To prepare highly skilled medical imaging professionals through quality of education, capable of integrating innovative technologies, evidence-based practice, and research to optimize diagnostic accuracy, promote patient safety, and support community engagement.
- Prepare graduates with advanced knowledge and clinical expertise in medical imaging, integrating evidence-based practice to ensure high-quality, patient-centered care.
- Develop graduates’ research capabilities, critical thinking, and innovative approaches to advance medical imaging practice and support continuous professional development.
- Cultivate leadership, teamwork, ethical responsibility, and professional accountability in diverse healthcare and academic environments.
- Equip graduates with communication skills and promote active contribution to community service needs with professionalism, ethics, and societal responsibility.
Knowledge & Understanding (K)
K1: Critically evaluate advanced medical imaging technologies and clinical applications and determinants of image quality for accurate interpretation.
K2: Analyze evidence-based practice, integrating current research and biostatistical methods to support clinical decision-making.
K3: Appraise safety standards, radiation biology and protection principles, and quality assurance measures in advanced imaging practice.
Skills (S)
S1: Optimize advanced medical imaging techniques and protocols to produce high-quality diagnostic images and ensure patient safety.
S2: Design and conduct research in medical imaging using appropriate methodologies and advanced statistical analysis techniques.
S3: Utilize innovative healthcare technologies and digital tools to enhance imaging practice and improve patient outcomes.
Values (V)
V1: Demonstrate professional ethics, integrity, and accountability in clinical and academic practice.
V2: Exhibit effective communication, teamwork, and leadership in multidisciplinary healthcare environments with commitment to community service.
3.1 Program Learning Outcomes: Ultrasound Track | ||
Knowledge and Understanding: | ||
K1 | Critically evaluate advanced ultrasound imaging technologies, sonographic principles, Doppler applications, and determinants of image quality for accurate diagnostic interpretation. | |
K2 | Analyze evidence-based ultrasound practices and integrate current research findings and biostatistical methods to support clinical decision-making and advance professional practice. | |
K3 | Appraise patient safety standards, bioeffects, infection control measures, ergonomics, and quality assurance principles in advanced ultrasound practice. | |
Skills: | ||
S1 | Optimize advanced ultrasound examination techniques and imaging protocols to produce high-quality diagnostic images and ensure patient safety in diverse clinical settings. | |
S2 | Design and conduct ultrasound-related research using appropriate methodologies, scientific inquiry, and advanced statistical analysis techniques. | |
S3 | Utilize advanced ultrasound technologies, digital healthcare systems, and innovative imaging tools to enhance diagnostic performance and improve patient outcomes. | |
Values, Autonomy, and Responsibility: | ||
V1 | Demonstrate responsibility, professional ethics, integrity, and accountability in clinical ultrasound and academic practice. | |
V2 | Lead and collaborate effectively within multidisciplinary healthcare teams while promoting communication, professionalism, and community engagement. | |
3.2 Program Learning Outcomes: Computed Tomography Track | |
Knowledge and Understanding: | |
K1 | Critically evaluate advanced CT technologies, instrumentation, image acquisition, reconstruction techniques and determinants of image quality for accurate interpretation. |
K2 | Analyze and synthesize advanced clinical applications of CT imaging across body systems, integrating evidence-based research to enhance clinical decision-making. |
K3 | Appraise safety principles, radiation dose optimization approaches, and emerging CT technologies, including artificial intelligence, radiomics, and hybrid imaging. |
Skills: | |
S1 | Optimize and implement advanced CT protocols and scanning parameters to produce high-quality diagnostic images while ensuring patient safety and radiation protection. |
S2 | Analyze CT images and radiologic data to support clinical decision-making, including emergency, cardiac, oncologic, and interventional cases. |
S3 | Design and disseminate applied research in computed tomography with evidence-based findings to improve clinical practice. |
Values, Autonomy, and Responsibility: | |
V1 | Uphold professional responsibility and ethical practice in advanced CT imaging. |
V2 | Lead CT imaging teams, showing communication skills, and contribute to service development and quality improvement. |
3.3 Program Learning Outcomes: Magnetic Resonance Imaging Track | ||
Knowledge and Understanding: | ||
K1 | Integrate advanced MRI physics, instrumentation, and sequence design | |
K2 | Evaluate clinical MRI applications and imaging protocols | |
K3 | Appraise quantitative MRI and neuroimaging techniques | |
K4 | Critically assess research methodologies and biostatistical tools relevant to MRI science | |
Skills: | ||
S1 | Utilize MRI physics principles to optimize imaging parameters | |
S2 | Design, evaluate, and optimize MRI pulse sequences using cognitive and information technology tools | |
S3 | Analyze MRI data and interpret clinical findings | |
S4 | Implement quantitative and functional MRI techniques | |
S5 | Design and conduct applied MRI research | |
Values, Autonomy, and Responsibility: | ||
V1 | Demonstrate effective independent practice and collaborate productively within inter- and multidisciplinary MRI teams | |
V2 | Uphold professional and ethical responsibilities in MRI practice, prioritizing patient safety, dignity, and equitable care | |
V3 | Pursue continuous professional development and lead quality improvement initiatives in MRI services | |
3.4 Program Learning Outcomes: Nuclear Medicine Track | ||
Knowledge and Understanding: | ||
K1 | Critically evaluate the basic and advanced nuclear medicine physics, instrumentation, and clinical applications of SPECT, PET, and hybrid imaging. | |
K2 | Analyze radiopharmaceutical production, quality control, dosimetry, and clinical applications in nuclear medicine. | |
K3 | Evaluate radiation and biological safety standards in nuclear medicine in accordance with the local and international regulatory committees' standards. | |
Skills: | ||
S1 | Optimize image acquisition, radiopharmaceutical administration, and image processing to ensure optimum image quality and patient safety. | |
S2 | Design and conduct research in nuclear medicine and theranostics using appropriate scientific and statistical methods. | |
S3 | Apply scientific communication, digital information management, and professional reporting in nuclear medicine practice. | |
Values, Autonomy, and Responsibility: | ||
V1 | Demonstrate ethics, integrity, accountability, and patient-centered care in nuclear medicine practice. | |
V2 | Exhibit teamwork, leadership, intercultural communication, and social responsibility within multidisciplinary healthcare teams. | |