Prof. Dr. Huda AlMohammed | Radiotherapy – Professor at Princess Nourah Bint Abdulrahman University, Saudi Arabia
Prof. Huda Almohammed is a distinguished academic and research expert in the field of Medical Physics and Radiation Therapy, known for her impactful contributions to radiation protection, oncology applications, and interdisciplinary advancements in health sciences. She is widely recognized for bridging clinical medical physics with applied research to improve patient outcomes and reduce radiological risks. Her scholarly record is marked by consistent publication in peer-reviewed journals and active collaboration with leading scientists in radiological sciences. Her innovative approach, dedication to academic integrity, and focus on high-impact healthcare challenges place her among the prominent researchers advancing medical physics in the 21st century.
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Education:
Prof. Almohammed’s educational foundation is rooted in radiation sciences, medical physics, and therapeutic applications. She has undergone rigorous academic training and professional development that has equipped her with expertise in diagnostic imaging, radiation dosimetry, nuclear medicine, and oncology physics. Through postgraduate specialization and continuous academic certifications, she has built a robust knowledge base that supports her leadership in both clinical and research environments. Her educational journey has been marked by both depth and interdisciplinary integration, enabling her to operate at the confluence of theory, application, and policy.
Experience:
Over the years, Prof. Almohammed has held significant academic and research roles in medical institutions, where she has contributed to curriculum design, radiation safety training, and the supervision of postgraduate research. She has worked collaboratively with esteemed institutions and professionals in Saudi Arabia, Malaysia, and Europe, demonstrating global competence. Her experience encompasses applied nuclear science, radiological assessments, radiation oncology procedures, and occupational risk evaluations. In clinical settings, she has participated in optimizing imaging protocols and implementing safe radiological practices. Her academic presence is further strengthened by conference presentations, workshops, and peer-review activities.
Research Interest:
Prof. Almohammed’s research interests center around radiation dose optimization, biological risk assessment in imaging and therapy, radiation safety protocols, and the application of artificial intelligence in diagnostic radiology. A core focus of her work involves evaluating patient and staff exposure in nuclear medicine and interventional radiology procedures, with the goal of minimizing risks and ensuring safety in clinical environments. Additionally, she is interested in the integration of machine learning models to predict and explain health risks, especially in oncology. Her interdisciplinary work spans education technology, radiological awareness, and digital transformation in medical training during public health emergencies.
Award:
Prof. Almohammed’s research achievements and contributions to radiation protection and patient safety in medical physics make her a strong contender for the Best Researcher Award. Her impact spans both scientific advancement and practical application, with notable involvement in AI-driven studies and risk assessment frameworks. Through multi-institutional collaborations and publication in international journals, she has demonstrated sustained academic excellence, leadership, and relevance to pressing healthcare issues. Her scholarship supports improved clinical standards and contributes directly to safer imaging and therapeutic practices, aligning well with the mission of honoring researchers with outstanding global contributions.
Publication:
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Exploring the relationship between students’ learning satisfaction and self-efficacy during the emergency transition to remote learning amid the coronavirus pandemic: A cross … (2022, Education and Information Technologies) – cited by 147
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Patient radiation biological risk in computed tomography angiography procedure (2017, Saudi Journal of Biological Sciences) – cited by 79
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Anticancer activity of EA1 extracted from Equisetum arvense (2017, Pak. J. Pharm. Sci) – cited by 33
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Assessment of occupational exposure and radiation risks in nuclear medicine departments (2020, Radiation Physics and Chemistry) – cited by 31
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Estimation of cancer risks during mammography procedure in Saudi Arabia (2019, Saudi Journal of Biological Sciences) – cited by 25
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The efficacy of machine learning models in lung cancer risk prediction with explainability (2024, PLOS ONE) – cited by 8
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Artificial intelligence-based fuzzy logic systems for predicting radiation protection awareness levels among university population (2023, Radiation Physics and Chemistry) – cited by 6
Conclusion:
In summary, Prof. Huda Almohammed exemplifies the qualities of a dedicated and high-impact researcher in the domain of medical physics and radiation therapy. Her work addresses critical issues in radiation exposure, patient safety, and technological innovation in health sciences. With a consistent track record of research excellence, academic leadership, and multidisciplinary collaboration, she has significantly influenced both theoretical frameworks and clinical practices. Her evolving interests in AI applications and educational technology further demonstrate her forward-thinking approach. Prof. Almohammed’s achievements and continued commitment to research innovation make her an outstanding nominee for the Best Researcher Award, and her contributions stand to inspire future developments in global health and medical physics.