- The M.Tech. degree program is offered after 10+2 and is for a duration of five years consisting of 10 semesters and 48 courses
- There are six courses in each semester with 24 or 25 credits including theory, tutorials, and practicals. The specialization courses in Biotechnology, Bioinformatics, Biomaterial and Biomedical engineering are offered as electives in semester VIth
- The pedagogy method of teaching is mainly project-based learning(PBL) hence students are encouraged to develop a hands-on approach by participating extensively in developing new tools, kits, algorithms etc
- The last two semesters involve a one-year external project to be carried out at a national research laboratory or an industry or at the institute itself. At the end of the project, the students will have to submit a project report and make a presentation before subject experts
Course framework for integrated M. Tech Bioengineering degree program at MIT School of Bioengineering, Sciences and Research, MIT ADT University, Pune
Sem I | Applied Physics (BS 101) 3 credits |
Basic Mechanical Engineering (ES 101) 3 credits |
Applied Chemistry (BS 102) 4 credits |
Biostatistics (BS 103) 4 credits |
Microbiology (BT 101) 4 credits |
Basic Electrical Engineering (ES 102) 3 credits |
Sem II | Introduction to Programming (CS 201) 3 credits |
Genetics (BT 201) 3 credits |
Cell Biology (BT 202) 4 credits |
Biochemistry (BT 203) 4 credits |
Effective Communication and Human Dynamics (HS 201) 2 credits |
Applied Mathematics (BS 201) 4 credits |
Sem III | Molecular Biology (BT 301) 4 credits |
Human Anatomy and Physiology (BT 302) 3 credits |
Enzymology (BT 303) 4 credits |
Basic concepts in Bioinformatics (BI 301) 4 credits |
Core Java and Python (CS 301) 3 credits |
Basic concepts in Electronics (ES 301) 4 credits |
Sem IV | Genetic engineering (BT 401) 4 credits |
Data Mining and Warehousing (BI 401) 4 credits |
Immunology (BT 402) 4 credits |
Advanced Java (CS 401) 4 credits |
Basic concepts of Drug Design (BI 402) 4 credits |
Economics for Engineering (HS 401) 2 credits |
Sem V | Genomics (BI 501) 4 credits |
Essentials of Biophysics (BM 501) 3 credits |
Microcontrollers and bioelectronics (BM 502) 3 credits |
Machine Learning & Artificial Intelligence(AI) (BI 502) 4 credits |
Fundamentals of Biochemical Engineering (ES 502) 4 credits |
Elective – I Biomechanics (BM 503)/Systems Biology (BI 503) /Microbial engineering (BT 501)/ Biomaterials and Artificial Organs I 3 credits |
Sem VI | Metabolic engineering (BT 601) 3 credits |
Biosensors &IoT (BM 601) 4 credits |
Biomedical instrumentation (BM 603) 4 credits |
Protein modeling (BI 601) 4 credits |
Elective - II Data Analytics (BI 602) / Nano biotechnology (BT 603) / Biomaterials and Artificial Organs II(BM 602)/ Downstream Processing (BT 604) 3 credits |
Pharmacology (BT 602) 3 credits |
Sem VII | Robotics (ES 701) 4 credits |
Tissue Engineering (BT 701) 3 credits |
Medical Imaging (BM 702) 4 credits |
Seminars, IPR and Entrepreneurship (HS 701) 2 credits |
Introduction to Synthetic Biology (BT 703) 4 credits |
Pharmaceutical Engineering (BT 702) 4 credits |
Sem VIII | In-House Project (IMPR 801) 2 credits |
Proteomics (BI 801) 4 credits |
Digital Signal Processing (BM 801) 4 credits |
Bioengineering systems and control (ES 801) 4 credits |
Biotransport (BT 801) 4 credits |
Computational molecular and cell biology (BI 802) 4 credits |
Sem IX & X | External Project: Industries such as Prajindustries Persistent systems, Lupin Laboratories, GennovaBioTech etc. Premier Research institutes (C-DAC, NCL, IISER, IITs, IGIB, NCCS) or Clinics/Hospitals associated with MIT group of institutes or foreign universities as per the specialization chosen in the Vth semester (15+15=30 credits) |