Journal of Multidisciplinary Healthcare (Mar 2024)
Towards Agility in Breast Cancer Treatment Principles as Adopted from Agile Software Engineering
Abstract
Yousra Odeh,1 Mahmoud Al-Balas2 1Software Engineering Department, Faculty of Science and Information Technology, Al Zaytoonah University of Jordan, Amman, 11733, Jordan; 2Department of General Surgery, Anesthesia and Urology, Faculty of Medicine, The Hashemite University, Zarqa, 13133 JordanCorrespondence: Yousra Odeh, Software Engineering Department, Faculty of Science and Information Technology, Al Zaytoonah University of Jordan, Amman, 11733, Jordan, Tel +9626-429151100962, Fax +9626- 4291432, Email [email protected]; [email protected]: The complex nature of breast cancer demands flexible and adaptable principles that can account for the diverse characteristics and evolving conditions of each patient. However, there are no common breast cancer treatment agility principles that can influence policies and direct breast cancer professionals and healthcare providers into enhancing the delivery of health outcomes to patients under these conditions along with continuous rapid improvements in breast cancer treatment plan design. The incorporation of agile principles from software engineering offers a promising avenue for enhancing patient care. This research is conducted to identify breast cancer treatment agility principles adopted from the software engineering field and to validate their conformance to agility through work reported from literature in breast cancer treatment context.Material and Methods: The authors applied a structured research methodology that involved interviews for eliciting and validating twelve agility principles from oncologists. Discussion of each principle is reflected using work reported from literature as a form of validation. Finally, a domain expert reviewed the literature-driven validation for each of the twelve identified breast cancer treatment agile principle to finally validate their conformance to agility and provide results.Results: This work resulted twelve validated agility principles for breast cancer treatment and classified whether they are meeting, partially-(hybrid), or not meeting agility. Seven out of the twelve agile principles resulted as meeting agility, where the remaining five principles resulted as partially meeting agility. None of them is recorded as not meeting agility.Conclusion: The work contributes to forming an agile mindset that can empower breast cancer professionals to optimize treatment plans, enhance patient experiences, and continuously improve the quality of care. The twelve identified agile principles are anticipated to contribute to driving more efficient oncology practices, policies, and protocols. It is concluded that the breast cancer treatment agility principles are not limited to twelve.Keywords: agile breast cancer, breast cancer, breast cancer treatment, agile, oncology, agile software engineering, agile healthcare, agile principles, multidisciplinary research, healthcare policy