DNB Radio Diagnosis: Admissions, Medical Colleges, Fees, Eligibility Criteria Details Here

Physics related to Radio diagnosis

 Introduction to general properties of radiation and matter. Fundamental of nuclear physics and radioactivity.

 Production of x-ray

 X-ray generating apparatus

 Interaction of x-rays and gamma rays with matter and their effects on irradiated materials.

 Measurement of x and gamma rays

 Interaction of x-rays with the patients

 Radiographic image

 The image receptor

 Contrast media.

 Radiation protection & Radiation hazard

 Picture archiving and communication system (PACS) and Radiology Information system

 Image quality and quality assurance

 Radionuclide imaging (gamma camera, spect. PET)

 Computed tomography

 Principles of diagnostic ultrasound and Doppler

 Magnetic resonance imaging

Radiography and Processing techniques

 Dark room technique

 Radiography of the extremities

 Radiography of the spine, abdomen, pelvic girdle and thorax

 Radiography of the skull

 Contrast techniques of GI tract, biliary tract, GU tract

 Contrast techniques of C.N. system

 Contrast techniques of the cardio vascular system including chest

 Miniature radiography, macro radiography & magnification techniques

 Pediatric Radiography

 Dental, portable and emergency radiography

 Contrast & contrast reactions

 Quality Assurance

Anatomy

 Gross and cross sectional anatomy of all the body systems.

Pathology

 Gross morphology of pathologies condition of systemic disease.

Radiodiagnosis – Course Contents

Various diseases involving the following systems-

 Musculoskeletal System

 Respiratory System

 Cardio-vascular system

 Gastro-intestinal tract including Hepatobiliary system

 Urogenital tract.

 C.N.S. including spine

 Radiology of obstetric and Gynecology

 E.N.T, EYES, Teeth, soft tissue, Breast.

 Endocrinal Glands

 Clinical applied radionuclide imaging.

 PAC'S, digital radiography and other recent advances, molecular and Functional imaging.

 Emergency radiology and trauma

 Interventional Radiology related to different system of the body.

 Radiation Physics.

Contrast Agents: -

Contrast media, their type, formulation, mechanisms of action, dose schedule, routes of administration, adverse reactions and their management and recent development.

The Respiratory System

 The normal chest, methods of investigations, techniques, interpreting chestradiograph and disease differential diagnosis. The mediastinum, chest wall, pleura and diaphragm; Diseases of airways: collapse and consolidation; pulmonary infections; pulmonary neoplasm's;

 Diffuse lung diseases; occupational lung disease; chest trauma, pulmonary thromboembolism; chest in critical care patients, interventional techniques; chest in neonates, and pediatric chest radiology.

The Cardiovascular System:

 Goal is to provide experience in the role of imaging in cardiovascular diseases by different techniques including cardiac cathaterization and cardiac angiography, Digital subtraction angiography (DSA) and interventional procedures in non cardiac arterial and venous diseases

 Diseases and disorders of cardiovascular system including congenital conditions and the role of imaging by conventional, ultrasound, Echo, color-Doppler, CT, MRI, angiography (including DSA) and radionuclide studies. It also includes interventional procedures e.g; balloon angioplaty, embolization etc

 Understand the anatomy and common pathology of congenital and acquired cardiac conditions.

 Correlate plain film findings of common congenital abnormalities with those shown by angiography and explain the pathophysiology including abnormal pressure measurements.

 Correlate plain film findings and the echocardiographic studies of patients with acquired valvular diseases and other common pathologic conditions including pericardial pathology.

 Understand the role of newer modalities like CT/MRI, in aortic diseases e.g., aorto- arteritis, aortic dissection and aortic aneurysm.

 Should be able to perform fluoroscopy on patients before and after valve replacement and identify those with complications after valve replacement.

 Understand the principle and logic behind various interventional procedures carried out in the cardiovascular labs e.g; PTCA, balloon dilatation of valvular lesions, septostomy etc.

 The normal heart: anatomy and techniques of examination.

 Acquired heart disease

 Techniques: the chest radiograph, non-invasive imaging echocardiography, nuclear imaging, CT, MRI. Invasive imaging and interventional techniques

 Congenital heart disease, ischemic heart disease, radiology of pulmonary circulation, cardio my apathies and tumors, pericardial disease cardiac transplant surgery; role of Radiology in cardiac prostheses and

 pacemakers, Arteriography and interventional angiographic techniques, Phlebography

The Abdomen and Gastrointestinal Tract

 Basic anatomy and physiology in clinical practice relevant to imaging examinations of the gastrointestinal tract, hepatobiliary tract, pancreas

 Clinical significance of pathology associated with clinical presentation and link with likely diagnoses

 Construction of appropriate imaging pathway and protocol considering different pathologies and management options and according to available resource and case complexities

 Common surgical procedures, expected post-operative imaging appearances and common complications

 Understand indications, contraindications and limitations of relevant specialized barium/contrast imaging examinations of the gastrointestinal and hepatobiliary tract

 Role of plain films in modern era imaging of GIT

 Conventional examination of GIT using barium and water soluble contrast media- esophagus, upper gastrointestinal study, follow through for small bowel (including small bowel enteroclysis) and enema (both conventional and double contrast) for colon.

 Other investigations done using fluoroscopic guidance - fistulogram, sinogram, t-tube cholangiography, sialography etc.

 Examination of liver, biliary system and pancreas using all the imaging modalities available to a radiologist including specialized investigations like ERCP, PTC and interventional procedures like abscess drainage, percutaneous trans hepatic biliary drainage (PTBD, internal and external), tumor embolization, radiofrequency(RFA) ablation etc.

 Indications and limitations of ultrasound, CT and MR

 Understand indications, limitations and contraindications of various interventional radiology techniques

 Diseases and disorders of GIT, omentum, peritoneum and mesentery. Diseases and disorders of hepato-biliary-pancreatic system. Conventional and other imaging methods like US, CT, MRI, DSA and isotope studies pertaining to these systems.

 The Abdomen : Normal appearance, abdominal calcification, acute abdomen, pneumperitoneum, post operative abdomen, Intraperitoneal fluid, inflammatory conditions, intraabdominal abscesses, intramural gas and other conditions.

 The Esophagus-anatomy and normal appearances, radiological investigation like barium, usg, including endovascular, CT, MRI. diseases- hiatus hernia, oesophagitis, neoplasm, esophageal Varices, associated dermatological conditions, trauma, esophageal web, motility disorders,eosophageal diverticulum, extrinsic esophageal compression, post operative changes,

scintigraphy.

 The Stomach - anatomy and normal appearances, radiological and imaging investigations, inflammatory diseases, tumors, structural and functional abnormalities, extrinsic masses, post operative stomach- USG, CT, MRI, examination, radionuclide studies.

 The Duodenum and small bowel-anatomy and normal appearances, radiological investigations (Barium meal follow through, enteroclysis, CT,MRI, with CT/MRI enteroclysis, virtual endoscopy). diseases- neoplasms, infections, and infestations, radiation enteritis, mechanical small bowel intestinal obstruction, ischemia, intramural hemorrhage, diverticulitis, and blind loop, neuromuscular disorders, malabsorption syndromes, immunological disorders, radionuclide studies of small bowel.

 Large Bowel-Anatomy, colonic function, investigations like (Barium, CT, MRI,Colonography, virtual colonoscopy), diseases- tumors, diverticular diseases, colitis, miscellaneous conditions, appendicitis, Scintigraphic detection of bleeding,

 Abdominal imagingLiver: gross anatomy, plain film diagnosis, investigations like USG, CT, MRI, MRCP, PTC, ERCP, T-tube cholangiography, vascular studies, hepatobiliary interventions., portal hypertension, focal masses, diffuse liver disease, inflammatory disease of liver, gall bladder and biliary diseases, gall bladder masses, radiology in liver transplantation. Radiology of spleen pancreas, peritoneum and mesentery, Pancreas; embryology, radiological anatomy, techniques of examination, radiological diagnosis and interventional treatment

 GI manifestation of AIDS; Radiological evaluation, techniques, lesions, oesophagitis, lesions involving stomach, small bowel, colon, biliary tract, ymphadenopathy.

 GI angiography – general considerations, celiac and hepatic, pancreatic, SMA & IMA angiography, GI bleeding, angiography in portal hypertension, PTA and mesenteri ischemia.

 Newborn and young infant: lesions causing obstruction, atresia, gastric, antral or pyloric atresia, small bowel atresia, anal atresia and imperforate anus, anomalies of rotation and mid gut volvulus, enteric duplication, hypertrophic pyloric stenosis, gastro esophageal reflux and hiatus hernia, Hirschsprung's disease, colonic immaturity, neonatal small left colon syndrome, meconeum plug syndrome, meconium ileus, intussusceptions, necrotizing enterocolits

 Role of Imaging in Fetal Medicine

 Acute abdomen - investigations and interpretations with abdominal trauma imaging

 Radiology of Post-operative abdomen and organ transplantation (Liver, Pancreas, etc.)

 Ischemic conditions of Bowel and Mesentery and role of arteriography and Doppler study

 Upper and lower GI bleeding and GI radiological investigations including scintigraphy

 GI manifestation of AIDS; Radiological evaluation, techniques, lesions, esophagitis, lesions involving stomach, small bowel, colon, biliary tract, lymphadenopathy

Endocrine Disease

 Introduction, Pathophysiology, radiological techniques, hypothalamus, pineal, pituitary, thyroid, para thyroid, thymus, pancreas, GI tumors, adrenal, female reproductive system, male reproductive system

Genito-Urinary System –

 Applied anatomy to interpret uro-gynaecological imaging

 Clinical significance of pathology associated with presentation and link with likely diagnoses

 Knowledge of local/regional guidelines in relation to clinical presentation

 Various diseases and disorders of genito-urinary system including congenital,inflammatory, infectious, traumatic, neoplastic, calculus disease and miscellaneous conditions.

 Performance, direction and interpretation of the conventional radiological examinations of the urinary tract including: intravenous urography; cystograms, micturating cystourethrography (MCU), hysterosalpingography (HSG) and retrograde urethrography (RGU).

 Diagnostic imaging modalities and procedures which are used to evaluate urinary tract pathology i.e. Ultrasound, CT, MRI, angiography, as well as various interventional procedures like percutaneous nephrostomy, radio frequency ablation (RFA), kidney biopsy, stent placement, antegrade pyelography, tumor embolization etc.

 Emergency conditions involving the urinary tract including trauma, infection, vascular compromise and obstruction.

 Evaluation of renal mass lesions and the evaluation of other urinary tract neoplasms, including the detection and staging of the tumor.

 Recognition of the difference between the pattern of diseases affecting the genitourinary tract of adults and that of children and understand and identify the common conditions affecting the pediatric genito-urinary system on imaging.

 Evaluation of renal failure & post-transplant kidney.

 Miscellaneous including cystic disease of kidney, nephrocalcinosis, lower urinary tract obstruction/infection and post-operative problems, male infertility imaging and interventions and trauma of genito-urinary tract

 Interventional Uroradiology – Percutaneous nephrostomy, renal cyst puncture, FNAC and ureteric stenting.

 The female reproductive system: ultrasound in obstetrics and gynecology, antenatal ultrasound including TIFFA, NT/NB, obstetric doppler evaluation

 , imaging in gynecology, MRI of female pelvis, radiological techniques in obstetrics and gynecology, congenital anomalies of female genital tract, inflammatory diseases, tumors of pelvis.

 Imaging in infertility with detailed knowledge of HSG

 Methods of investigation – plain films, IVU, MCU, ultrasound, CT scanning, MRI, MR-angiography, antegrade pyelography, retrograde pyelography, cavernosography, radionuclide imaging. Nuclear medicine in genitourinary tract, clearance techniques, dynamic renal scan, static renal scan, V-U reflux, role of radionuclide scanning in renal infections, Urodynamics, lower urinary tract studies, applications in bladder instability, urinary incontinence, outflow obstruction, neurogenic bladder, & upper urinary tract, disease.

 Renal parenchymal disease; anatomy, normal appearances, differential diagnosis, renal infections. Renal masses: modalities available for diagnosis, nonneoplastic renal masses, neoplastic renal masses - benign and malignant, calculus disease and urothelial lesions, nephrocalcinosis, other lesions, staging of upper urinary tract tumors, staging of balder tumors.

 Urinary obstruction: Pathophysiology, diagnosis by different modalities, non obstructive dilatation, causes of obstruction, urinary bladder; normal anatomy, radiological evaluation, pathologies, prostate: Normal anatomy, radiological investigations, congenital processes, infection, calculi, tumors, BHP, carcinoma. Reno vascular hypertension, renal arteriogrpahy, Reno vascular disorders, Reno vascular HT - etiology, management, investigative strategy, identification of renal artery stenosis, significance of renal artery stenosis, radiological treatment of Reno vascular hypertension, PTA, embolization in Reno vascular HT. Injuries to urinary tract-kidney, ureter, bladder and urethra classification of renal injuries, principles of management, evaluation, imaging, modalities, radiological findings, complications. Renal failure and transplantation; renal size and collecting system dilatation, diagnosis of causes of failure, transplant - investigation of donor, IVU, vascular studies, radionuclide imaging, evaluation of recipient, surgical techniques, transplant kidney – radionuclide imaging, ultrasound, angiography, CT, MRI and complications of transplantation.

 Paediatic uroradiolgoy: introduction, techniques, embryology, congenital anomalies, neonatal conditions, infections and V-U reflux, hypertension in a child, renal tumors in childhood.

Musculoskeletal System

 Skeletal Trauma: General conditions, spine: cervical, thoracolumbar, pelvis and acetabulum, appendicular skeleton. General classification of bone lesions, benign tumors & cysts of bone, giant cell tumors, tumors of fibrous origin, other tumors, tumor like conditions synovial tumors, malignant bone tumors, metastatic lesions, primary malignant tumors,– chondral origin, osteoid origin, fibrous origin, marrow origin, notochord origin, synovial origin, other tumors.

 Bone and joint infections: periostetis and osteomyelitis, chronic osteomyelitis, bone and joint infections, in neonates, infections arthritis, granulomatous arthritis, parasitic and fungal infections, viral disorders, sarcoidosis, diabetic osteopathy, infected prostheses.

 Metabolic and endocrine diseases of the skeleton, anatomy, and physiology; increase and decrease in the bone density, generalized or localized; quantitative bone mineral analysis. Skeletal dysplasia's; normal bone growth, disorders affecting growth plate, disorders affecting epiphysis and apophyses metaphyses, diaphyse mucopolysacchariodoses, mucolipidoses, miscellaneous conditions including neurofibromatosis and Paget's disease, chromosomal disorders; Cranio – vertebral instability, joint disorders, Patho physiological concept and diagnostic approach Inflammatory (synovial) arthropathies, connective tissue disorders, crystal deposition arthropathies, degenerative joint arthropaties, degenerative disease of spine, arthography, radiology of soft tissues; imaging techniques, focal lesions, calcification and ossification. Gas in soft tissue, soft tissues tumors; musculo skeletal system in children-development and nutrition; Congenital anomalies and bone Dysplasia, inflammatory neoplastic, traumatic, endocrine, metabolic and systemic skeletal disorders in children; radiology of Nchild abuse;

 Musculo Skeletal CT (computed tomography), techniques aspects of clinical applications; in trauma; musculo skeletal infections neoplasm's and low-back pain syndromes, quantitative bone mineral analysis, uses in joint diseases, CTbased interventional techniques

 Musculo skeletal MR (Magnetic Resonance Imaging), normal signals, bone marrow-reconversion, infiltration or, replacement, bone marrow edema, myeloid depletion, bone ischemia, bone tumor imaging, joint imaging; Radionuclide bone imaging: Technique, normal bone scan, specific applications.

 Ultrasound in Musculoskeletal system for assessment of muscular, tendinous and ligamentous pathologies and joint.

Central Nervous System:

 Methods of examination and diagnostic approach; cranial and intracranial pathologies, intracranial tumors- supra and infratentorial, pituitary tumors, intracranial infections, degenerative disorders, demyelinating disorders, cerebro-vascular ischemia, intracranial vascular abnormalities, HIV infectionscerebral complications.

 Spine: methods and diagnostic approach. Plain Radiography, CT, MRI, Myelography, spinal angiography. Radionuclide imaging of CNSRadiopharmaceutical and bloodbrain barrier(BBB), scintigraphy, radinuclide arteriography, positron emission tomography(PET), receptor imaging, monoclonal body imaging, ultrasound of infant brain. Ophthalmology, ENT and Face; Maxillofacial and Dental Radiology

 Orbits: anatomy and techniques, intraocular abnormalities, orbital pathology, orbital trauma, inflammatory disease, space occupying lesions;

 Nose and Para nasal sinuses, Ear-Anomalies or development, methods of investigation, HRCT temporal, anatomy and diseases, MRI for inner ear, mouth, pharynx and larynx, Para pharyngeal spaces.

 Ocular ultrasound and its applicationsin detection of posterior segment diseases

 Neck anatomy on various modalities and diseases and application of various imaging modalities like CT, MRI, and Isotope studies, PET, SPECT etc

 Neck spaces anatomy in relevance to spread of various diseases across different spaces and compartments.

 Diseases Involving larynx- congenital, infectious, inflammatory and neoplastic

 Malignant & benign neoplastic diseases of head and neck region

 MRI for inner ear, mouth, pharynx and larynx, Para pharyngeal spaces.

 Maxillofacial pathology, fracture, benign lesions, malignant lesions, differential diagnosis of radiolucent and radio opaque lesions, abnormalities of growth and development, tempomandibular joint, salivary glands, soft tissue calcification, dental radiology, anatomy of teeth and supporting structure

 Dental radiology, anatomy of teeth and supporting structure

 Developmental anomalies, eruption of teeth, dental carries, pulpuitis and periapical infection, periodontal disease, fracture of teeth and alveolar bone, resorption of teeth, Neck anatomy on various modalities and diseases.

Reticuloendothelial Disorders

 Lymphoma-pathology and imaging, spleen- Imaging, interventional techniques

 Imaging in oncology-General methods in oncological diagnosis, staging and follow-up, ovarian tumors, nonseminomatous germ cell tumor, colorectal cancers, lung cancer and others

 Radiotherapy, treatment planning, interventional radiology-complication and treatment, radionuclide imaging in oncology, HIV infection and AIDS (Acquired immunodeficiency syndrome), background, epidemiology, treatment pathogenesis, natural history diagnosis complication and treatment

 Myeloproliferative disorders: red blood cell disorders, chronic hemolytic anemia's, other anemia's and bone marrow dyscrasias, white cell disorders, lymphoma, plasma cell disorders, reticulo- endothelial disorders, hemophilia and other bleeding disorders

Angiography –intervention and other techniques

 Embolization, Percutaneous Trans luminal angioplasty, regional arteriography, head and neck, thorax, abdomen, upper and lower extremity angiography, angiography for endocrinal glands.

Venography

 Technique and complications, regional venography of head and neck, thorax and abdomen-SVC venography, IVC venography, Azygos and ascending lumbar venography, Mesenteric and portal venography, gonadal venography, pelvic venography, venous sampling, interventional technique in venous system.

Vascular Imaging

 Doppler Ultrasound, clinical applications, volumetric flow measurements, color- flow imaging, artifacts, error and pitfalls, power Doppler and endovascular ultrasound

 Interventional radiology: informed consent, biopsy procedures

 Percutaneous decompression, extraction and drainage

 Image guided therapy

 Interventional vascular techniques

 Percutaneous techniques for vascular extractions impact on medicine and radiology

The Breast:

 Understand anatomy and physiology of breast, changes with age and patterns of disease spread and principles of differentiation between normal breast, benign and malignant disease

 Physics of image production and how it affects image quality with respect to mammography, ultrasound & breast MRI with indications for and determining optimal imaging examination

 Clinical presentation, pathogenesis and basic principles of treatment of breast disease

 Role of conventional and digital mammography in screening of breast cancer, benign and malignant lesions of the breast

 Understand basic principles underlying population screening and assessment of screen detected abnormalities

 Breast ultrasound - discriminate cystic v solid mass; recognize typical features of benign and malignant masses; identify and discriminate between normal and abnormal axillary lymph nodes.

 Image guided cyst aspiration, abscess drainage, fine needle aspiration and core biopsy under supervision, Vacuum assisted biopsy (VAB), stereotactic FNAC and biopsy, ductography.

 BIRADS and New BIRADS system for lesion characterization and quality assurance

 MRI breast with emphasis on use of volume MR with newer sequences in breast imaging like DWI & PWI

 Breast tomosynthesis

 Role of breast cancer screening and guidelines

 The mammographic technique, equipment and quality control, indications for mammography, normal anatomy, benign conditions, carcinoma, calcifications, breast screening, lesion localization, breast ultrasound. Role of MRI, PET, thermography, Elastography, CT, Image guided interventions for diagnosis and therapy of breast lesions

Diagnostic Techniques and General Conditions-

 Picture archiving and communication systems and digital radiology, intravascular iodinated contrast media, general principles of ultrasound, vascular ultrasound, recent

developments in whole body Computed tomography, Basic principles of Magnetic Resonance Imaging, General Principles of Radionuclide imaging, dual energy X-ray absorptionetry, functional imaging, medico legal issues in diagnostic and interventional radiology, patient dosage and radiation protection in diagnostic imaging cost benefit.

Radiology Emergency Medicine

 The student should be able to evaluate emergency radiographic examinations with reasonable accuracy and have clear understanding of the protocol of imaging in emergency situations of different organ systems.

Diagnostic Techniques

General Radiology

The student should be able to evaluate conventional radiographs including radiographs on chest abdomen, pelvis, skull (including PNS+Orbit), spine, musculoskeleton and soft tissues. Student should be able to perform radiography of different body parts

Ultrasound

The student should be able to perform and interpret all ultrasound studies. These studies include: abdomen, pelvis, small parts, neonatal head, breast, color duplex imaging (arterial and venous studies), obstetric/gynecology and intervention procedures using ultrasound guidance.

CT

 Select CT protocol according to the clinical diagnosis.

 Demonstrate knowledge of the CT finding of the common pathological conditions.

 Interpret conventional and modified body CT examinations like HRCT, dual/triple phase, Vertical CT etc.

 Know limitations of CT in the diagnosis of certain diseases.

 Perform CT guided simple interventions (under supervision)

Angiography

Should be able to perform (under supervision) and interpret routine angiographic procedures and vascular interventions.

MRI

 Select MRI protocol according to the clinical diagnosis

 Knowledge of conventional and modified MRI examinations, including MRA, MRV, MRCP, MRS.

 Demonstrate knowledge of the MRI of the common pathological conditions.

 Mammography and Breast Intervention

Interventional Radiology

The student should be able to perform (under supervision) simple interventional procedures of all the organ systems.

 Vascular interventional radiologic procedures such as Percutaneous transluminal angioplasty, stenting, embolization using various embolic material and arterial & venous thrombolysis.

 Various non-vascular interventional procedures such as percutaneous nephrostomy, stenting, abscess drainage, PTC/PTBD, biliary stenting percutaneous US/CT guided biopsy, balloon dilatation of the esophagus etc

 Regional arteriography of head and neck, thorax, abdomen, upper and lower extremities.

 Venography; technique and complications, regional venography of head and neck, thorax and abdomen-SVC venography, IVC venography, Portal venography, gonadal venography, pelvic venography, venous sampling, interventional technique in venous system

 Trans arterial chemoembolization & Trans arterial radio embolization – indications, technique and complications

 Doppler evaluation and endovascular management of varicose veins

 Neurointerventions in stroke. Aneurysm, AVM, fistula

 Bone biopsy

 Radiofrequency ablation: indications, techniques and contraindications

 Digital subtraction angiography: equipment, applications,

 Radiation protection during interventional procedures

Recent Advances in Radiology

Oncologic Radiology

 At the end of the rotation the resident should be able to interpret radiological investigations in patients with neoplastic diseases (both benign and malignant)

 Understand pathology and patho-physiology of common neoplasms.

 Learn the algorithmic approach to image these patients based on the suspected disease, its biological behavior and potential and limitations of various imaging modalities.

 Perform appropriate investigation (both conventional and newer methods), interpret the results and reach at a reasonable diagnosis/ differential diagnosis based on the clinical and biochemical results.

 Learn to communicate the results in a precise way in a written report to theconcerned unit.

Nuclear Medicine

At the completion of this rotation the resident should be able to interpret common nuclear medicine examinations (including cardiac cases).

 Student should be able to evaluate the examinations for completion and determine what further images (including non nuclear medicine) need to be done.

 Student should have a good understanding of the physical and biological properties of the commonly used radiopharmceuticals and become familiar with safe handling of isotopes and basic radiation safety measures while dealing with isotopes.

Biostatistics, Research Methodology and Clinical Epidemiology

Ethics

Medico legal aspects relevant to the discipline

Health Policy issues as may be applicable to the discipline

Practicals

 Physics

 Film characteristics

 Effectiveness of Lead Apron and other protective Devices

 Beam parameters check

 Optical Radiation field alignment

 Assessment of Scatter radiation

 Quality control of X-rays and Imaging equipments

 Evaluation of performance of a film processing unit

 Practical radiography

 Dark room techniques

 Radiography of the extremities

 Radiography of the spine, abdomen, pelvic girdle and thorax

 Radiography of the skull

 Contrast techniques and interpretation of GI tract, biliary tract, etc.

 Contrast techniques and interpretation of the Genito-urinary system

 Contrast techniques and interpretation of the central nervous and

cardiovascular system

 Miniature radiography, Macro-radiography and magnification techniques

 Dental and portable radiography

 Anatomy

 Gross and cross sectional Anatomy of all the body systems

 Pathology

 Gross morphology of pathological condition of various systems

 Contrast Media

 Their types, formulations, mechanism of action, dose schedule, routes of administration, adverse reactions and their management.

Career Options

After completing a DNB in Radio Diagnosis, candidates will get employment opportunities in Government as well as in the Private sector.

In the Government sector, candidates have various options to choose from, including Registrar, Senior Resident, Demonstrator, Tutor, etc.

While in the Private sector the options include Resident Doctor, Consultant, Visiting Consultant (Radio Diagnosis), Junior Consultant, Senior Consultant (Radio Diagnosis), Consultant Radio Diagnosis Specialist, etc.

Courses After DNB in Radio Diagnosis Course

DNB in Radio Diagnosis is a specialization course that can be pursued after finishing MBBS. After pursuing a specialization in DNB (Radio Diagnosis), a candidate could also pursue super specialization courses recognized by NMC, where DNB (Radio Diagnosis) is a feeder qualification.

DM Neuroradiology, DM Interventional Radiology are the courses that require DNB (Radio Diagnosis) as a feeder qualification.

Frequently Asked Questions (FAQs) – DNB in Radio Diagnosis Course

Question: What is a DNB in Radio Diagnosis?

Answer: DNB Radio Diagnosis or Diplomate of National Board in Radio Diagnosis also known as DNB in Radio Diagnosis is a Postgraduate level course for doctors in India that is done by them after completion of their MBBS.

Question: Is DNB in Radio Diagnosis equivalent to MD in Radio Diagnosis?

Answer: DNB in Radio Diagnosis is equivalent to MD in Radio Diagnosis, the list of recognized qualifications awarded by NBE in various broad and super specialties as approved by the Government of India are included in the first schedule of the Indian Medical Council Act, 1956.

Question: What is the duration of a DNB in Radio Diagnosis?

Answer: DNB in Radio Diagnosis is a postgraduate programme of three years.

Question: What is the eligibility of a DNB in Radio Diagnosis?

Answer: Candidates must be in possession of an undergraduate MBBS degree from any college/university recognized by the Medical Council of India (now NMC).

Question: What is the scope of a DNB in Radio Diagnosis?

Answer: DNB in Radio Diagnosis offers candidates various employment opportunities and career prospects.

Question: What is the average salary for an DNB in Radio Diagnosis postgraduate candidate?

Answer: The DNB in Radio Diagnosis candidate's average salary is between Rs. 5,00,000 - Rs. 25,00,000 per year depending on the experience.

Question: Are DNB Radio Diagnosis and MD Radio Diagnosis equivalent for pursuing teaching jobs?

Answer: The Diplomate of National Board in broad-speciality qualifications and super speciality qualifications when granted in a medical institution with attached hospital or in a hospital with the strength of five hundred or more beds, by the National Board of Examinations, shall be equivalent in all respects to the corresponding postgraduate qualification and the super-speciality qualification granted under the Act, but in all other cases, senior residency in a medical college for an additional period of one year shall be required for such qualification to be equivalent for the purposes of teaching also.