PRe-FActoProject ID: 660147
Periodontal Regeneration through Femtosecond laser Action
Total cost:EUR 183 454,80
EU contribution:EUR 183 454,80
Coordinated in:United Kingdom
Call for proposal:H2020-MSCA-IF-2014See other projects for this call
Funding scheme:MSCA-IF-EF-ST - Standard EF
The PRE-Facto fellowship aims to develop a new regenerative approach which potentially will promote the revival of the periodontium, while a successful outcome may lead also to the prevention of the disease when intervened early. Within my research I am going to develop a new biomaterial (calcium phosphates doped with ions of say, cerium and erbium oxides, fluoride and aluminum (3+) ions) with antibacterial properties which will be densified and bonded on the tooth surface after the irradiation with an ultrafast pulsed laser (femtosecond laser). In order to promote the attachment of the fibroblasts, the biomaterial will be mixed with collagen gel (or chitosan) while the effect of the surface topology will be also tested. For my research training as a bioengineer within which I aim to solve periodontitis as a global problem I will deal with the following Research Training Activities (RTAs); i) Synthesis, characterization and delivery of the biomaterial; ii) Sintering of the materials with femtosecond laser - characterization of the sintered area; iii) Cell culture and histological studies for exploring the regenerative potential of the material; iv) Toxicology tests and potential risks investigation.
This training is not only beneficial for the fellow’s scientific career development, but also for the host institute (the University of Leeds) and the general public health. The above listed training activities will be supplemented by a number of non-Technical skills for my career development. As a result of this cross-disciplinary project the fellow will be a well-rounded bioengineer researcher who in future will be become qualified for pursuing an academic career at the University of Leeds in the area of advanced drug delivery and photo-dynamic therapy using novel femtosecond lasers. Necessary research training and supervision at the UoL will be provided by the Engineering supervisor Prof. Animesh Jha (AJ) and the clinical supervisor Prof . Monty Duggal.
EU contribution: EUR 183 454,80
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