In this section

Mechatronics in Medicine

Head of Group

Prof Ferdinando Rodriguez y Baena

B415C Bessemer Building

South Kensington Campus

About us

The MIM Lab develops robotic and mechatronics surgical systems for a variety of procedures.

Twitter/X: @MIMLab_Robotics
Youtube: Mechatronics in Medicine Lab

What we do

The Mechatronics in Medicine Laboratory develops robotic and mechatronics surgical systems for a variety of procedures including neuro, cardiovascular, orthopaedic surgeries, and colonoscopies. Examples include bio-inspired catheters that can navigate along complex paths within the brain (such as EDEN2020), soft robots to explore endoluminal anatomies (such as the colon), and virtual reality solutions to support surgeons during knee replacement surgeries.

Why it is important?

...

How can it benefit patients?

......

Meet the team

Mr Ayhan Aktas
Casual - Student demonstrator - lower rate

Dr Daniel Bautista Salinas
Research Associate

Dr Kaiwen Chen
Research Associate

Mr Zejian Cui
Research Postgraduate

Mr Connor Daly
Research Postgraduate

Emeritus Professor Brian L Davies FREng
Emeritus Professor

Mr Zhaoyang Jacopo Hu
Research Postgraduate

Dr Hisham M Iqbal
Research Associate

Mr Alex Ranne
Research Postgraduate

Professor Ferdinando M Rodriguez y Baena
Co-Director of Hamlyn Centre, Professor of Medical Robotics

Dr Jialei Shi
Research Associate

Mr Spyridon Souipas
Casual - Other work

Ms Emilia Zari
Research Postgraduate

Citation

BibTex format

@article{Di:2010,
author = {Di, Ieva A and Grizzi, F and Rognone, E and Tse, ZTH and Parittotokkaporn, T and Rodriguez, y Baena F and Tschabitscher, M and Matula, C and Trattnig, S and Rodriguez, y Baena R},
journal = {Neurosurg Rev},
pages = {137--145},
title = {Magnetic resonance elastography: a general overview of its current and future applications in brain imaging},
volume = {33},
year = {2010}
}

Download

RIS format (EndNote, RefMan)

TY  - JOUR
AB  - Magnetic resonance elastography (MRE) has been developed over the last few years as a non-invasive means of evaluating the elasticity of biological tissues. The presence of the skull has always prevented semeiotic palpation of the brain, but MRE now offers the possibility of "palpating by imaging" in order to detect brain consistency under physiological and pathological conditions. The aim of this article is to review the current state-of-the-art of MRE imaging and discuss its possible future diagnostic applications in neuroscience.
AU  - Di,Ieva A
AU  - Grizzi,F
AU  - Rognone,E
AU  - Tse,ZTH
AU  - Parittotokkaporn,T
AU  - Rodriguez,y Baena F
AU  - Tschabitscher,M
AU  - Matula,C
AU  - Trattnig,S
AU  - Rodriguez,y Baena R
EP  - 145
PY  - 2010///
SN  - 0344-5607
SP  - 137
TI  - Magnetic resonance elastography: a general overview of its current and future applications in brain imaging
T2  - Neurosurg Rev
VL  - 33
ER  -