EE3080 Design and Innovation

Project

Programme:Electromedical Technologies

Coordinator:Asst. Prof. Justin Dauwels

jdauwels@ntu.edu.sg

School of Electrical and Electronic Engineering

Nanyang Technological University

What is Biomedical Engineering?

Biomedical engineering is a multiple discipline and high technology area.

It is to provide solutions for health care industries and services.

ELECTROMEDICAL technologies: electrical engineering applied to healthcare

Electrical Engineers Play a Key Role in Health Care Industries

Electrical Engineers Play an Key Role in Health Care Industries and

Services

750 mmPa

pilla

ry m

uscl

e

Septum

4-shankprobe

Circuits and electronics

Measurement and instrumentation Pacemaker

Electrical Engineers Play an Key Role in Health Care Industries and

Services

ECG Brain Mapping from EEG

Information and signal processing

Medical imaging and image processing

Electrical Engineers Play an Key Role in Health Care Industries and

ServicesModelling and control

Telemedicine

Biomedical Engineering is Exciting It is important: Health Caring and Life Saving

It is profound and challenging: Nobel Prizes in Medicine in 1979, for the development of Computed

Tomography (CT) and in 2003 for the development of Magnetic

Resonance Imaging (MRI).

It is High Tech

=

Health Care Industry is Robust and Resilient in the Economic Crisis

Performance of Different Sectors of NYSE

(2007 – 2013)

2008 2009 2010 2011 20120.2

0.4

0.6

0.8

1

1.2

1.4

1.6

1.8x 10

4

health care sectorenergy sectorfinancial sector

Baxter Becton Dickinson

Siemens Medical Instruments Medtronic GE Medical

Boston ScientificGlaxoSmithKline

MDS Analytical TechnologiesPerkin Elmer

NTUUniversitiesPolytechnics

SGH NUHNCC

SNECNHCNNI

Institute of Bioengineering and Nanotechnology

Bioinformatics Institute Institute of Molecular and Cell Biology

Defence Medical Research Institute Bioprocessing Technology Centre

Laboratories for Information TechnologyJohns Hopkins Singapore Pte Ltd

HospitalsResearch Institutions

SINGAPORE Companies

Academic Institutions/Government Boards

Where do Biomedical Engineers work ? 

Quantum Dots Probe DCE ImagingPhoto-Thermal

Imaging

nanochannel

microchannel

Lab-on-Chip

Micromanipulator

Integratedwaveguides

Optical f iber f luidic

outlet

f luidicinlets

Integratedwaveguides

microf luidicchannel

Monolithic PDMS optofluidic chip

Micromanipulator& optical f iber

Spectroscopy-on-Chip

Microscope-on-Chip

Opto- & Nano- Fluidic Chips

POC Sensor Platform Wearable Respiratory

Monitoring

Brain Disorder Diagnostic

Telemedicine

Elderly Home Monitoring

Neuro-Device Implants

Research at School of EEE on Electromedical Technologies

25 Active EEE Faculty Members

Inspired by Clinical NeedsReputed for Impactful Research

Wireless Sensing

Distributed Diagnosis & Home Healthcare (D2H2)

Clinics and Hospitals

Primary Care Provider

Tele-Rehabilitation

Other Specialist & Clinicians

Emergency Room

Personal Health

Information Management

System (PHIMS)

Non-Contact Vital Sign Biosensors

Wherever the patient is..

Intelligent Controller

Internet

Handheld Devices

Home Healthcare Monitoring or Diagnostic System

Wearable System

Smart Homecare Monitoring

Prof. Tjin Swee Chuan, et al

Bio-Imaging & Signal ProcessingDCE Imaging of Tumor

MicrocirculationDiagnosis/Treatment of

Brain Disorders

The use of dynamic contrast-enhanced MR imaging (DCE MRI) and dynamic contrast-enhanced CT imaging (DCE CT) as a biomarker for anti-angiogenesis therapy

Neuro-electric Engineering for Curing Brain Disorders Nasopharyngeal Cancer Diagnosis with Optical Coherence Tomography Fluorescence Life-time Imaging for Medical Diagnosis of Cancerous Tissue Development of Photo thermal Imaging system for imaging sub-cellular organelles Processing and Classification of Heart Rate Variability Signals

Ti:Sapphire Laser

Spectrometer

2x2 fiber coupler

Collimating lenses

Reference Arm

Mirror

White light

Probe Arm

Nasopharyngeal Cancer Diagnosis with optical Coherence tomography

Bio-Nano Technology and Devices

Point-of-Care Biosensor Platform

Integrated LSPR Chip LSPR simulation

Nanopattern fabrication

Microscope on Chip (3D Ultrasound, CMOS Imager)

Micro-fluidic Chips and Devices

Multilayer micro-fluidic chip (to form single tumor spheroid), device (for neuron culture) Lab on Chip (Nano-Droplet and bubble formation) – to mimic blood flow in artery On-chip total internal reflection (TIR) microscope Point-of-Care Biosensor platform for screening/diagnosis of cancer & infectious diseases Microscope on Chip: 3D ultrasound system, CMOS imager near-field System

Formation of hydrogel plug

Transformation from plug to spherical droplet

Lab on Chip (Nano-Droplet & Bubble Formation)

nanochannelmicrochannel

Inlet

Inlet

Outlet

Outlet

Outlet

nanochannel

microchannel

+Optofluidic channels

CMOS Imager

Major Laboratory FacilitiesCell Culture Room

Research inverted microscope, Incubator, Centrifuge, Water bath, Ultrapure water system, Ultralow (-80o) freezer,

Cryogenic tank

Other EquipmentsUltrasound X-Y-Z scanning system, Sonix RP ultrasound system, Medelec Profile

EEG system, Biopac, NORAXON EMG system, Desktop MRI scanning system.

Biochemical RoomChemical cabinet, Chemical benches, Chemical hood,

Universal laser cutting system

Dark RoomOptical tables, Lasers,

Supercontinuum light source

Thanks!Join this programme to become a leader in healthcare innovation …

… and improve the quality of life of many patients!

We welcome your ideas!Professors will soon upload projects.

EE3080 Design and Innovation

Project

Programme:Electromedical Technologies

Coordinator:Asst. Prof. Justin Dauwels

jdauwels@ntu.edu.sg

School of Electrical and Electronic Engineering

Nanyang Technological University