at any ...
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Introduction: Access to patient’s complete information is critical in improving clinical care and reducing medical errors. Electronic Health Record is a collection of individuals' health information, from prenatal to posthumous, which is stored electronically, is available at any center and at any time, and is an integral part of an integrated health information system. The purpose of the present study was bibliometric and text-mining analyze of scientific products in the field of Electronic Health Records in PubMed database.Methods: This present study was carried out using bibliometric method and text mining. The study was conducted in the academic year of 2019 in PubMed database on the period of 2009-2019, and 6863 articles were selected for review. Excel, VOSviewer and Voyant were used for data analysis.Results: In the studied field, issues of electronic health records, health, health care, information, health care systems were of great importance in PubMed. Developing articles in this field had been on the rise for ten years, and the United States was the most productive country in the field. David Bates, Dean Sittig, and Hardeep Singh had the most articles in the field of study.Conclusion: Each item of co-occurring vocabulary map can represent a concept or research area in health. The findings can provide a clear insight to scientific policymaking of this field to influence the allocation and distribution of resources for scientific and technical activities. It can also help researchers in selecting the state-of-the-art topics and having a comprehensive insight into the academic context of the field.