Volume 11, Issue 4 (2-2025)
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Kohzadi Z, Dabbagh A, Taheri M, Emami H, Ghasemi M, Kohzadi Z et al . The Functional and Non-Functional Requirements of a Telemedicine System for Chronic Pain Management. jhbmi 2025; 11 (4)
URL: http://jhbmi.ir/article-1-900-en.html
URL: http://jhbmi.ir/article-1-900-en.html
Zeinab Kohzadi 
, Ali Dabbagh , Mehrdad Taheri , Hassan Emami , Mahshid Ghasemi , Zahra Kohzadi , Shahabedin Rahmatizadeh *
, Ali Dabbagh , Mehrdad Taheri , Hassan Emami , Mahshid Ghasemi , Zahra Kohzadi , Shahabedin Rahmatizadeh *
Assistant Professor of Medical Informatics, Department of Health Information Technology and Management, School of Allied Medical Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran
Abstract: (360 Views)
Introduction: With the expansion of information and communication technologies, telemedicine systems have become a key tool in enhancing the quality of healthcare services. These systems enable the delivery of medical care without the need for physical presence of patients and healthcare providers, playing a significant role in the management of chronic diseases, particularly chronic pain. Effective chronic pain management requires continuous follow-up, easy access to services, and accurate information exchange between patients and the medical team. The successful design of a telemedicine system depends on the precise identification and evaluation of its functional and non-functional requirements. These requirements form the foundation for ensuring the quality, security, efficiency, and user acceptance of the system. The aim of this study is to identify these requirements to support the development of an effective system for chronic pain management.
Method: This applied, cross-sectional study was conducted in two phases. In the first phase, existing processes related to chronic pain management in relevant hospitals were analyzed. Subsequently, focused group discussion (FGD) sessions were held with 15 experts, including four medical informatics specialists, seven anesthesiologists, and four pain fellowship specialists. Participants were purposefully selected based on availability. Sessions continued until data saturation was achieved, ensuring that all dimensions of the subject had been thoroughly discussed and confirmed by the expert panel.
Results: Functional requirements were categorized into seven groups: user management (3 items), scheduling and communication (5 items), medical information management (3 items), pharmacy and e-prescription (2 items), communication and support (2 items), reporting and data analysis (2 items), and content and education (4 items). Non-functional requirements identified included reliability and availability, interoperability, security and privacy, safety, performance, and scalability.
Conclusion: The findings of this study highlight the critical role of accurately identifying and understanding both functional and non-functional requirements in the success of telemedicine systems. Optimal system performance relies on the simultaneous consideration of features such as security, reliability, interoperability, and accessibility, alongside core clinical functionalities. Therefore, the design of such systems must adopt a comprehensive and multidimensional approach to effectively meet the needs of both patients and healthcare teams.
Method: This applied, cross-sectional study was conducted in two phases. In the first phase, existing processes related to chronic pain management in relevant hospitals were analyzed. Subsequently, focused group discussion (FGD) sessions were held with 15 experts, including four medical informatics specialists, seven anesthesiologists, and four pain fellowship specialists. Participants were purposefully selected based on availability. Sessions continued until data saturation was achieved, ensuring that all dimensions of the subject had been thoroughly discussed and confirmed by the expert panel.
Results: Functional requirements were categorized into seven groups: user management (3 items), scheduling and communication (5 items), medical information management (3 items), pharmacy and e-prescription (2 items), communication and support (2 items), reporting and data analysis (2 items), and content and education (4 items). Non-functional requirements identified included reliability and availability, interoperability, security and privacy, safety, performance, and scalability.
Conclusion: The findings of this study highlight the critical role of accurately identifying and understanding both functional and non-functional requirements in the success of telemedicine systems. Optimal system performance relies on the simultaneous consideration of features such as security, reliability, interoperability, and accessibility, alongside core clinical functionalities. Therefore, the design of such systems must adopt a comprehensive and multidimensional approach to effectively meet the needs of both patients and healthcare teams.
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