ABSTRACT
Mobile health (mHealth), an abbreviated term used for portable healthcare, is characterized by the World Health Organization (WHO) as an utilization of portable healthcare monitoring equipments by the health care delivery system. The review article is based on the utilization of the mobile phones in the form of text information, image sharing, video call, doctor appointment, and auto-generated schedule during the global pandemics situations. Initially the motivation behind the technology was the availability of physical and psychological care for unreached communities. But, in the situation of pandemics, there is a high momentum to the mHealth application in the healthcare delivery system. The differential utilization of cell phone has led to the multiplication of health-related personalized applications day by day for the human race;there are numerous expected roads for mHealth to be fill in as an aide instrument to general health care when most of the developed and developing nations are in a cyclic process of lockdown of the century. In the present times, people are advised by the WHO to make a physical distance from everyone;hence the mHealth promptly came into existence with its importance. However, there are both pros and cons of every technology;here mHealth helps to provide improved treatment availability due to its promptness, ease, accessibility but on the another hand, there is the limitation of mHealth applications as personal data sharing with the network providers is easier. There are concerns like moral, legitimate, and clinical issues identified with mHealth usage, incorporating issues with information security, protection issues with limits, and interjurisdictional practice concerns. The technology-centric model launching incorporates the traditional medical approaches and training through the emerging technology-centric model into medical and educational systems to support medical practitioners and the patients. The review article presents the proof for the focal points and impediments of rebuilding a medicinal service framework on essential considerations. It depends on a fast, however, orderly audit of critical sources of strewn writing. The results are unpredictable for various reasons, including varying meanings of administrations, staff and the limits among essential and auxiliary consideration, changing hierarchical structures, and expanding dependence on essential consideration groups for mHealth. © 2022 Elsevier Inc. All rights reserved.
ABSTRACT
Blockchains emerged in the past decade with applications across a myriad of domains, however this nascent field has so far been commonly associated with cryptocurrencies. The secure and decentralized nature of blockchains offers benefits across a wide range of industries, including healthcare which remains the largest focus of cyber crimes today. In this work, we demonstrate a Blockchain implementation as a proof of concept for the storage of electronic Protected Health Information (ePHI) related to the COVID-19 pandemic. We use two Amazon Managed Blockchain services, Hyperledger Fabric and Ethereum, to store medical data in Amazon Web Services (AWS). While the two frameworks provide a secure resource for medical data, depending on the chosen implementation, the cost can grow quickly based on the number of requests, which may make them prohibitive for applications such as COVID-19 vaccine passports. copy;2022 IEEE. © 2022 IEEE.
ABSTRACT
The Coronavirus pandemic is recording unprecedented deaths worldwide. The temporal distribution and burden of the disease varies from setting to setting based on economic status, demography and geographic location. A rapid increase in the number of COVID-19 cases is being reported in Africa as of June 2020. Ethiopia reported the first COVID-19 case on 13 March 2020. Limited molecular laboratory capacity in resource constrained settings is a challenge in the diagnosis of the ever-increasing cases and the overall management of the disease. In this article, the Ethiopian Public Health Institute (EPHI) shares the experience, challenges and prospects in the rapid establishment of one of its COVID-19 testing laboratories from available resources. The first steps in establishing the COVID-19 molecular testing laboratory were i) identifying a suitable space ii) renovating it and iii) mobilizing materials including consumables, mainly from the Malaria and Neglected Tropical Diseases (NTDs) research team at the EPHI. A chain of experimental design was set up with distinct laboratories to standardize the extraction of samples, preparation of the master mix and detection. At the commencement of sample reception and testing, laboratory contamination was among the primary challenges faced. The source of the contamination was identified in the master mix room and resolved. In summary, the established COVID-19 testing lab has tested more than 40,000 samples (August 2020) and is the preferred setting for research and training. The lessons learned may benefit the further establishment of emergency testing laboratories for COVID-19 and/or other epidemic/pandemic diseases in resource-limited settings.