Division of Extracorporeal Devices

The division has core strength in Design and development of medical devices for clinical use, Transfer the technology of the device to industry for commercial production and work with the industrial partners for setting up the manufacturing facilities. The major focus of the division is on devices for supporting the human cardiopulmonary system with core competence in the areas of mass, momentum and energy transfer. Currently, the Division is developing Membrane Oxygenators, Paracorporeal Left Ventricular Assist Device, Centrifugal Blood, magnetic bloodflow meters, implantable micro infusion pump, micro dialyser etc. Other projects include infrared energybased technologies for blood warmers, infant warmers, vein viewers and Hb monitor. The division also has developed transcutaneous energy transfer system (TETS) and brush less motors as part of ongoing programs. The division has provided significant support for the development of Infrared LED based products and image processing products like PT/INR, Nerve stimulator and has provides support to rapid prototyping to many of the ongoing product development programmes of the institute.

Faculty
Scientific / Technical Staff
Name:
Designation:
Facilities
  • Computer Aided Design (CAD).
  • Rapid prototyping facility with biocompatible material
  • Electronic circuit design and fabrication
  • Microcontroller Programming and debugging
  • Facilities for prototype evaluation including measurement of flow, pressure, temperature, magnetic field strength, and data acquisition and virtual instrumentation tools etc.
  • Performance evaluation using simulated fluidsto In-vitro evaluation using Blood.
  • Flow visualisationfacility including Particle Image Velocimetry and Left Heart Simulator.
  • Facility for fabrication of brushless motors and electromagnetic cores for specialized medical applications.
Design and Modelling
Computational Fluid Dynamics
Major Products Developed/ Development in Progress

Paracorporeal Left Ventricular Assist Device

Centrifugal Blood Pump and Drive Unit

Blood Flow Meter

Vein Viewer

Blood & IV Fluid Warmer

Infnat Warmers

Heamoconcentrator

Cardiotomy Resorviour

Bubble Oxygenator

Membrane Oxygenator

Prototypes Testings & Performance Evaluation
Services
  • Prototyping and evaluation of medical devices.
  • Ethylene Oxide (ETO) sterilizer.
  • Rapid prototyping
Projects/Consultancies
  • ParacorporealLeft Ventricular Assist Devices (pLVAD)
  • Centrifugal pump and flow meter for extracorporeal cardiopulmonary bypass
  • Implantable Micro Infusion Pump
  • Membrane Oxygenators
  • Infant warmers
  • Blood & IV Fluid warmers
  • Vein Viewing System
  • Device for detection of extravasation of contrast agent
  • Haemoconcentrators
Publications
  1. Sarath S. Nair, Adhin D & Sudheesh K S (2022) Experimental investigation on effect of accelerated speed and rotor material on life of implantable micro-infusion pump tubing, Journal of medical engineering & Technology, DOI: 10.1080/03091902.2022.2082575.
  2. Roopesh R. Pai, Shilpa Ajit, Anupama Sekar J, Sarath S. Nair, P.R. Anil Kumar, Shiny Velayudhan, Radical scavenging gelatin methacrylamide based bioink formulation for three dimensional bioprinting of parenchymal liver construct,Bioprinting,Volume 27,2022,e00214,ISSN 2405-8866,https://doi.org/10.1016/j.bprint.2022.e00214
  3. Mr. Vinodkumar V, Ms. Amrutha C & Shri. Nagesh D S “Overview of Medical Device Development” in the book “Biomedical Product and Materials Evaluation, Standards and Ethics”, Woodhead Publishing Series in Biomaterials, Elsevier, 2022 1st Edition ISBN: 978-0-12-823966-7 (print), ISBN: 978-0-12-824173-8 (online)
  4. Nair, S.S. and Nagesh, D.S. (xxxx) ‘Thermo regulated infant warming wrapper with infrared light emitting diodes for prevention of hypothermia in preterm low birth weight babies’, Int. J. Biomedical Engineering and Technology, Vol. X, No. Y, pp.xxx–xxx. (Accepted for publication, In Press).
  5. Sarath S. Nair, V. Sreedevi & D. S. Nagesh (2021) Warming of blood and intravenous fluids using low-power infra-red light-emitting diodes, Journal of Medical Engineering & Technology, 45:8, 614-626, DOI: 10.1080/03091902.2021.1936675
  6. Anugya Bhatt, Rakhi MR, Sarath S Nair, Lakshmi Sadanandan, Harikrishnan S. Analysis of Whole Blood Prothrombin Time/ International Normalized Ratio Using Image Processing. Res Med Eng Sci. 9(2). RMES.000711. 2021. DOI: 10.31031/RMES.2021.09.000711.
  7. Sai Nikhil Subraveti, V. Vinod Kumar, Harish Pothukuchi, P.S.T. Sai, B.S.V. Patnaik, (2018) "Numerical investigation of membrane oxygenation using sub-channel analysis", International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 28 Issue: 12, pp.2942-2959, https://doi.org/10.1108/HFF-10-2017-0431
  8. Sarath S Nair, Vinodkumar V, Sreedevi V, D S Nagesh, “Rotating permanent magnet excitation for blood flow measurement”, Medical & Biological Engineering & Computing [2015], 10.1007/s11517-015-1310-y.
  9. Sarath S Nair, Vinodkumar V, Sreedevi V & D S Nagesh (2015): Design of Electromagnetic Probe Having Reduced Base Line Drift for Blood Flow Measurement, IETE Journal of Research, DOI: 10.1080/03772063.2015.1018347.
  10. DS, Nagesh & Thomas, Sam. (2015). Success factors of public funded R&D projects. Current science. 108. 10-2015.
  11. DS, Nagesh & Thomas, Sam & Thekkedath, Ramachandran. (2013). Medical Device R&D-a Goldmine for Open Innovation. Trends in Biomaterials and Artificial Organs. 27. 177-181.
Research

Medical Devices using Heat, Mass and Momentum transfer principles.