Comprehensive Course Listing Across 8 Semesters
| Semester | Course Code | Course Title | Credit Structure (L-T-P-C) | Pre-requisites |
|---|---|---|---|---|
| 1 | PHYS-101 | Anatomy & Physiology | 3-1-0-4 | None |
| 1 | PHYS-102 | Biochemistry | 3-0-0-3 | None |
| 1 | PHYS-103 | Physics for Physiotherapy | 3-0-0-3 | None |
| 1 | PHYS-104 | Introduction to Clinical Skills | 2-0-0-2 | None |
| 1 | PHYS-105 | Medical Ethics & Communication | 2-0-0-2 | None |
| 2 | PHYS-201 | Biomechanics | 3-0-0-3 | PHYS-101, PHYS-103 |
| 2 | PHYS-202 | Kinesiology | 3-0-0-3 | PHYS-101 |
| 2 | PHYS-203 | Pathology | 3-0-0-3 | PHYS-102 |
| 2 | PHYS-204 | Manual Therapy Techniques | 2-0-0-2 | PHYS-101, PHYS-102 |
| 2 | PHYS-205 | Introduction to Research Methods | 2-0-0-2 | None |
| 3 | PHYS-301 | Musculoskeletal Physiotherapy | 3-0-0-3 | PHYS-201, PHYS-202, PHYS-203 |
| 3 | PHYS-302 | Neurophysiotherapy | 3-0-0-3 | PHYS-201, PHYS-203 |
| 3 | PHYS-303 | Cardiopulmonary Physiotherapy | 3-0-0-3 | PHYS-101, PHYS-203 |
| 3 | PHYS-304 | Pediatric Physiotherapy | 3-0-0-3 | PHYS-202, PHYS-203 |
| 3 | PHYS-305 | Geriatric Physiotherapy | 3-0-0-3 | PHYS-202, PHYS-203 |
| 4 | PHYS-401 | Advanced Orthopedic Assessment | 3-0-0-3 | PHYS-301 |
| 4 | PHYS-402 | Clinical Rotations I | 0-0-6-3 | PHYS-301, PHYS-302, PHYS-303 |
| 4 | PHYS-403 | Research Project I | 0-0-0-3 | PHYS-205 |
| 5 | PHYS-501 | Clinical Rotations II | 0-0-6-3 | PHYS-402 |
| 5 | PHYS-502 | Specialized Treatment Protocols | 3-0-0-3 | PHYS-401 |
| 5 | PHYS-503 | Community Health Integration | 2-0-0-2 | PHYS-304, PHYS-305 |
| 5 | PHYS-504 | Advanced Research Project | 0-0-0-3 | PHYS-403 |
| 6 | PHYS-601 | Capstone Project | 0-0-12-6 | PHYS-502, PHYS-504 |
| 6 | PHYS-602 | Internship & Portfolio Development | 0-0-6-3 | PHYS-501 |
| 6 | PHYS-603 | Professional Ethics & Leadership | 2-0-0-2 | None |
| 7 | PHYS-701 | Advanced Specialization Seminars | 2-0-0-2 | PHYS-601 |
| 7 | PHYS-702 | Global Trends in Physiotherapy | 2-0-0-2 | PHYS-602 |
| 7 | PHYS-703 | Thesis Writing & Presentation | 2-0-0-2 | PHYS-504 |
| 8 | PHYS-801 | Final Thesis Submission | 0-0-0-6 | PHYS-703 |
| 8 | PHYS-802 | Industry Internship & Job Placement | 0-0-6-3 | PHYS-602 |
Advanced Departmental Elective Courses
Biomechanics of Movement: This course explores the mechanical principles underlying human motion, combining kinematics and kinetics to analyze walking, running, and other activities. Students engage in lab sessions using force plates and motion capture systems to study joint mechanics and muscle function.
Neuroplasticity & Recovery: Focused on how the brain adapts after injury or disease, this course covers neuroanatomical pathways, neurochemical changes, and therapeutic interventions aimed at promoting recovery. Case studies from stroke rehabilitation are analyzed in depth.
Rehabilitation Engineering: Students learn to design and evaluate assistive devices such as prosthetics, orthotics, and mobility aids. The course integrates engineering principles with clinical applications, offering hands-on experience in prototyping and testing new technologies.
Clinical Research Design: This advanced course teaches students how to formulate research questions, select appropriate methodologies, and analyze data using statistical software. Emphasis is placed on designing studies that meet international standards for ethical conduct and reproducibility.
Advanced Manual Therapy Techniques: Building upon foundational skills, this course delves into complex manipulations and mobilizations used in treating chronic pain conditions. Students practice advanced techniques under supervision in a simulated clinical environment.
Occupational Health & Safety: Designed for students interested in workplace safety and ergonomics, this course covers risk assessment, hazard identification, and prevention strategies for preventing occupational injuries in various industries.
Pharmacology for Physiotherapy: This course examines how medications affect movement and function, covering drug mechanisms, side effects, and interactions. Students learn to integrate pharmacological knowledge into patient care plans.
Digital Health & Telemedicine: Exploring the intersection of technology and healthcare delivery, this course introduces students to digital platforms, remote monitoring systems, and virtual consultation tools used in modern physiotherapy practice.
Evidence-Based Practice: Students learn to critically appraise research literature, apply findings to clinical decision-making, and develop strategies for implementing best practices in diverse healthcare settings.
Advanced Sports Physiotherapy: Tailored for athletes and sports enthusiasts, this course covers injury prevention, performance enhancement, and rehabilitation protocols specific to high-level sports activities. Guest lectures from elite coaches provide real-world insights.
Palliative Care & End-of-Life Support: This course addresses the unique challenges of providing care to patients with terminal illnesses. Students learn communication strategies, symptom management techniques, and ethical considerations involved in palliative care.
Global Health Perspectives: Through case studies from different countries, students explore how physiotherapy is practiced globally, considering cultural, economic, and political factors that influence access to care and treatment outcomes.
Neurological Assessment & Diagnosis: Students learn advanced diagnostic procedures for neurological conditions, including neurological exams, neuroimaging interpretation, and differential diagnosis of movement disorders. Simulated patient scenarios enhance learning.
Community-Based Rehabilitation: This course emphasizes community-level interventions to improve access to physiotherapy services in underserved populations. Students participate in fieldwork projects to implement practical solutions for health disparities.
Pediatric Neurological Physiotherapy: Focused on children with neurological impairments, this course explores developmental milestones, assessment techniques, and intervention strategies tailored to different age groups and conditions such as cerebral palsy and spina bifida.
Project-Based Learning Philosophy
The department's philosophy on project-based learning is centered around experiential education that bridges the gap between theory and practice. Projects are designed to simulate real-world clinical challenges, encouraging students to apply their knowledge in meaningful ways while developing critical thinking skills.
Mini-projects are introduced starting from the second semester, where students work in small teams to investigate specific aspects of physiotherapy practice or research. These projects typically last 2-3 weeks and involve data collection, analysis, and presentation. Evaluation criteria include group collaboration, clarity of communication, depth of research, and adherence to scientific methodology.
The final-year thesis or capstone project is a comprehensive endeavor that requires students to propose, design, execute, and present an original piece of research or clinical application. Students are paired with faculty mentors who guide them through each stage of the process. The project must demonstrate mastery of both theoretical knowledge and practical skills relevant to their chosen specialization.
Project selection begins in the third year, with students exploring various topics based on current trends in physiotherapy, personal interests, or identified gaps in existing literature. Faculty members provide guidance on feasibility, scope, and relevance, ensuring that projects align with program objectives and industry needs.