here - Dartrix

Transcription

here - Dartrix
Consortium
Glioblastoma
Glioblastoma is the most aggressive and
most prevalent of the primary brain
tumours.
Dr Paul Southern
Resonant Circuits
Limited
- Project coordinator: Prof. Kerry Chester
- UCLH Clinical lead: Dr Paul Mulholland
University College London
Dr Nicole Gehrke
nanoPET Pharma GmbH
It is invariably fatal with most patients
dying within 12 months of diagnosis
37,400 people were diagnosed with
brain and other central nervous system
tumours in Europe in 2001.
Prof. Ulrich Pison
TOPASS GmbH
DARPin Targeted
Magnetic
Hyperthermic
Therapy for
Glioblastoma
Prof. Andreas Plückthun
Universitaet Zuerich
Current treatment can involve
chemotherapy, radiation and surgery.
No standard treatment exists for the
management of patients with
recurrent/relapsed glioblastoma.
Mathilde Monges
NOVAMEN
Contact
- Project Coordinator: Prof. Kerry Chester, UCL
[email protected]
- Project website: www.dartrix.eu
www.dartrix.eu
This project is funded by the
European Union under the 7th
Framework Programme
Grant Agreement nr 278580
DARTRIX, DARPin Targeted RX (therapy) is a
multidisciplinary collaborative project that will
develop high-affinity protein scaffolds to create a
new generation of targeted therapeutics for the
treatment of glioblastoma. There is great need;
glioblastoma is virtually incurable and most patients
die within 12 months of diagnosis. DARPins are
small, non-immunoglobulin human protein scaffolds
that can be engineered to incorporate additional
favourable properties to target glioblastoma cells
with exceptionally high affinity.
The new DARPins will be coupled to Ferucarbotran,
a form of Super Paramagnetic Iron Oxide
Nanoparticles (SPION) more usually employed for
Magnetic Resonance Imaging (MRI). When
stimulated by an appropriate alternating magnetic
current, SPION generate heat that can kill cancer
cells very effectively. The conjugation of DARPins
with SPION (DARTRIX particle) leads to a potent
therapeutic for thermal ablation of glioblastoma.
The consortium has all the skills and knowledge to
develop DARPins from bench-to-bedside for
glioblastoma treatment. This DARTRIX particle will
pioneer targeted hyperthermic cancer treatment of
glioblastoma in an innovative adaptive first-inhuman trial.
DARTRIX specific objectives
1. To develop new efficient and safe therapy
against glioblastoma and improve life
expectancy of patients
2. To generate new affinity heat-stable DARPins
specifically
to
target
cell
surface
markers/subsets of glioblastoma cells
3. To engineer the new DARPins to avoid nonspecific uptake (e.g. by macrophages)
4. To create a range of DARTRIX particles based
on the new DARPins and designed to optimize
treatment
5. To develop efficient GMP-compatible
systems for scale up and manufacture of
DARTRIX particles with stable formulation
6. To evaluate the safety, toxicity, dose and
therapeutic potential of the DARTRIX particle in
vitro using a range of human brain cells
7. To test the safety; immunogenicity, toxicity,
dose and efficacy of the DARTRIX particles in
vivo using a mouse xenograft model of human
glioblastoma
8. To Evaluate the DARTRIX particles in a firstin-human trial in glioblastoma, using MRI to
confirm delivery of the particles followed by
therapeutic hyperthermia for treatment

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