FELLOWSHIP IN RADIOLOGY
Explore the Fellowship in Radiology with our practical-based Postgraduate Diploma Program. Designed for medical professionals aiming to excel in diagnostics, this course offers clinical training and expert guidance to enhance your skills in medical imaging and radiological interpretation.
Batch starts on
Jan to Dec/ May to June
Course Duration
12 Months
Multimodal Program
Hybrid Mode & Clinical Attachment
Flexible payment
financing options available
Program overview
Fellowship in Radiology by MGA Medical Global Academy is a practical post graduate training program offered to medical doctors who wish to further their studies in radiology, mainly diagnostic. The program offers a thorough clinical experience with state-of-the-art imaging technologies such as X-ray, Ultrasound, CT, MRI, and hybrid imaging technology. Participants receive practical experience in musculoskeletal imaging, neuroimaging, abdominal imaging, cardiovascular imaging, chest imaging, pediatrics radiology, oncological imaging and emergency imaging. The fellowship is also dedicated to cutting-edge imaging methods, AI in radiology, evidence-based practice, research methodology, and ethical radiology practice, all aimed at equipping participants with the skills needed to navigate the evolving landscape of radiological healthcare.
Skills You Will Gain
Excellent knowledge of the principles of radiology, imaging modalities, radiation safety and imaging procedures.
Experience in musculoskeletal imaging, such as fractures, arthritis, sports injuries and orthopedic imaging.
Understanding of the principles of neuroimaging, such as functional MRI, DTI, spectroscopy and imaging disorders of the nervous system
Abdominal imaging for gastrointestinal, hepatic, pancreatic, renal and oncological diseases training.
Good knowledge of cardiovascular imaging – including CT angiography, MR angiography, cardiac MRI and vascular imaging
Thoracic imaging skills – lung disease, pulmonary embolism, mediastinal disease.
Exposure to pediatric patients who have had imaging studies for congenital, traumatic and neurological disorders.
Understanding of oncological imaging for the detection of tumors, cancer staging, treatment planning and monitoring.
Career Outcomes After the Fellowship
Diagnostic imaging centers, oncology hospitals, trauma hospitals, and academic institutes are all areas that offer opportunities.
Enhance patient outcomes with proper imaging diagnosis and image guidance.
Opportunities in the field of Neuro-radiology, Pediatric radiology, Oncological imaging, Emergency radiology and radiology services
Actively engage in radiology research, academic teaching, imaging innovation initiatives, and the multidisciplinary healthcare team.
Collaborate in patient care with physicians, surgeons, oncologists, neurologists and specialists in emergency medicine
Keep abreast of developments in artificial intelligence-aided diagnostics, molecular imaging, hybrid imaging systems and precision medicine technologies.
Improve Professional Development in the fast changing Medical Imaging and Radiological Sciences discipline.
What you'll learn
Foundations of Radiology
Advanced Imaging Techniques
Subspecialty Focus
Research and Academic Development
Clinical Rotations and Practical Training
Professional Development and Integration
Key Features
- Attending /Non-Attending Classes
- Clinical Training in Nearest Hospital/Clinics.
- Free Study Material with recorded lectures
- Best Faculties (Super Specialists) of India
5. Library Access & Question & Answer Session
6. NAAC A+ University
7. 1 Year of Mentorship
8. Updated Curriculum
Course Curriculum
- Introduction to Radiology and its purpose in contemporary medicine.
- Fundamentals of imaging modalities X-ray, Ultrasound, CT, MRI, Nuclear Medicine.
- Radiation protection and safety measures.
- Basic knowledge about diagnostic imaging procedures and their use in clinical practice.
- Bone and joint (X-ray, MRI, CT) imaging.
- Joint fractures, dislocations, and arthritis examination.
- Musculoskeletal trauma and sports injuries.
- Orthopedic and sports medicine with advanced imaging methods.
- Neuroanatomy and advanced imaging (CT, MRI).
- Pathology of the brain and spinal cord strokes, tumors, infections, neurodegenerative diseases.
- Diffusion Tensor Imaging (DTI) and functional MRI (fMRI).
- Pediatric neuroimaging
- Imaging of the gastrointestinal tract (X-ray, CT, MRI)
- Imaging of liver, pancreas, kidney and spleen.
- Abdominal interventional radiology.
- State-of-the-art imaging in cancer staging and evaluation.
- Basic principles of cardiovascular imaging (CT, MRI, angiography)
- Imaging techniques for heart and vascular diseases
- Cardiac disease, arterial aneurysms and vascular malformations.
- Cardiac imaging Non-invasive imaging of cardiac function and cardiac anatomy.
- Imaging of the thoracic cavity: lungs, heart, and mediastinum
- Radiographic diagnosis of lung diseases (e.g., pneumonia, tuberculosis, lung cancer)
- CT in thoracic pathology, such as lung embolism, interstitial lung diseases.
- Thoracic Interventional radiology.
- Imaging in Pediatrics.
- Typical pediatric pathology and imaging.
- Child trauma and congenital disorders.
- Imaging in pediatric neurology and musculoskeletal diseases with MRI and CT.
- Tumor detection and staging (CT, MRI, PET) imaging.
- Radiology and its role in the treatment and monitoring of oncology.
- Radiological characteristics of typical cancers (e.g., breast, prostate, lung, colorectal)
- The new technologies in oncological imaging.
- Basics of interventional radiology and minimally invasive procedures
- Techniques: angioplasty, embolization, biopsy, and drainage.
- Imaging guidance for procedures (CT, ultrasound, fluoroscopy)
- Treatment and management of complications after procedures.
- Trauma and emergency medicine Radiology.
- Acute imaging (e.g., internal bleeding, stroke, cardiac emergencies, etc.)
- Handling critical patients and radiological assessment in the ER
- The multidisciplinary approach to the diagnosis and care of emergencies.
- Finally, more advanced MRI methods: spectroscopy, functional MRI and contrast enhanced imaging.
- Cardiac MRI and MR angiography.
- CT angiography, dual-energy CT and virtual colonoscopy.
- Imaging artifacts and troubleshooting.
- Correct and efficient radiological reporting techniques.
- Case-based learning: understanding complex cases.
- Reporting procedures, records and legal aspects.
- Radiology peer review and feedback.
- Ethical issues in diagnostic imaging.
- Patient consent, confidentiality, and data protection.
- The legal aspects of radiology practice.
- Radiology in medico-legal cases
- Introduction to research design and methodology
- Radiology systematic reviews and meta-analysis.
- Radiology evidence-based practice and clinical guidelines.
- Publication procedure and introduction of research results.
- Practical training in imaging methods in specialties.
- Supervised clinical experiences in renowned hospitals/clinics.
- Discussion of cases, interdisciplinary work, and exposure to real life cases.
- Faculty and mentor final evaluations and feedback.
- State of the art MRI in neuroimaging: spectroscopy, functional MRI, and Diffusion Tensor Imaging (DTI)
- Imaging of neurological disorders: multiple sclerosis, epilepsy, and neuro-oncology
- Cerebral vascular diseases: strokes, aneurysm and vascular malformations MRI/CT angiography.
- Functional neuroimaging: neuroanatomy of networks and connectivity.
- Background of molecular imaging and precision medicine.
- PET and PET-CT in cancer, cardiology and neurology.
- Radiopharmaceuticals and its uses.
- The future of molecular imaging: PETMRI hybrid.
- Artificial Intelligence (AI) in diagnostic image processing.
- Image processing and image interpretation machine learning algorithms.
- AI tools for image recognition: detecting pathology, tumor segmentation, and radiomics
- Future challenges and ethical aspects of AI-driven radiology.
- The ultrasound High-resolution ultrasound techniques and ultrasound applications in musculoskeletal, abdominal, and vascular imaging.
- Contrast-enhanced ultrasound (CEUS) in liver and renal diseases
- Elastography and its use in the evaluation of tissue hardness (liver fibrosis, tumors)
- 3D/4D Ultrasound: developments in obstetrics and cardiology and urology.
- Pediatric brain and spinal cord imaging: acquired and congenital.
- Child stroke, brain degeneration, and malformation.
- Newer neuroimaging of neurological diseases in children.
- MRI and CT in childhood trauma, tumors and genetic syndromes.
- Principles of hybrid imaging (PET-MRI, PET-CT, SPECT-CT)
- Oncology, neurology and cardiology.
- Case studies: Diagnosis by integrating anatomy and functional information.
- Role in personalized treatment planning and monitoring
- Radiological examination of common and new infectious diseases (COVID-19, tuberculosis, HIV, fungal infections)
- Imaging of tropical diseases and endemic infections.
- Use of CT, MRI and Ultrasound in diagnosing and monitoring the treatment of infections.
- Radiological appearance of systemic infections and their complications.
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