Digital Health Policy and Programs for Hospital Care in Vietnam: Scoping Review

The members of the Vietnam ICU Translational Applications Laboratory (VITAL) group are as follows: Oxford University Clinical Research Unit, Ho Chi Minh City, Vietnam: An Phuoc Luu, Chanh Quang Ho, Duc Hong Du, Duc Minh Tran, Dung Thi Phuong Nguyen, Giang Thi Nguyen, Hai Bich Ho, Hien Van Ho, Hung Manh Trinh, Huy Quang Nguyen, Khanh Nguyen Quoc Phan, Khoa Dinh Van Le, Kien Trung Dang, Lam Khanh Phung, Lieu Thi Pham, Ngoc Thanh Nguyen, Nhat Tran Huy Phung, Phuong Thanh Le, Quyen Than Ha Nguyen, Thanh Thi Le Nguyen, Thy Bui Xuan Doan, Trieu Trung Huynh, Trinh Huu Khanh Dong, Van Minh Tu Hoang, Van Thi Thanh Ninh, Vuong Lam Nguyen, Yen Minh Lam, Sayem Ahmed, Joseph Donovan, Ronald Geskus, Evelyne Kestelyn, Angela Mcbride, Guy Thwaites, Louise Thwaites, Hugo Turner, Jennifer Ilo Van Nuil, and Sophie Yacoub. Hospital for Tropical Diseases, Ho Chi Minh City, Vietnam: Tam Thi Cao, Thuy Bich Duong, Duong Thi Hai Ha, Nghia Dang Trung Ha, Chau Buu Le, Thu Ngoc Minh Le, Thao Thi Mai Le, Tai Thi Hue Luong, Phu Hoan Nguyen, Viet Quoc Nguyen, Nguyen Thanh Nguyen, Phong Thanh Nguyen, Anh Thi Kim Nguyen, Hao Van Nguyen, Duoc Van Thanh Nguyen, Chau Van Vinh Nguyen, Oanh Kieu Nguyet Pham, Van Thi Hong Phan, Qui Tu Phan, Tho Vinh Phan, and Thao Thi Phuong Truong. University of Oxford, Oxford, United Kingdom: David Clifton, Mike English, Shadi Ghiasi, Heloise Greeff, Jannis Hagenah, Ping Lu, Jacob McKnight, Chris Paton, and Tingting Zhu. Imperial College London, London, United Kingdom: Pantellis Georgiou, Bernard Hernandez Perez, Kerri Hill-Cawthorne, Alison Holmes, Stefan Karolcik, Damien Ming, Nicolas Moser, and Jesus Rodriguez Manzano. King's College London, London, United Kingdom: Alberto Gomez, Hamideh Kerdegari, Marc Modat, and Reza Razavi. ETH Zurich, Zurich, Switzerland: Abhilash Guru Dutt, Walter Karlen, Michaela Verling, and Elias Wicki. The University of Melbourne, Melbourne, Australia: Linda Denehy and Thomas Rollinson.Background: There are a host of emergent technologies with the potential to improve hospital care in low- and middle-income countries such as Vietnam. Wearable monitors and artificial intelligence–based decision support systems could be integrated with hospital-based digital health systems such as electronic health records (EHRs) to provide higher level care at a relatively low cost. However, the appropriate and sustainable application of these innovations in low- and middle-income countries requires an understanding of the local government’s requirements and regulations such as technology specifications, cybersecurity, data-sharing protocols, and interoperability. Objective: This scoping review aims to explore the current state of digital health research and the policies that govern the adoption of digital health systems in Vietnamese hospitals. Methods: We conducted a scoping review using a modification of the PRISMA-ScR (Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews) guidelines. PubMed and Web of Science were searched for academic publications, and Thư Viện Pháp Luật, a proprietary database of Vietnamese government documents, and the Vietnam Electronic Health Administration website were searched for government documents. Google Scholar and Google Search were used for snowballing searches. The sources were assessed against predefined eligibility criteria through title, abstract, and full-text screening. Relevant information from the included sources was charted and summarized. The review process was primarily undertaken by one researcher and reviewed by another researcher during each step. Results: In total, 11 academic publications and 20 government documents were included in this review. Among the academic studies, 5 reported engineering solutions for information systems in hospitals, 2 assessed readiness for EHR implementation, 1 tested physicians’ performance before and after using clinical decision support software, 1 reported a national laboratory information management system, and 2 reviewed the health system’s capability to implement eHealth and artificial intelligence. Of the 20 government documents, 19 were promulgated from 2013 to 2020. These regulations and guidance cover a wide range of digital health domains, including hospital information management systems, general and interoperability standards, cybersecurity in health organizations, conditions for the provision of health information technology (HIT), electronic health insurance claims, laboratory information systems, HIT maturity, digital health strategies, electronic medical records, EHRs, and eHealth architectural frameworks. Conclusions: Research about hospital-based digital health systems in Vietnam is very limited, particularly implementation studies. Government regulations and guidance for HIT in health care organizations have been released with increasing frequency since 2013, targeting a variety of information systems such as electronic medical records, EHRs, and laboratory information systems. In general, these policies were focused on the basic specifications and standards that digital health systems need to meet. More research is needed in the future to guide the implementation of digital health care systems in the Vietnam hospital setting.This study was supported by the Wellcome Trust United Kingdom WT217650/Z/19/Z

Iterative Methods with Nonconforming Time Grids for Nonlinear Flow Problems in Porous Media

Partially saturated flow in a porous medium is typically modeled by the Richards equation, which is nonlinear, parabolic and possibly degenerated. This paper presents domain decomposition-based numerical schemes for the Richards equation, in which different time steps can be used in different subdomains. Two global-in-time domain decomposition methods are derived in mixed formulations: the first method is based on the physical transmission conditions and the second method is based on equivalent Robin transmission conditions. For each method, we use substructuring techniques to rewrite the original problem as a nonlinear problem defined on the space-time interfaces between the subdomains. Such a space-time interface problem is linearized using Newton's method and then solved iteratively by GMRES; each GMRES iteration involves parallel solution of time-dependent problems in the subdomains. Numerical experiments in two dimensions are carried out to verify and compare the convergence and accuracy of the proposed methods with local time stepping.Dedicated to Professor Duong Minh Duc on the occasion of his 70th birthday Acknowledgements This collaboration was initiated while the authors have attended the Oberwolfach Workshop 2204 (Multiscale Coupled Models for Complex Media: From Analysis to Simulation in Geophysics and Medicine). This is gratefully acknowledged. Funding T. T. P. Hoang’s work is partially supported by the US National Science Foundation under the grant number DMS-2041884. I. S. Pop’s work was supported by Hasselt University, project number BOF17NI01, and the Research Foundation Flanders (FWO), grant number G051418N

Overlapping domain decomposition based exponential time differencing methods for semilinear parabolic equations

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