Comprehensive Course Structure
The Pharmacy program at Noble University Junagadh spans eight semesters and is meticulously designed to provide students with a comprehensive understanding of pharmaceutical sciences, practical skills, and industry exposure. The curriculum integrates foundational courses in chemistry, biology, and physics with specialized subjects in pharmacy, ensuring a well-rounded education that prepares graduates for diverse career paths.
| Semester | Course Code | Course Title | Credit (L-T-P-C) | Pre-requisites |
|---|---|---|---|---|
| 1 | PHC101 | Organic Chemistry I | 3-1-0-4 | - |
| 1 | PHC102 | Inorganic Chemistry I | 3-1-0-4 | - |
| 1 | PHB101 | Biology I | 3-1-0-4 | - |
| 1 | PHM101 | Mathematics I | 3-1-0-4 | - |
| 1 | PHP101 | Physics I | 3-1-0-4 | - |
| 1 | PHL101 | Organic Chemistry Lab I | 0-0-3-2 | PHC101 |
| 1 | PHL102 | Inorganic Chemistry Lab I | 0-0-3-2 | PHC102 |
| 1 | PHL103 | Biology Lab I | 0-0-3-2 | PHB101 |
| 1 | PHL104 | Physics Lab I | 0-0-3-2 | PHP101 |
| 2 | PHC201 | Organic Chemistry II | 3-1-0-4 | PHC101 |
| 2 | PHC202 | Physical Pharmacy | 3-1-0-4 | PHC101, PHB101 |
| 2 | PHB201 | Biology II | 3-1-0-4 | PHB101 |
| 2 | PHM201 | Mathematics II | 3-1-0-4 | PHM101 |
| 2 | PHP201 | Physics II | 3-1-0-4 | PHP101 |
| 2 | PHL201 | Organic Chemistry Lab II | 0-0-3-2 | PHC101, PHL101 |
| 2 | PHL202 | Physical Pharmacy Lab | 0-0-3-2 | PHC202 |
| 2 | PHL203 | Biology Lab II | 0-0-3-2 | PHB101, PHL103 |
| 3 | PHC301 | Pharmacognosy | 3-1-0-4 | PHC201, PHB201 |
| 3 | PHC302 | Pharmaceutical Chemistry | 3-1-0-4 | PHC201, PHB201 |
| 3 | PHC303 | Pharmacology | 3-1-0-4 | PHB201 |
| 3 | PHC304 | Pharmaceutics I | 3-1-0-4 | PHC201, PHC202 |
| 3 | PHL301 | Pharmacognosy Lab | 0-0-3-2 | PHC301 |
| 3 | PHL302 | Pharmaceutical Chemistry Lab | 0-0-3-2 | PHC302 |
| 3 | PHL303 | Pharmacology Lab | 0-0-3-2 | PHC303 |
| 3 | PHL304 | Pharmaceutics Lab I | 0-0-3-2 | PHC304 |
| 4 | PHC401 | Pharmacology II | 3-1-0-4 | PHC303 |
| 4 | PHC402 | Pharmaceutics II | 3-1-0-4 | PHC304 |
| 4 | PHC403 | Clinical Pharmacy | 3-1-0-4 | PHC303, PHC304 |
| 4 | PHC404 | Pharmaceutical Analysis | 3-1-0-4 | PHC201 |
| 4 | PHL401 | Pharmacology II Lab | 0-0-3-2 | PHC401 |
| 4 | PHL402 | Pharmaceutics Lab II | 0-0-3-2 | PHC402 |
| 4 | PHL403 | Clinical Pharmacy Lab | 0-0-3-2 | PHC403 |
| 4 | PHL404 | Pharmaceutical Analysis Lab | 0-0-3-2 | PHC404 |
| 5 | PHC501 | Drug Development | 3-1-0-4 | PHC302, PHC401 |
| 5 | PHC502 | Regulatory Affairs | 3-1-0-4 | PHC401 |
| 5 | PHC503 | Pharmaceutical Marketing | 3-1-0-4 | - |
| 5 | PHC504 | Industrial Pharmacy | 3-1-0-4 | PHC402, PHC404 |
| 5 | PHL501 | Drug Development Lab | 0-0-3-2 | PHC501 |
| 5 | PHL502 | Regulatory Affairs Lab | 0-0-3-2 | PHC502 |
| 5 | PHL503 | Industrial Pharmacy Lab | 0-0-3-2 | PHC504 |
| 6 | PHC601 | Pharmaceutical Biotechnology | 3-1-0-4 | PHC401, PHC402 |
| 6 | PHC602 | Public Health Pharmacy | 3-1-0-4 | PHC401, PHC403 |
| 6 | PHC603 | Pharmacoeconomics | 3-1-0-4 | PHC401 |
| 6 | PHL601 | Biotechnology Lab | 0-0-3-2 | PHC601 |
| 6 | PHL602 | Public Health Pharmacy Lab | 0-0-3-2 | PHC602 |
| 7 | PHC701 | Advanced Pharmacology | 3-1-0-4 | PHC401 |
| 7 | PHC702 | Pharmaceutical Formulation | 3-1-0-4 | PHC304, PHC402 |
| 7 | PHC703 | Clinical Research | 3-1-0-4 | PHC401, PHC403 |
| 7 | PHL701 | Advanced Formulation Lab | 0-0-3-2 | PHC702 |
| 7 | PHL702 | Clinical Research Lab | 0-0-3-2 | PHC703 |
| 8 | PHC801 | Capstone Project | 4-0-0-4 | All core courses |
| 8 | PHL801 | Capstone Project Lab | 0-0-6-4 | PHC801 |
Advanced Departmental Elective Courses
The department offers a wide array of advanced elective courses designed to deepen students' understanding of specialized areas in pharmacy. These courses are taught by internationally recognized faculty members and include cutting-edge research topics that reflect current industry trends.
Pharmaceutical Chemistry: Advanced Topics in Medicinal Design
This course explores the design and synthesis of novel therapeutic agents, focusing on drug discovery processes, structure-activity relationships (SAR), and computational modeling techniques. Students engage in hands-on projects involving virtual screening, molecular docking, and lead optimization strategies. The course emphasizes the integration of theoretical knowledge with practical applications, enabling students to contribute to early-stage drug development.
Pharmacology: Clinical Applications of Pharmacological Agents
This elective delves into the clinical use of pharmacological agents, examining their therapeutic mechanisms, side effects, and safety profiles. Students learn to evaluate clinical trial data, interpret pharmacokinetic and pharmacodynamic parameters, and apply this knowledge in patient care settings. The course also covers emerging therapies in oncology, immunology, and neurology.
Pharmaceutics: Novel Drug Delivery Systems
This advanced course focuses on the development of innovative drug delivery systems, including nanotechnology-based formulations, transdermal patches, inhalers, and controlled-release tablets. Students work with real-world case studies to understand the challenges in formulation design and explore emerging technologies such as liposomes, micelles, and hydrogels.
Pharmacognosy: Natural Product Chemistry
This course explores the chemical composition and biological activities of natural products derived from plants, animals, and microorganisms. Students study traditional medicine practices, identify bioactive compounds, and investigate their potential for drug development. The course includes laboratory sessions on extraction techniques, phytochemical analysis, and structure elucidation methods.
Regulatory Affairs: Global Drug Development Pathways
This elective provides an in-depth understanding of regulatory frameworks governing drug development in different regions, including the FDA, EMA, and WHO guidelines. Students learn about clinical trial design, regulatory submissions, quality assurance standards, and risk management strategies. The course also covers ethical considerations and compliance issues in pharmaceutical research.
Industrial Pharmacy: Manufacturing and Quality Control
This course focuses on the principles of pharmaceutical manufacturing, including Good Manufacturing Practice (GMP), process validation, quality control testing, and production optimization. Students gain practical experience through laboratory sessions and industrial visits to leading pharmaceutical companies.
Clinical Pharmacy: Patient-Centered Care
This elective emphasizes the role of pharmacists in clinical settings, covering medication therapy management, therapeutic monitoring, and patient education. Students participate in simulated clinical scenarios to develop decision-making skills and learn how to collaborate effectively with healthcare teams.
Pharmaceutical Biotechnology: Gene Therapy and Stem Cell Research
This course explores the application of biotechnology in drug development, focusing on gene therapy, recombinant protein production, and stem cell-based treatments. Students study current research trends, regulatory challenges, and ethical implications of biotech interventions.
Public Health Pharmacy: Disease Prevention and Health Promotion
This course addresses the broader impact of medications on public health systems, including epidemiology, health policy, and community pharmacy practice. Students analyze health disparities, evaluate public health programs, and design strategies for equitable access to medicines.
Pharmacoeconomics: Cost-Effectiveness Analysis in Healthcare
This elective introduces students to economic evaluation methods used in healthcare decision-making, including cost-benefit analysis, cost-effectiveness analysis, and budget impact modeling. Students learn how to assess the economic value of pharmaceutical interventions and develop policies that promote efficient resource allocation.
Project-Based Learning Philosophy
The department places a strong emphasis on project-based learning as a core component of the educational experience. This approach encourages students to engage actively with real-world problems, fostering critical thinking, innovation, and collaboration.
Mini-projects are introduced in the second year and gradually increase in complexity throughout the program. These projects allow students to apply theoretical concepts learned in class to practical scenarios, often involving collaboration with industry partners or research institutions.
The final-year capstone project is a comprehensive initiative that integrates knowledge from all areas of study. Students select a research topic under faculty supervision, conduct literature reviews, design experiments, collect and analyze data, and present findings in both written and oral formats.
Project selection is based on student interests, available resources, and alignment with current industry needs. Faculty mentors guide students through every stage of the project lifecycle, ensuring that they develop essential skills such as scientific writing, presentation, and teamwork.
Evaluation criteria for projects include research methodology, data analysis, innovation, presentation quality, and adherence to ethical standards. The department also hosts annual project showcases where students present their work to faculty, industry experts, and fellow students.