Module Leader
Lecturer
Prof G Malliaras & Prof S Higson
Timing and Structure
Michaelmas term. Lectures and coursework. Assessment: 100% coursework.
Aims
The aims of the course are to:
- Link engineering principles to understanding of biosystems in sensors and bioelectronics.
Objectives
As specific objectives, by the end of the course students should be able to:
- Extend principles of engineering to the development of biosensors and bioelectronic devices.
- Understand the principles of signal transduction between biology and electronics. • appreciate the basic configuration and distinction among biosensors and bioelectronic systems.
- Appreciate the basic configuration and distinction among biosensors and bioelectronic systems.
- Demonstrate appreciation for the technical limits of performance.
- Make design and selection decisions in response to measurement and actuation problems amenable to the use of biosensors and bioelectronic devices.
- Be able to evaluate novel trends in the field.
Content
This course covers the principles, technologies, methods and applications of biosensors and bioelectronics. The objective of this course is to link engineering principles to understanding these biosystems. It will provide the student with detail of methods and procedures used in the design, fabrication and application of biosensors and bioelectronic devices. The fundamentals of measurement science are applied to electrochemical and optical signal transduction. The fundamentals of electrophysiology are applied to implantable and cutaneous bioelectronic devices. Upon successful completion of this course, students are expected to be able to explain biosensing and transduction techniques, design and construct biosensor instrumentation, and explain the techniques of recording and stimulation of electrically active cells and tissues.
Introduction to Biosensors
- Overview of Biosensors
- Fundamental elements of biosensor devices
- Engineering sensor proteins
Electrochemical Biosensors
- Electrochemical principles
- Amperometric biosensors and charge transfer pathways in enzymes
- Glucose biosensors
- Engineering electrochemical biosensors
Optical Biosensors
- Optics for biosensors
- Attenuated total reflection systems
Diagnostics for the real world
- Communication and tracking in health monitoring
- Detection in resource limited settings
Introduction to Bioelectronics
- Overview of technology (implantable, cutaneous, ex vivo)
- Anatomy, function of nervous system, other electrically active tissues
- Principles of electrophysiology
- Recording and stimulation (intracellular, extracellular, epidural, EEG)
- Transducers (pipette electrodes, Ag/AgCl, metal electrodes, Michigan and Utah probes, transistors)
Implantable devices
- Cardiac pacemaker
- Cochlear implant, retinal implant
- DBS (Parkinson’s, dystonia, epilepsy), spinal cord stimulators
- Brain-Computer Interfaces
- PNS stimulators, electroceuticals
- Implantable drug delivery systems
- Foreign body reaction
Wearable devices
- Cutaneous electrophysiology (brain, heart, muscle)
- Electronic skins (pressure, temperature)
- Sweat biosensing (glucose, lactate, …)
- Transdermal drug delivery
Ex vivo devices
- Electrochemical biosensors
- Impedance biosensors
- MEAs and patch clamp
- Organ-on-a-chip
- In vitro systems
Regulatory and ethical issues
Coursework
The coursework will be assessed on two marked assignments. The first assignment will involve a demonstration of glucose sensor technology. The second assignment will involve an illustration of the principles of electrophysiology applied to bioelectronic devices.
Coursework | Format |
Due date & marks |
---|---|---|
[Coursework activity #1 : Glucose biosensors] Learning objectives:
|
Individual Report anonymously marked |
TBA in Moodle [30/60] |
[Coursework activity #2 : Cutaneous electrophysiology] Learning objectives:
|
Individual Report anonymously marked |
TBA in Moodle [30/60] |
Booklists
Please refer to the Booklist for Part IIB Courses for references to this module, this can be found on the associated Moodle course.
Examination Guidelines
Please refer to Form & conduct of the examinations.
UK-SPEC
This syllabus contributes to the following areas of the UK-SPEC standard:
Toggle display of UK-SPEC areas.
General Learning Outcomes
Graduates with the exemplifying qualifications, irrespective of registration category or qualification level, must satisfy the following criteria:
Last modified: 30/05/2023 15:32