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B-SC-ALLIED-HEALTHCARE-MEDICAL-RADIOLOGY-AND-IMAGING-TECHNOLOGY-MRIT in General at Chitkara University
Patiala, Punjab
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About the Specialization
What is General at Chitkara University Patiala?
This Medical Radiology and Imaging Technology (MRIT) program at Chitkara University focuses on equipping students with advanced skills in diagnostic imaging. It addresses the growing demand for skilled radiographers and imaging professionals in the Indian healthcare sector. The program emphasizes hands-on training, cutting-edge technology, and patient care, preparing graduates for diverse roles in clinics and hospitals across India.
Who Should Apply?
This program is ideal for fresh 10+2 graduates with a science background (Physics, Chemistry, Biology/Maths) aspiring for a career in medical diagnostics. It also caters to individuals seeking a robust foundation in imaging technology to contribute to the healthcare industry. Students with a keen interest in human anatomy, physics, and technological applications in medicine will thrive in this challenging yet rewarding field.
Why Choose This Course?
Graduates of this program can expect promising career paths as Radiographers, CT Technicians, MRI Technicians, or Sonographers in India. Entry-level salaries typically range from INR 2.5 to 4.5 LPA, with experienced professionals earning significantly more. The program aligns with industry standards, fostering continuous professional development and opportunities for specialization in advanced imaging modalities within Indian hospitals and diagnostic centers.
Student Success Practices
Foundation Stage
Master Foundational Sciences and Lab Skills- (Semester 1-2)
Dedicate significant time to understanding Human Anatomy, Physiology, Pathology, and basic Medical Physics. Actively participate in all lab sessions (Anatomy, Physiology, Physics, Pathology, Pharmacology) to develop strong practical skills in identification, observation, and basic diagnostic procedures.
Tools & Resources
Anatomy atlases, physiology textbooks, lab manuals, microscopic slides, simulation software for basic medical physics
Career Connection
A strong understanding of these fundamentals is crucial for accurate image interpretation and patient care, laying the groundwork for advanced imaging techniques required in placements.
Develop Communication and Ethical Patient Care Skills- (Semester 1-2)
Focus on enhancing communication and soft skills to effectively interact with patients and healthcare teams. Practice ethical principles of patient care, empathy, and maintaining confidentiality, especially during initial clinical observations.
Tools & Resources
Role-playing exercises, hospital ethics guidelines, case studies on patient interaction, communication workshops
Career Connection
Excellent communication and patient handling skills are non-negotiable for radiographers, ensuring patient comfort and cooperation during imaging procedures, which is highly valued by employers.
Build a Strong Academic Network & Study Habits- (Semester 1-2)
Form study groups with peers to discuss complex topics, share notes, and prepare for exams. Develop consistent study habits, including reviewing concepts regularly and seeking clarification from faculty. Participate in academic quizzes or challenges related to allied health.
Tools & Resources
University library resources, online academic platforms like Coursera for supplementary learning, peer study circles, faculty office hours
Career Connection
Strong academic performance and effective teamwork fostered early on are essential for success in challenging medical environments and for excelling in entrance exams for higher studies or competitive job interviews.
Intermediate Stage
Intensive Clinical Training and Radiography Practice- (Semester 3-5)
Maximize learning during Clinical Training/Internship (I, II, III). Actively assist senior radiographers, practice patient positioning for various radiographic techniques, and meticulously document procedures. Seek feedback on practical skills and image quality from clinical supervisors.
Tools & Resources
Clinical logbooks, X-ray machines, simulation phantoms, PACS systems for image review, departmental protocols
Career Connection
Hands-on experience directly translates to job readiness. Proficient practical skills in radiography are paramount for securing good placements and performing competently from day one.
Specialize in Core Imaging Modalities- (Semester 3-5)
Dive deep into understanding and operating advanced modalities like Darkroom Techniques, Quality Control, Radiation Biology & Safety, Basic Ultrasonography, CT, and MRI. Utilize lab sessions to gain practical proficiency with the equipment and image processing software.
Tools & Resources
Darkroom equipment, QA tools, ultrasound machines, CT/MRI simulators/actual machines, image processing software, official safety manuals
Career Connection
Expertise in multiple imaging modalities makes you a versatile and highly sought-after professional in the Indian diagnostic market, opening doors to specialized roles and higher remuneration.
Engage in Research and Biostatistics Applications- (Semester 5)
Actively participate in the Research Methodology & Biostatistics course. Identify a topic of interest, conduct preliminary literature reviews, and understand data analysis techniques relevant to medical imaging. Consider joining faculty research projects if opportunities arise.
Tools & Resources
Statistical software (e.g., R, SPSS Basic), academic journals, university research databases, mentorship from research faculty
Career Connection
Research skills enhance critical thinking and problem-solving, valuable traits for senior roles, quality improvement initiatives, and potential academic careers in radiology, giving you an edge in a competitive field.
Advanced Stage
Master Advanced Imaging and Informatics- (Semester 6)
Focus intensely on Nuclear Medicine, PET CT, Medical Imaging Informatics, and PACS. Understand the integration of technology and data management in modern radiology. Gain proficiency in using hospital information systems and teleradiology platforms during final internships.
Tools & Resources
Nuclear medicine equipment, PET-CT scanners (observation), PACS workstations, HIS/RIS systems, DICOM viewers, teleradiology platforms
Career Connection
Mastery of these advanced areas is crucial for working in large, technologically advanced hospitals and diagnostic chains, enhancing your value and opening up roles in medical informatics.
Excel in Project Work and Presentation Skills- (Semester 6)
Dedicate effort to the final Project Work. Choose a relevant and impactful topic, conduct thorough research, analyze findings, and prepare a professional report and presentation. Seek guidance from faculty mentors throughout the project lifecycle.
Tools & Resources
Research databases, academic writing guides, presentation software, project management tools, faculty mentorship
Career Connection
A well-executed project demonstrates independent research capability, analytical skills, and presentation prowess – key attributes highly valued by employers and essential for career progression and leadership roles.
Strategic Career Planning and Placement Preparation- (Semester 6)
Actively participate in final year clinical training with a focus on potential job roles. Prepare a strong resume and portfolio showcasing practical skills and project work. Attend campus recruitment drives, mock interviews, and workshops focused on cracking placement interviews. Network with alumni and industry professionals.
Tools & Resources
Career services department, resume builders, LinkedIn for networking, company websites for research, interview preparation guides
Career Connection
Proactive and strategic placement preparation ensures a smooth transition into employment, helping secure desirable positions at reputable healthcare institutions and kickstarting a successful career in medical imaging.
Program Structure and Curriculum
Eligibility:
- 10+2 with Physics, Chemistry & Biology/Maths with minimum 50% aggregate marks
Duration: 3 years / 6 semesters
Credits: 140 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BS101 | Human Anatomy | Core | 4 | Introduction to Human Anatomy, Skeletal System, Muscular System, Cardiovascular System, Respiratory System, Digestive System |
| BS102 | Human Physiology | Core | 4 | General Physiology, Blood and Body Fluids, Cardiovascular System, Respiratory System, Digestive System, Excretory System |
| MR103 | Basics of Medical Physics | Core | 4 | Atomic Structure, Basic Electricity, Magnetism, Sound and Light, Nuclear Physics, Radiation Physics |
| HM104 | General Principles of Hospital Practice & Patient Care | Core | 3 | Hospital Organization, Patient Care Ethics, Communication Skills, Infection Control, First Aid, Basic Life Support |
| HM105 | Communication & Soft Skills | Core | 2 | Introduction to Communication, Verbal and Non-Verbal Communication, Listening Skills, Presentation Skills, Group Discussion, Interview Skills |
| EN106 | Environmental Studies | Core | 2 | Multidisciplinary nature of Environmental Studies, Ecosystems, Biodiversity, Environmental Pollution, Social Issues and Environment, Human Population and Environment |
| BS107 | Human Anatomy Lab | Lab | 1 | Identification of Bones, Organ Systems, Histology Slides, Dissection Procedures |
| BS108 | Human Physiology Lab | Lab | 1 | Blood Grouping, ECG Interpretation, Spirometry, Nerve Muscle Physiology, Reflexes |
| MR109 | Basics of Medical Physics Lab | Lab | 1 | Electricity Experiments, Radiation Measurement, Light and Optics Experiments, Sound Wave Experiments |
| MR110 | Computer Application in Radiology (Theory + Lab) | Core + Lab | 2 | Basic Computer Concepts, Operating Systems, MS Office, Internet and Email, Picture Archiving and Communication Systems (PACS), Hospital Information System (HIS) |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BS201 | Pathology | Core | 4 | General Pathology, Inflammatory Responses, Neoplasia, Circulatory Disturbances, Systemic Pathology, Clinical Pathology |
| BS202 | Pharmacology | Core | 4 | General Pharmacology, Autonomic Nervous System Drugs, Cardiovascular Drugs, Central Nervous System Drugs, Renal System Drugs, Gastrointestinal Drugs |
| MR203 | Basics of Radiographic Anatomy & Physiology | Core | 4 | Introduction to Radiographic Anatomy, Skeletal System Radiography, Thoracic Radiography, Abdominal Radiography, Pelvic Radiography, Cranial Radiography |
| MR204 | Radiation Physics | Core | 4 | X-ray Production, Interaction of Radiation with Matter, Radiation Quantities and Units, Radiation Detection, Biological Effects of Radiation, Radiation Protection |
| HM205 | Psychology & Sociology | Core | 3 | Introduction to Psychology, Human Behavior, Personality, Learning, Socialization, Health and Illness |
| MR206 | Pathology Lab | Lab | 1 | Microscopic Examination of Tissues, Staining Techniques, Specimen Handling, Basic Hematology Tests |
| MR207 | Pharmacology Lab | Lab | 1 | Drug Administration Routes, Dose Calculation, Drug Interactions, Adverse Drug Reactions, Pharmaceutical Preparations |
| MR208 | Radiation Physics Lab | Lab | 1 | Radiation Dose Measurement, Detector Calibration, Shielding Experiments, Dosimetry |
| MR209 | Basic Radiographic Anatomy & Physiology Lab | Lab | 2 | X-ray Film Analysis, Positioning for Various Radiographs, Identification of Anatomical Landmarks |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MR301 | Radiographic Techniques – I | Core | 4 | Positioning Principles, Upper Limb Radiography, Lower Limb Radiography, Shoulder Girdle Radiography, Pelvic Girdle Radiography, Vertebral Column Radiography |
| MR302 | Darkroom Techniques & Image Processing | Core | 4 | Darkroom Design, Film Processing Chemistry, Manual Processing, Automatic Processing, Digital Image Acquisition, Image Enhancement |
| MR303 | Quality Control in Radiology | Core | 4 | Quality Assurance Concepts, X-ray Equipment QA, Film Processor QA, Digital Radiography QA, Image Quality Assessment, Radiation Protection QA |
| MR304 | Radiographic Techniques – I Lab | Lab | 2 | Practical Positioning for Upper & Lower Limbs, Pelvis, Vertebral Column, Image Acquisition Practice |
| MR305 | Darkroom Techniques & Image Processing Lab | Lab | 2 | Manual Film Processing, Automatic Processor Operation, Digital Image Processing Software, Image Archiving |
| MR306 | Clinical Training / Internship – I | Internship | 8 | Practical Exposure in X-ray Department, Patient Handling, Assisting Radiographers, Image Acquisition Practice, Documentation |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MR401 | Radiographic Techniques – II | Core | 4 | Chest Radiography, Abdominal Radiography, Cranial Radiography, Facial Bones Radiography, Dental Radiography, Contrast Media Procedures |
| MR402 | Radiation Biology & Radiation Safety | Core | 4 | Biological Effects of Radiation, Deterministic Effects, Stochastic Effects, Radiation Protection Principles, ALARA Principle, Personnel Monitoring |
| MR403 | Basic Ultrasonography | Core | 4 | Principles of Ultrasound, Ultrasound Transducers, Image Formation, Abdominal Ultrasound, Pelvic Ultrasound, Obstetric Ultrasound |
| MR404 | Radiographic Techniques – II Lab | Lab | 2 | Practical Positioning for Chest, Abdomen, Cranium, Face, Contrast Study Preparation |
| MR405 | Radiation Safety Lab | Lab | 2 | Radiation Dosimetry Practice, Shielding Calculations, Radiation Survey Meters, Personal Dosimeters |
| MR406 | Basic Ultrasonography Lab | Lab | 2 | Ultrasound Machine Operation, Transducer Handling, Basic Scanning Techniques, Image Interpretation |
| MR407 | Clinical Training / Internship – II | Internship | 6 | Advanced X-ray Procedures, Contrast Studies Assistance, Basic Ultrasound Observation, Patient Interaction |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MR501 | Computed Tomography (CT) | Core | 4 | Principles of CT, CT Equipment, Image Reconstruction, CT Angiography, CT of Head & Neck, CT of Thorax & Abdomen |
| MR502 | Magnetic Resonance Imaging (MRI) | Core | 4 | Principles of MRI, MRI Equipment, Pulse Sequences, MRI Safety, MRI of Brain, MRI of Spine |
| MR503 | Interventional Radiology | Core | 4 | Principles of Interventional Radiology, Angiography, Biopsy Procedures, Drainage Procedures, Embolization, Stenting |
| HM504 | Research Methodology & Biostatistics | Core | 3 | Research Design, Data Collection, Sampling, Hypothesis Testing, Statistical Analysis, Report Writing |
| MR505 | Computed Tomography (CT) Lab | Lab | 2 | CT Machine Operation, Patient Positioning for CT, Image Acquisition Protocols, 3D Reconstruction |
| MR506 | Magnetic Resonance Imaging (MRI) Lab | Lab | 2 | MRI Machine Operation, Patient Positioning for MRI, Sequence Selection, MRI Safety Protocols |
| MR507 | Interventional Radiology Lab | Lab | 2 | Angiography Simulation, Biopsy Needle Guidance, Drainage Catheter Placement, Sterile Technique |
| MR508 | Clinical Training / Internship – III | Internship | 3 | Observation in CT/MRI, Assisting in Interventional Procedures, Patient Education |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MR601 | Nuclear Medicine & PET CT | Core | 4 | Principles of Nuclear Medicine, Radiopharmaceuticals, Gamma Camera, SPECT, PET, PET-CT Applications |
| MR602 | Medical Imaging Informatics & PACS | Core | 4 | Medical Informatics, PACS Architecture, DICOM Standard, RIS, HIS Integration, Teleradiology |
| MR603 | Project Work | Project | 6 | Research Proposal, Literature Review, Data Collection, Data Analysis, Report Writing, Presentation |
| MR604 | Clinical Training / Internship – IV | Internship | 8 | Hands-on experience in Nuclear Medicine, PET-CT, Advanced Imaging Modalities, Independent Practice |
