E-Book, Englisch, 220 Seiten
Sharma Optimized Healthcare: Leveraging Technology for Efficiency and Accessibility (Part 2)
1. Auflage 2025
ISBN: 979-8-89881-159-4
Verlag: Bentham Science Publishers
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
E-Book, Englisch, 220 Seiten
ISBN: 979-8-89881-159-4
Verlag: Bentham Science Publishers
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Optimized Healthcare: Leveraging Technology for Efficiency and Accessibility (Part 2) expands the exploration of transformative healthcare innovations by focusing on mobile health (mHealth), hospital management systems, health information exchange, robotics, telehealth, financial technologies, and workforce training. This volume emphasizes how these advancements work together to improve healthcare accessibility, streamline operations, and ensure sustainability in diverse healthcare settings. Beginning with the rise of mobile health technologies, the book details their role in overcoming geographic barriers, empowering patients, and delivering precision-driven, personalized care. It then examines the optimization of hospital management systems through AI, IoT, cloud computing, and blockchain, highlighting tools for efficiency in patient care, supply chains, financial management, and interoperability. Additional chapters detail health information exchange (HIE) for seamless data sharing, robotics and automation in surgical and caregiving contexts, and the expanding role of telehealth in rural and underserved communities. Key Features: In-depth coverage of mHealth, telehealth, robotics, and financial technologies in healthcare. Practical insights into optimizing hospital management and seamless data exchange. Real-world case studies on technology adoption in diverse global healthcare systems. Focuses on accessibility, patient-centered care, and financial sustainability. Guides on workforce training for effective digital health integration.
Autoren/Hrsg.
Weitere Infos & Material
Mobile Health Solutions for Accessibility
Swati Mutha1, Ashish Verma2, Akhil Sharma3, Akanksha Sharma3, Pankaj Kumar Singh4, Shaweta Sharma5, *
Abstract
The advancements in mobile devices, sensors, and other technologies have transformed mHealth into a wide-ranging and cost-effective platform that justifies its value as the bridge for gaps in current health service delivery. This chapter gives a detailed concept of mHealth solutions and highlights the innovations towards improved access to healthcare among underprivileged and remote communities. The chapter delves into key elements of mHealth, including mobile devices, sensor technologies, health applications, and AI assistants, and examines how connectivity will help improve the accessibility of mHealth. It discusses the key technologies behind mHealth, such as mobile applications, wearable devices, telemedicine platforms, and digital health records. It provides insights into how these technologies are used to enhance healthcare outcomes. It also describes the use of mHealth to manage chronic diseases, address mental health issues, and provide maternal and child health services and disability services. It also explores potential mechanisms through which the mHealth landscape empowers patients through enhanced engagement, increased health literacy, and patient-centred care methods. Despite its many benefits, the chapter addresses challenges in implementing mHealth solutions, particularly concerning the digital divide, infrastructure limitations, and privacy concerns.
* Corresponding author Shaweta Sharma: School of Medical and Allied Sciences, Galgotias University, Yamuna Expressway, Gautam Buddha Nagar, Uttar Pradesh 201310, India; E-mail: shawetasharma@galgotiasuniversity.edu.in
INTRODUCTION
Mobile Health, commonly referred to as mHealth, encompasses the use of mobile devices, wireless technologies, and digital applications to support healthcare
practices, services, and information sharing. Its diverse functions encompass remote patient monitoring, telemedicine consultations, health education initiatives, and chronic disease management programs. By capitalising on the widespread adoption of mobile gadgets, mHealth endeavours to bridge the divide between providers and patients, especially those in underserved areas. Its remit additionally involves collecting health-related information, personalised interventions, and incorporating artificial intelligence for predictive evaluation, cementing its role as a foundation of contemporary medical systems [1, 2].
Evolution of mHealth Technologies
The progression of mHealth is deeply intertwined with innovations in mobile communication technologies and the spread of smartphones. Early applications of mHealth were basic, focusing primarily on SMS-based health awareness campaigns and appointment reminders. The debut of wearable devices capable of tracking vital signs such as heart rate, blood pressure, and glucose levels marked a significant leap forward. The incorporation of cloud computing and 5G connectivity further expanded mHealth's abilities, enabling real-time data transmission and more robust telemedicine platforms. Recent years have borne witness to the inclusion of artificial intelligence (AI) and machine learning into mHealth applications, enhancing diagnostic precision and fostering personalised healthcare. This continuous evolution reflects mHealth's potential to reshape how healthcare is delivered and accessed globally [3-5].
Impact of mHealth on Healthcare Delivery
The impact of mHealth on healthcare delivery is genuinely transformative, addressing long-standing challenges involving accessibility, affordability, and efficiency. By facilitating remote consultations, mHealth reduces the necessity for in-person visits, mainly benefiting patients in rural or underserved areas. This not only saves time and costs but also alleviates the strain on healthcare infrastructure. Meanwhile, mHealth empowers patients with tools for self-monitoring and management of chronic conditions, fostering a proactive approach towards health. For healthcare providers, mHealth offers streamlined communication as well as coordination, enabling better decision-making and enhanced patient outcomes [6, 7].
During times of public health crises, mHealth has proved invaluable in disseminating information, tracking infections, and maintaining continuity of care. Despite challenges such as data security as well as technology access disparities, the adoption of mHealth continues to grow, paving the path for a more connected and efficient healthcare ecosystem. By encompassing these facets, mHealth stands at the forefront of digital transformation in healthcare, providing pioneering solutions that improve patient care as well as operational efficiencies while also using language varying in complexity from simple to more sophisticated terms [8, 9].
MOBILE HEALTH AND ACCESSIBILITY
Mobile health technologies promise to transform medical care by boosting access, engaging patients, and tackling disparities. Technologies like smartphones, wearables, and telehealth offer creative solutions to link those in places lacking customary clinics to critical care. By capitalising on apps, gadgets, and networks, mHealth aims to make treatment available to more individuals while allowing them to influence their well-being. Some tools distribute health information, while others enable remote monitoring and virtual consultations. Progress depends on addressing digital divides and ensuring privacy. Overall, these evolving platforms could help everybody obtain quality care wherever needed. Fig. (1) describes the critical role of mHealth in improving healthcare accessibility [10, 11].
Fig. (1))Role of mHealth in improving healthcare accessibility.
Role in Improving Healthcare Accessibility
The role of mHealth in the improvement of accessibility of the healthcare system is discussed below.
Overcoming Geographic Barriers
Among the many contributions of mHealth, few compare to its ability to help break geographic boundaries that make it difficult to deliver healthcare. Healthcare facilities and skilled personnel are often sparse, which leaves populations in remote areas unable to receive treatment in a timely manner. The standard solution for this challenge is mHealth, which allows mobile phones for virtual consultation, telemonitoring, and digital prescriptions. Telemedicine, where a rural patient can consult with a specialist based in an urban centre without having to travel to that specialist, saves costs and time. Similarly, mHealth tools enable the adequate collection and transmission of health data in order to monitor patients remotely and provide continuous care by clinicians [12, 13].
Access for Underserved Populations
Underserved populations, including low-income groups and marginalised communities, often face significant barriers to healthcare access. These challenges consist of financial limitations, language obstacles, and cultural stigmas. mHealth interventions focus on these groups by providing affordable interventions through mobile phones and smartphones. For instance, SMS services to circulate health knowledge have been successful in increasing the health literacy of poor groups. Moreover, mHealth applications tailored to local languages and cultural contexts can further reduce disparities, ensuring healthcare inclusivity [14, 15].
Enhancing Patient Engagement and Empowerment
Mobile health (mHealth) promotes patient engagement through its tools, helping an...
