The University of Dundee is to lead a EUR2million European Union-funded project to develop new methods of delivering cancer treatments using MRI-guided Focused Ultrasound (MRgFUS) and drug 'nano-capsules'. ! w( ^2 Y0 ^1 p% U1 l2 }! x/ Q# }
The University will collaborate with international companies InSightec Ltd and CapsuTech Ltd on the 'NANOPORATION' project, which will develop new, more efficient methods of delivering chemotherapy. These will integrate MRI (magnetic resonance imaging), focused ultrasound and potentially photonics, with the delivery and activation of nano-capsules carrying anti-cancer drugs to effectively target tumours.
: ]! P# x( Z/ E6 @"All of the established methods of cancer treatment have significant drawbacks, in that they cause side effects, require invasive procedures or do not deliver their therapeutic effect in an effective manner," said Professor Andreas Melzer, Director of the Institute for Medical Science and Technology (IMSaT) at the University of Dundee. : k1 \5 d$ D, c1 q) c
"If we can combine these technologies of ultrasound, MRI and nano-capsules, as well as micro-bubbles, we will be able to release proven anti-cancer drugs in high concentration only in the area where they are required.
" ?0 @: e& [, i' |& H4 r$ H"The project partners have existing technology in each of the areas we are looking at. What we need to do is combine the best of it to create a new system which can deliver this very effective model of treatment."
W' k) u" f& M) pThe treatment envisaged by the project leaders involves drugs being injected into the body in the form of tiny capsules, which are harmless until they are activated by a concentrated focused ultrasound 'blast', using devices developed in IMSaT's medical ultrasound laboratories as well as commercial systems. The MRI scanner will be used to track the passage of the drugs, visualise the target and monitor the delivery of the drug treatment.
3 R/ k# m# f4 v* m$ MWith the focused ultrasound concentrated on the exact position of the tumour in the body, damage to surrounding tissue is minimised and the effective delivery of the drug to the target cells is significantly increased.
& L' H0 N x: r; ?/ o"The aim with all cancer treatment is to target the specific area of the tumour and remove it while causing as little damage to surrounding tissue as possible, and reducing the side effects of drug treatments.
e1 I7 ?: x8 o1 p) x; f. j* uThe methods we are developing would present a significant improvement in each of those areas, compared to current treatments." ) w1 i. _5 W) }$ {
IMSaT is unique in the UK in possessing within the same laboratories the multi-modality - MRI, focused ultrasound and photonics - imaging and surgical capabilities to deliver this kind of research. InSightec and CapsuTech deal with different aspects of targeted drug discovery - InSightec is a manufacturer and developer of unique MR-guided Focused Ultrasound systems, and CapsuTech is a developer of a drug delivery platform based on targeted nano-capsules. 3 O9 t4 \! j2 O9 t# p3 ]. b; c& j
The project has been funded for four years through the European Union's Framework 7 programme. It will create two new post-doctoral research positions and two new PhD positions at IMSaT.
5 C& R3 [# \- {" \1 S9 i& @6 TProject staff from all three partners will spend time on secondment at each of the institutions, enhancing knowledge transfer over the course of the programme. |