Radiography Final Year Project Topics

Latest Final Year Project Topics for Radiography Students in 2026

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Introduction

Choosing the right final year project topic is one of the most critical decisions radiography students face during their academic journey. The topic you select will consume months of your research time, define your academic expertise, and potentially shape your professional career direction. A well-chosen final year project topic for radiography should demonstrate your mastery of imaging protocols, technical skills, and clinical understanding while contributing meaningful insights to the field of diagnostic and interventional radiology.

For radiography students in 2026, the landscape of medical imaging is evolving rapidly with emerging technologies, advanced imaging modalities, and growing emphasis on radiation dose optimization. This means your final year project should reflect current industry trends, address real clinical challenges, and showcase your ability to bridge theoretical knowledge with practical applications. Whether you’re interested in digital radiography, CT imaging, interventional procedures, or image quality assessment, your project topic must be specific enough to guide focused research yet broad enough to access sufficient literature and data.

This comprehensive guide provides 30 carefully curated final year project topics for radiography students that align with contemporary healthcare needs and academic standards. Each topic is designed to be achievable within typical project timelines while maintaining academic rigor and research-worthiness. These topics span key areas including imaging protocols, radiation safety, diagnostic accuracy, interventional radiology techniques, image quality optimization, and emerging imaging technologies. By exploring this list, you’ll discover topics that align with your interests and clinical experience, helping you select a project that truly excites and motivates you.

How to Choose the Right Radiography Final Year Project Topic

Selecting an outstanding final year project topic requires careful consideration of several important factors. Understanding these selection criteria will help you make an informed decision that aligns with your capabilities and professional aspirations:

• Clinical Relevance: Choose a topic that addresses real problems in your local healthcare setting or broader radiography practice, ensuring your research has practical applications and can contribute to improved patient care or departmental efficiency.
• Data Accessibility: Ensure you can realistically access patient data, imaging equipment, or facilities needed for your research within your institution or partner hospitals, considering ethical approval timelines and data protection regulations.
• Technical Feasibility: Select a topic that matches your technical skills and available resources, avoiding projects requiring expensive equipment or specialized software you cannot access through your institution.
• Literature Availability: Verify sufficient peer-reviewed research exists on your chosen topic to support comprehensive literature review and contextual analysis throughout your project.
• Supervisor Expertise: Align your topic selection with your project supervisor’s expertise and research interests, ensuring adequate guidance throughout your project and access to mentorship in your chosen area.

Beyond these fundamental criteria, consider your personal interests and career aspirations. Your final year project is an opportunity to explore an area of radiography that genuinely excites you, whether that’s diagnostic imaging advancement, radiation protection, clinical practice optimization, or emerging technologies. When you’re passionate about your research question, you’ll maintain motivation through the challenging phases of data collection and analysis.

30 Radiography Final Year Project Topics for 2026

Topic 1: Optimization of Computed Radiography Image Quality Through Exposure Index Management in Nigerian Tertiary Hospital Settings

This research examines how proper exposure index monitoring improves diagnostic image quality while reducing unnecessary radiation doses to patients in developing healthcare environments. The study will investigate current exposure index practices across multiple tertiary institutions and correlate these metrics with image quality scores and radiation dose measurements.

Topic 2: Comparative Analysis of Digital Radiography and Computed Radiography Systems for Chest Imaging Quality and Diagnostic Accuracy

This study investigates imaging quality differences between digital and computed radiography systems, evaluating which technology provides superior diagnostic information for thoracic pathology detection. The research will include quantitative image quality metrics and radiologist diagnostic accuracy comparisons.

Topic 3: Assessment of Radiation Dose Reduction Protocols in Pediatric Abdominal Computed Tomography Scans Across Multiple Imaging Centers

This research evaluates current dose reduction strategies for pediatric CT imaging, identifying best practices that maintain diagnostic quality while minimizing radiation exposure to vulnerable populations. The study will benchmark dose protocols against international guidelines and assess clinical outcomes.

Topic 4: Impact of Collimation Techniques on Image Quality and Scatter Radiation in Extremity Radiography Among Experienced Radiographers

This project examines how proper collimation practices affect diagnostic image quality and occupational radiation exposure, determining optimal techniques for limb imaging procedures. The research will measure scatter radiation levels and image quality metrics across different collimation strategies.

Topic 5: Evaluation of Interventional Radiology Procedures: Safety Protocols, Staff Dose Monitoring, and Patient Outcome Documentation in Selected Hospitals

This research assesses current safety practices in interventional radiology units, analyzing staff radiation exposure monitoring systems and documenting procedural outcomes systematically. The study will review safety protocols, staff dose badges, and patient complication rates across multiple facilities.

Topic 6: Development and Validation of a Portable Fluoroscopy Quality Assurance Protocol for Rural Healthcare Facilities in West Africa

This study creates an adaptable quality assurance protocol for fluoroscopy equipment in resource-limited settings, ensuring diagnostic accuracy without sophisticated testing infrastructure. The research will develop practical testing methods using available equipment and validate protocols through field implementation.

Topic 7: Assessment of Image Artifacts in Magnetic Resonance Imaging: Causes, Prevention Strategies, and Impact on Diagnostic Confidence Among Radiologists

This research identifies common MRI artifacts, their causative factors, prevention methods, and how artifact presence affects radiologist confidence in diagnostic interpretation accuracy. The study will include a comprehensive artifact taxonomy and evidence-based prevention strategies.

Topic 8: Comparative Study of Ultrasound Image Quality Parameters and Diagnostic Accuracy Between Experienced and Novice Sonographers in Obstetric Imaging

This project evaluates how operator experience affects ultrasound image quality metrics and diagnostic accuracy in pregnancy assessment, identifying critical skill development areas. The research will measure technical quality parameters and compare diagnostic accuracy between expertise levels.

Topic 9: Evaluation of Digital Breast Tomosynthesis Implementation and Its Role in Improving Breast Cancer Detection Rates Compared to Conventional Mammography

This research assesses digital breast tomosynthesis effectiveness in detecting breast malignancies earlier than traditional two-dimensional mammography in clinical practice settings. The study will compare cancer detection rates, false positive rates, and patient radiation doses between technologies.

Topic 10: Assessment of Radiation Protection Knowledge and Compliance Among Radiography Students and Practicing Radiographers in Selected Educational Institutions

This study evaluates radiation safety awareness and adherence to protection protocols among radiography professionals, identifying knowledge gaps requiring targeted education. The research will assess knowledge through validated questionnaires and observe compliance through workplace monitoring.

Topic 11: Impact of Advanced Image Processing Software on Diagnostic Accuracy and Reporting Time in Emergency Department Trauma Radiography Cases

This research examines whether modern image processing tools improve diagnostic accuracy and reduce reporting times for trauma patients requiring rapid imaging assessment. The study will compare processing algorithms and measure clinical outcomes and efficiency metrics.

Topic 12: Quality Control Procedures in Picture Archiving and Communication Systems: Challenges and Optimization Strategies in Hospital Imaging Networks

This project investigates PACS quality control procedures, identifying current challenges in image transmission, archiving, and retrieval, and proposing optimization solutions. The research will audit PACS systems and develop recommendations for improved workflow efficiency.

Topic 13: Evaluation of Cone Beam Computed Tomography Applications in Maxillofacial Imaging: Diagnostic Value, Radiation Dose, and Cost-Effectiveness Analysis

This research assesses CBCT effectiveness for dental and maxillofacial diagnosis, comparing radiation doses with conventional imaging and analyzing financial implications for healthcare institutions. The study will include clinical outcome comparisons and economic analysis.

Topic 14: Assessment of Patient Positioning Accuracy and Its Correlation with Image Quality in Pelvic Radiography Among Radiography Professionals

This study examines how radiographer positioning skills affect pelvic image quality metrics, determining training requirements for consistent positioning accuracy across practitioners. The research will measure positioning deviations and correlate these with image quality scores.

Topic 15: Investigation of Occupational Hazards and Safety Practices Among Radiography Professionals in Interventional Radiology Departments

This research documents occupational hazards faced by interventional radiography staff, evaluates current safety implementations, and recommends evidence-based protective measures. The study will include ergonomic assessment, radiation exposure analysis, and chemical hazard identification.

Topic 16: Development of a Standardized Radiography Protocol for Portable Chest Imaging in Intensive Care Unit Patients Across Multiple Healthcare Facilities

This project creates a reproducible portable chest imaging protocol addressing ICU patient mobility constraints while maintaining diagnostic image quality and infection control standards. The research will develop standardized positioning and exposure guidelines tested across multiple facilities.

Topic 17: Comparative Analysis of Image Quality Between Analog and Digital Fluoroscopy Systems in Gastrointestinal Imaging Procedures

This research compares diagnostic quality, radiation doses, and procedural efficiency between traditional analog and modern digital fluoroscopy systems for GI tract evaluation. The study will include radiation dose measurements and procedural time comparisons.

Topic 18: Assessment of Image Retrieval Speed and Diagnostic Accuracy in Cloud-Based Versus On-Site Picture Archiving and Communication Systems

This study evaluates cloud PACS systems versus traditional on-site systems, analyzing image retrieval speed, diagnostic accuracy, security measures, and cost-benefit ratios. The research will conduct network performance testing and cost-effectiveness analysis.

Topic 19: Evaluation of Dose Optimization Strategies in Computed Tomography Scanning Protocols for Routine Clinical Applications in Resource-Limited Settings

This research identifies practical CT dose reduction methods applicable in hospitals with limited technology access, maintaining diagnostic quality while reducing patient radiation exposure. The study will evaluate protocol modifications and their clinical effectiveness.

Topic 20: Investigation of Image Quality Standards and Consistency in Dual-Energy Computed Tomography Applications for Vascular and Cardiac Imaging

This project examines image quality consistency in dual-energy CT imaging, evaluating its diagnostic advantages for cardiovascular pathology and radiation dose implications. The research will assess image quality metrics across different cardiac and vascular protocols.

Topic 21: Assessment of Radiographer Knowledge, Skills, and Confidence in Performing Portable Ultrasound Examinations in Point-of-Care Settings

This study evaluates radiography professionals’ competency in point-of-care ultrasound applications, identifying training gaps and competency standards for expanded radiographer roles. The research will assess practical skills and clinical decision-making in point-of-care scenarios.

Topic 22: Comparative Evaluation of Image Reconstruction Algorithms and Diagnostic Accuracy in Computed Tomography Imaging: Iterative Versus Filtered Back-Projection Methods

This research compares modern iterative reconstruction algorithms with traditional filtered back-projection, assessing image quality improvements and clinical diagnostic advantages in CT imaging. The study will evaluate image noise, artifacts, and lesion detectability across algorithms.

Topic 23: Assessment of Radiation Dose Monitoring Systems and Staff Dose Documentation Practices in Diagnostic Radiography Departments Nationwide

This project evaluates how effectively radiography departments monitor and document occupational radiation exposure, identifying compliance gaps with international radiation protection standards. The research will audit dosimetry practices and develop compliance improvement strategies.

Topic 24: Development of Quality Assurance Standards for Mammography Imaging: Impact on Breast Cancer Screening Effectiveness and Professional Competency Maintenance

This research establishes comprehensive QA standards for mammography equipment and radiographer performance, correlating quality metrics with cancer detection rates and professional certification requirements. The study will develop standardized QA protocols and competency assessments.

Topic 25: Investigation of Motion Artifacts in Cardiac Magnetic Resonance Imaging: Gating Techniques, Artifact Reduction Methods, and Clinical Impact on Diagnostic Accuracy

This study examines cardiac motion artifacts in MRI, evaluating cardiac gating techniques, post-processing artifact reduction methods, and impact on diagnostic interpretation reliability. The research will compare different gating strategies and their effectiveness in artifact reduction.

Topic 26: Comparative Analysis of Image Quality and Patient Dose in High-Resolution Computed Tomography Protocols for Pulmonary Disease Investigation

This research evaluates high-resolution CT protocols for lung pathology, comparing image quality metrics, radiation doses, and diagnostic accuracy across different imaging parameters and institutions. The study will benchmark protocols against international standards.

Topic 27: Assessment of Radiographer Professional Development Needs: Emerging Technologies, Competency Standards, and Continuing Education Requirements for 2026

This project identifies professional development priorities for radiographers in evolving healthcare settings, determining essential competencies for emerging imaging technologies and clinical roles. The research will survey practicing radiographers and analyze job market trends. Consider exploring similar topics in related nursing science project topics for additional perspectives on healthcare professional development.

Topic 28: Evaluation of Three-Dimensional Image Reconstruction Techniques in Orthopedic Radiography: Diagnostic Value and Surgical Planning Applications for Complex Fractures

This research assesses three-dimensional reconstruction utility in orthopedic imaging for complex fracture assessment and preoperative surgical planning, comparing diagnostic accuracy with conventional two-dimensional imaging. The study will include surgeon feedback on surgical planning utility.

Topic 29: Investigation of Environmental Factors Affecting Radiography Equipment Performance and Image Quality in Hospital Imaging Departments

This study examines environmental conditions (temperature, humidity, electromagnetic interference) affecting radiography equipment function and image quality, proposing environmental control standards. The research will measure environmental parameters and correlate these with equipment performance metrics.

Topic 30: Assessment of Infection Control Practices and Contamination Prevention Measures in Radiography Departments and Imaging Equipment During Pandemic Situations

This research evaluates infection control protocols in radiography settings, assessing equipment disinfection practices, staff safety measures, and contamination prevention strategies during health emergencies. The study will audit current practices and recommend enhanced protocols based on pandemic lessons learned. For additional perspectives on healthcare safety and compliance, explore public health project topics that address broader infection control frameworks.

Conclusion

Selecting from these 30 final year project topics for radiography students positions you to conduct meaningful research that advances both your professional expertise and the broader field of medical imaging. Each topic addresses contemporary challenges in radiography practice, from radiation dose optimization and image quality assessment to interventional procedures and emerging imaging technologies. These topics reflect the reality of modern radiography work, where professional excellence demands continuous learning, technical mastery, and commitment to patient safety and diagnostic accuracy.

Your final year project represents a significant opportunity to demonstrate comprehensive understanding of radiography principles, research methodology, and clinical application. By choosing a topic aligned with your interests and available resources, you’ll maintain motivation throughout the research process and produce work that genuinely contributes to your profession. The topics provided cover diverse areas within radiography, ensuring you can find a project matching your career aspirations whether you’re interested in diagnostic imaging advancement, radiation protection, technology implementation, or professional education.

When selecting your project topic, remember that the most successful research projects combine genuine interest with practical feasibility. Take time to discuss potential topics with your supervisor, review recent literature in your areas of interest, and consider what research questions would most benefit your institution or professional community. Your project should ultimately tell a compelling research story that demonstrates your expertise and contributes valuable knowledge to radiography practice.

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