Please enable JavaScript.
Coggle requires JavaScript to display documents.
BMET1960 - Coggle Diagram
BMET1960
Week 1 - Medical Imaging and Motion Compensated Imaging
Tomography: CT, MRI, SPECT, PET
Tracer Principle - Tracking "labelled molecules"
Motion in medical imaging (implications etc)
Week 2 - Regulatory Affairs / Ethics and Socially Responsible Engineering :
Ethical Theories - Ethical Egoism, Utilitarianism, Duty Ethics, Rights Ethics, Virtue Ethics
Design Control - User needs, design input, design process, design output, medical device
Technical File, Design History File (DHF) and Design Master Record (DMR)
Week 3 - Anatomy and Physiology for Engineers
Osteoclasts, Osteoblasts and Osteocytes
Sensory neurons, Motor neurons and Interneurons
Cardiovascular System
Week 4 - Biomaterials, Tissue Engineering and Mechanobiology
Tissue Engineering
Biomaterials for Soft and Hard Tissue Engineering
Mechanobiology - Medicine, Engineering and Science
Week 5 -Nanomaterials and Nanotechnology in Biomedical Engineering
Characteristics of Nano-materials - Surface highly reactive, can target/interact with specific biomolecules, extremely small (smaller than cells)
Applications: Therapeutics and Diagnostics and Imaging
Biosensing - To sense and distinguish particular cells
Week 6 - Fluid Dynamics and Applications / Diabetes and Thrombosis
Microfluidic Device
Flow Regime - Laminar or Turbulent?
Mass Diffusion: Brownian Motion
Droplet Generation
Diabetes Incidence
Platelet Reactivity
Week 7 - Sleep and Technology Innovation for Sleep Measurement
Circadian Rhythm (Process C) and Sleep-wake Homeostasis (Process S)
Sleep Disorder: Insomnia, Obstructive Sleep Apnoea (OSA)
Innovation of Technology: Home Sleep Testing, Monitoring Sleep from Home, Wearables to measure sleep
Week 8 - Technology and Innovation in Disability / Bioelectronics
Cerebral Palsy - Cause, Prevent, Treat, Cure, Policy
Measurement of Newborn Fat using Near-infrared Light Transmission
Image Reconstruction / Practicing Calculations
Week 9 - Computational Modelling
Biomedical Modelling - Data Acquisition, Solid Modelling, Numerical Analysis (finite element analysis)
Data Acquisition through Ultrasound, X-Ray, Computerised Tomography, MRI
Discretisation and Element Types in Finite Element Analysis
Relation to Week 1 studies where I was able to use the knowledge obtained from Week 1 (regarding MRI, CT etc) and use it to understand more about computational modelling.
Week 10 - Biomanufacturing and the Poly Implant Prosthese Case
"Know what you are building, build it the same way every time."
ISO13845 - Medical Devices, ISO9001 - Particular Standard for Quality Management for all things except Medical Devices.
PIP - Lied to Regulators stating that they made their own silk, resulting in fatalities
Related back to Week 2 studies and regulatory affairs. I was able to connect regulation and ways in which this case was accepted in the first place (comparison with a model in the current market).
Week 11 - Implantable Bionics
Application of Neuromodulation - Certain treatments can be utilised for different conditions (relating back to Week 8 materials, brief talk about condition vs treatment in Week 8)
The growth of cochlear implants again relating back to Week 8 materials (talks about disability)
Bionics devices (again relating to Week 8 material), mentioning Parkinson's disease, the bionic eye etc
Relating back to Week 3 studies where I was able to connect the material on neurone I learnt there with the neuromodulation learnt in this week,