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Integrated M.Tech. (5 Years)

The Integrated M.Tech. in Bioengineering is a five-year programme that brings engineering principles into the world of healthcare and environmental problem-solving. It is designed to give students a strong foundation in bioengineering sciences while encouraging innovation through lab work, simulation tools, and research-led exploration. With access to expert faculty and facilities in biotechnology, bioinformatics, and biomedical engineering, students are trained to develop scalable, ethically sound solutions.

By the end of the programme, students will:

  • Understand the depth and application of bioengineering technologies
  • Use simulation and modelling tools to assess process scalability and cost
  • Be capable of conducting independent research in key bioengineering domains
  • Cultivate a sense of ethical responsibility in the application of their knowledge
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Integrated Master’s program in Bioengineering – 5 Years

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

  • Industrial Biomedical Instrumentation (BM901) 3 credits
  • Agribiotechnology (BT901) 3 credits
  • Advanced Python (BI901) 3 credits
  • Next Generation sequencing (BI902) 3 credits
  • Molecular Medicine (BT902) 3 credits

Sem X

  • External Project: Industries such as Praj Industries, Persistent Systems, Lupin Laboratories, Gennova BioTech, 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 credits

Benefits of the Course

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  • Active alumni network and placement support across leading organisations
  • Specialised training in cutting-edge areas like synthetic biology, AI/ML, big data analytics, robotics, biosensors, nanotechnology, and biomedical imaging
  • Extensive internship opportunities through a robust network of industry and research partners
  • Strong focus on hands-on, project-based learning with live industry projects
  • Emphasis on communication, entrepreneurship, and real-world problem solving
  • Faculty with doctoral and post-doctoral experience across multiple domains
  • Access to state-of-the-art labs and advanced bioengineering infrastructure

Eligibility Criteria

  • HSC (Std. XII) with minimum 50% aggregate marks
  • Core subjects preferred: Physics, Chemistry, Mathematics, and Biology
  • Admissions based on JEE, MH-CET, NEET, PERA, or any recognised state-level CET

Career Prospects

Roles across healthcare, pharmaceuticals, environmental bioengineering, and biotech R&D
Opportunities in biomedical devices, clinical trials, molecular medicine, data analytics, and regulatory affairs
Alumni placed at organisations like Gennova Biopharma, Eurofins, Sun Pharma, and Capgemini
Research positions at institutes such as CSIR, IISER, and international universities like UC Berkeley and Johns Hopkins
Support for entrepreneurship through BETiC, AIC, and on-campus incubation centres

Specialisations offered

Clinical Research

Clinical Research
Biotechnology

Biotechnology
Biomedical

Biomedical
Bioinformatics

Bioinformatics
Biomaterial

Biomaterial
Industrial Biotechnology

Industrial Biotechnology

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