B. Tech Biomedical
Engineering

At ADYPU’s School of Engineering, the B.Tech in Biomedical Engineering is where the precision of engineering meets the purpose of healthcare. Students gain hands-on expertise in biomedical instrumentation, medical device design, and the application of engineering principles to real-world healthcare challenges — building both the technical depth and the critical thinking required to drive innovation in patient care. For those ready to lead at the frontier of research and specialization, the M.Tech Programme offers the next step. Whether you’re just beginning or looking to go further, ADYPU’s Biomedical Engineering programs prepare you to shape the future of healthcare technology.

The Department of Biomedical Engineering at Ajeenkya DY Patil University offers modern infrastructure designed to support experiential learning, innovation, and advanced technical training. The department provides well-equipped laboratories, contemporary teaching spaces, and hands-on environments where students develop practical skills alongside theoretical knowledge. These facilities enable students to work on real world healthcare technologies, research projects, and interdisciplinary applications.

Vision of Biomedical Engineering

To shape the future of healthcare through world-class education, cutting-edge research and ideas by nurturing globally competent Biomedical Engineers.

Mission of
Biomedical Engineering

  • To deliver innovative, practice-led education that equips students with the knowledge and skills to thrive in their careers.
  • To foster an entrepreneurial mindset, we encourage students to develop start-up ideas and tackle real-world healthcare challenges through research.
  • To advance interdisciplinary collaboration between engineering and medicine and drive meaningful impact across global communities.
B. Tech BioMedical Engineering

Duration: Four Years | Full Time

Eligibility:

B.Tech

  • Completion of 10+2 with Physics, Chemistry, Mathematics and Biology
  • Minimum aggregate as per university norms

M.Tech

  • Bachelor’s degree (B.E./B.Tech) in Biomedical Engineering or related fields (ECE, EEE, Mechanical, Biotechnology, etc.)

Why BME
@ ADYPU

  • Industry-orientated and Multidisciplinary Curriculum
  • Experienced Faculty Support
  • State-of-the-art Laboratories
  • Strong Hospital and Industry Connects
  • Advanced Research Ecosystem
  • Global Alumni Success @ ADYPU

Department
Highlights

  • Every student is placed. Every year, 100% placement record that speaks to the strength of what we build here.
  • No student leaves without real-world experience — 100% internship placement across industries, hospitals and organisations.
  • Our industry partnerships don't just open doors — they put students inside the rooms where decisions are made.
  • Students don't stop at theory — they build live, functional prototypes that work in the real world.
  • The world is taking notice — student innovations are earning recognition for their practicality and potential.
  • Innovation isn't a subject here — it's a culture. Research, creativity and problem-solving are woven into everything we do.
  • Every project is designed to solve something real — aligned with the needs of industry and healthcare today.
  • From first idea to final patent, every student project is nurtured into intellectual property that lasts.
  • We don't just file patents — we lead in them, building one of the most innovation-driven departments in the institution.

Curriculum
Highlights

  • Biomedical Instrumentation
  • Medical Imaging & Signal Processing
  • Biomechanics & Rehabilitation Engineering
  • Artificial Intelligence in Healthcare
  • Medical Robotics & IoT in Healthcare
  • Healthcare Data Analytics
  • Medical Device Design & Development
  • Python-based Signal Processing and MATLAB-based Image Processing
  • Diagnostic Equipment
  • Analytical and Optical Instrumentation
  • Biomedical Informatics
  • Analog and Digital Integrated Electronics
  • Microprocessor and Microcontroller
  • Industrial Internship Project

Career Scope

  • Medical Instrument Designer
  • Biomedical Engineer
  • Rehabilitation Engineer
  • Medical Software Developer
  • Clinical Engineer
  • Medical Implant Designer
  • IoMT Specialist
  • Medical Equipment Specialist
  • Medical Imaging Specialist
  • Quality Assurance Engineer
  • Academician and Researcher

Role of a
Biomedical Engineer

  • Design and development of medical equipment (e.g., MRI machines, pacemakers, etc.).
  • Installation, maintenance, and technical support for medical devices.
  • Testing, calibration, quality assurance, and quality control of medical devices.
  • Develop biomedical implants, biosensors, and drug-testing devices.
  • Become a professor or researcher at universities or colleges.
  • Develop policies for healthcare technology and medical devices.

Learning Beyond
Classrooms

Design & Build Medical Devices
Design & Build Medical Devices

Develop prosthetics, diagnostic tools, and life-saving equipment using engineering principles and real lab facilities.

Train in Real Hospital Environments
Train in Real Hospital Environments

Gain hands-on clinical exposure through live internships at leading hospitals, working alongside medical professionals.

Develop Clinical AI Solutions
Develop Clinical AI Solutions

Create software for medical equipment, build AI-powered diagnostic systems, and work with healthcare data to improve patient outcomes.

Innovate & Research
Innovate & Research

Work on live industry projects, publish research, and develop breakthrough solutions at the intersection of technology and human health.

Core Lab
Facilities

Internships
Offered By:

List of
Faculties

  • Dr. Deepa Joshi, Dean
  • Dr. Muthu Sankar Aathi, Associate Professor - Head of the Department
  • Dr. Manju Pandey, Associate Professor
  • Dr. Preeti Kulkarni, Assistant Professor
  • Mr. Amit Mohan Raman, Assistant Professor
  • Mrs. Smita V. Shahane, Assistant Professor
  • Mrs. Marwana Sayed, Assistant Professor

Research &
Publications

Publisher: Elsevier, Journal: Q2 | Impact Factor: 4.7
Structural Characterization, Molecular Interaction and in vitro Evaluation of Rhodomyrtus tomentosa Fruit Broth Mediated Silver Nanoparticles against Cervical Cancer. Journal of Molecular Structure. V1361, 1-13.

Anitha Jaganathan, Muthusankar Aathi, Blessymol Jospeh, Pradeeba Shanmugam Jaiganesh, Harinaee Nandakumar, Narendhirakannan Ramasamy Thangavelu, Viswanathan Sundram, Selvakumar Rajendran (2026)

DOI: 10.1016/j.molstruc.2026.145654
Ann Biomed Eng. 53(1); 14-33. | Impact Factor: 5.4
A comprehensive Literature review on advancements and challenges in 3D Bioprinting of human organs: Ear, Skin and Bone (2024).

Aishwarya Varpe, Marwana Sayed, Nikhil S Mane (2025)

DOI: 10.1007/s10439-024-03580-3
Publisher: Elsevier, Journal: Q1 | Impact Factor: 8.5
Chitosan-coated silver nanoparticles synthesized using Moringa oleifera flower extract: A potential therapeutic approach against triple-negative breast cancer. International Journal of Biological Macromolecules. V320 (4); 145995.

Jaganathan Anitha, Aathi Muthusankar, et al. (2025)

DOI: 10.1016/j.ijbiomac.2025.145995
V1(3); 274-286.
The Timeless Lineage of Traditional Indian Salts: An Investigation to Study Their Applications in Accordance with Ayurveda. An international multidisciplinary journal.

Kavita Madipalli, Mahak Bhandari, Muthusankar Aathi, Nawneet Kurrey (2025).

DOI
V11; 4473-4485. | Impact Factor: 3.5
Salt and Health Awareness In India: Insights Into Knowledge And Behaviour From An Adult Population Survey. International Journal of Environmental Sciences.

Kavita Madipalli, Mahak Bhandari, Muthusankar Aathi, Nawneet Kurrey (2025).

DOI:
IEEE conference.
Screening and identification of potent antimicrobial compounds from the rhizosphere.

Jyoti Srivastav, Nawneet Kumar Kurrey, Shankar Khade, Shweta Ukey, Muthusankar Aathi, Mohammed Shabab (2025).

IEEE conference.
Empowering Mobility: A Smart Wheelchair integrated with health monitoring system.

Someshwar Ware, Yogita Kolge, Eshin Somkuwar, Marwana Sayed (2024).

Publisher: Springer, Journal: Q4 | Impact Factor: 1.7
Design and synthesis of linear acetmides as cholesterol lowering agents. Russian Journal of Bioorganic Chemistry. 50(5); 1882-1895.

M Sangeetha, Muthusankar Aathi, J Anitha (2024).

DOI: 10.1134/S106816202405008X
Where Bio signals meet breakthrough innovation
Anushka Gupta, Siddhika Sawant, Amit Mohan Raman, Smita Shahane (2026).
Published
Patient monitoring based Defibrillator
Parag Ravi Dixit, AmeyaLaxman Jadhav, Yashashree Sambhaji Kadam, Amit Mohan Raman, Smita Shahane, Sateesha Patil (2026)
Published
Health Monitoring Toothbrush
Disha Saikia, Kshitija Gawade, Pradnya Kendole, Amit Mohan Raman, Marwana Sayed, Smita Shahane (2026)
Published
Artificial Intelligence Based Network Intrusion Detection Device
Arati Kothari, Priyanka Umesh Nalawade, Kavita Khushwah, Amit Mohan Raman, Smita Shahane, Santosh Gaikwad (2025).
UK Patent
Wearable Signature Verification Device using Muscle Memory and Hand Motion. IPR.
Bhavesh Suthar, Keerthana Murugan, Priyanka Raval, Ami Shah, Smita Shahane, Harsh Amit Mehta, Amit Mohan Raman, Mital Sarvaiya (2025).
IPR
Biotap Fingerprint Based Blood Group Detecting Device.IPR
Shriya Kaw, Chinmayi Walde, Marwana Sayed, Amit Mohan Raman, Smita Shahane (2025).
IPR
Portable Patient Vitals Monitoring Device. IPR.
Aniruddha Upadhyaya, Vaibhav Doke, Karan Londhe, Akshay Darandale, Amit Mohan Raman, Smita Shahane, Marwana Sayed (2025).
IPR
Vein Detection Device. IPR.
Manan Patel, Swapnamayee Sahoo, Srishty Kaur, Amit Mohan Raman, Smita Shahane, Marwana Sayed (2025).
IPR
Medical Diagnostic Apparatus for Early Detection of Diabetic Retinopathy Using Fundus Imaging. UK.
Mahesh Shankarrao Patil, Rahul Krishna Sarawale, Ashwini Pandurang Patil, Madhura Sameer Khilare, Amit Mohan Raman, Kavita Kushwah, Pratibha Vijay Jadhav, Prajwal Laxman Bahir, Jyoti Shendage, Smita Sahane (2025).
UK Patent
Modular Diagnostic Health Monitoring Device.
Aarohi Deshmukh, Shravani Kandalkar, Aditya Donde, Amit Raman, Smita Shahane, Marwana Sayed (2025).
Published
Health Tracking Wearable Device
Marzia Shaikh, Pradnya Sonawane, Prachi Waghale, Amit Mohan Raman, Smita Shahane, Marwana Sayed (2025).
Published
Bentham Science (2026)
Role of CheK2 and Tp53 in Hereditary and Sporadic Breast Cancer

Mahi Rana, Roshni Pal, Preeti Majumdar and Muthusankar Aathi

Accepted
Bentham Science (2026)
AI in Psychiatry: Integrating Genomic Risk, Digital Phenotyping, and the Gut-Brain Axis

Tejal Tiwari, Anitha Jaganathan and Muthusankar Aathi

Accepted
Elsevier (2026)
The Role of Diet and Nutrition in Alzheimer's Disease: Exploring the Gut-Cognitive Health Connection

Poulami Bhattacharya, Vidhi Athwani, Timiksha Vijay, Muthusankar Aathi

View Chapter
IGI Global (2025)
Decentralized Smart Grids with AI and Blockchain: Enabling Peer-to-Peer Energy Trading and Energy Equity

Smita Sahane

Springer Nature (2025)
Nanodrugs: Recent development and therapeutic application

Rohan Malhotra and Muthusankar Aathi

View Publication
IGI Global Publication (2024)
Introduction to Predictive analysis in healthcare: From data to Diagnosis

Marwana Sayed, Smita Shahane, Nikhil Mane, Manavi Gilotra

DOI: 10.4018/ch003
IGI Global Publication (2024)
Utilizing digital twin technologies to integrate AI's unrealized potential with digital public health initiatives

Syed Ibad Ali, Pabitra Kumar Nandi, Marwana Sayed, Smita Shahane

DOI: 10.4018/ch031
Notion Press (2024)
A thorough review on pathways, treatment and diagnosis of Lynch Syndrome

Sanika Bhosale, Namrata Chauhan, Muthusankar Aathi

Scholarships

  • Ajeenkya Genius Scholarship
  • ADYP Group Progression
  • Pune Pride Scholarship
  • ADYPU Divyang Excellence Scholarship
  • Khelo India Sports Delight Scholarship
  • My India Pride Scholarship
  • ADYPU Resilience Scholarship
  • ADYPU/ADYPG Employee Family Kids
  • Beti Padhao Scholarship
  • ADYPU Sibling Scholarship
  • ADYPU Entrance Talent Hunt Scholarship