TCD, UCD and RCSI launch Biomedical Engineering collaboration to accelerate innovative health care technologies
December 20 2012
Ireland’s leading engineers, physicians and scientists are joining forces to develop 21st century health care devices and technologies in a new collaboration of the Dublin Biomedical Engineering Research Initiative (DBERI) announced this week. Stem cell based tissue engineering, regenerative therapies for orthopaedic medicine, valve repair devices for damaged hearts and imaging systems for neurology are just some of the new technologies at the frontier of medical innovation that the new initiative will lead on.
“As is our tradition at Trinity College, we are bringing together diverse fields of engineering and medicine to catalyse innovation in novel ways,” said Dr Patrick Prendergast, Provost of Trinity College. “The goal of this new initiative is to improve health care delivery through new tools, technologies and medicines.”
The primary objectives of the Dublin Biomedical Engineering Research Initiative (DBERI) are to foster engagement between clinical specialisations, engineering and science. It will provide a focus for collaborative research, education and commercialisation/development activities, maximising the synergies and capitalising on its breadth of expertise. It will also increase the connectivity between the medical technologies industry sector, academics and clinicians.
“This is an important step towards the integration of different disciplines that increasingly share common goals,” said Dr. Daniel Kelly, Director of the Trinity Centre for Bioengineering. “Biomedical engineering in the three Institutions has already attracted a large number of outstanding academics from Schools of Medicine, Engineering, Natural Sciences and Dental Sciences who all share the objective of translating creative ideas into new clinical diagnostics, devices and therapeutics that will transform patient care.”
The new Dublin Biomedical Engineering Research Initiative will intersect broad areas of research and focus on new approaches to disease identification, simulation, clinical testing together with the development of new interventions and the discovery of new therapies. It builds on over 20 years of collaboration between TCD, UCD and RCSI in bioengineering research and education.
Professor Fergal O’Brien, Head of the Bone and Tissue Engineering Research Group at the Royal College of Surgeons in Ireland, sees the Dublin Biomedical Engineering Research Initiative as a leader in designing next-generation therapies and devices.
“The next giant leap in patient care is going to happen through the joint efforts of engineering, life sciences, medicine and pharmacy specialists, applying their expertise to expand approaches for preventing, diagnosing and treating disease and injury,” said Prof. O’Brien. “Even though this formalised effort is still in its formative stage, we’re already seeing exciting results from these collaborations that will have a profound impact on patient care.”
The Dublin Biomedical Engineering Research Initiative aligns with award winning educational programmes offered by the three institutes. The M.Sc. in Bioengineering programme received two awards in 2012, the Engineers Ireland Excellence in Education Award & the GradIreland Best Postgraduate Course of the Year 2012 in Engineering. These awards recognise the scale and diversity that the course delivers in terms of the student experience, its contribution to the Irish economy and making an impact on global healthcare challenges.
“With our top-ranked engineering and medical schools and our close ties to the country’s strong life sciences and technology industries, the Dublin Biomedical Engineering Research Initiative is uniquely positioned to make a significant contribution to the advancement of technologies to improve medicine and save lives,” said Professor Cathal Kelly, CEO and Registrar of the Royal College of Surgeons in Ireland.
The levels of collaborative engagement required within the biomedical engineering field are typified by the activities within and between the DRERI partners that have existed over several decades. By generating a platform for formal engagement, the initiative will see significant gains in the collective ability to introduce innovative applications of engineering into the clinical domain, and the establishment of successful spin-out companies, such as BiancaMed that originated from research in Biomedical Engineering in UCD, giving the medical device sector significant impetus in the region.
“Putting the existing levels of collaborative activity onto a formal footing through this initiative enhances the capacity for further research and education programme delivery relating to the design and development of medical devices, diagnostics and therapies in the fields of orthopaedic, cardiovascular, rehabilitation and neural engineering.” said Professor David FitzPatrick, Director of the UCD Bioengineering Research Centre.
The Technology Transfer Offices across the three founding institutions have helped to license and spin off knowledge, technology and developments to medical device companies based in Ireland. Two patented technologies from Prof. O’Brien’s laboratory in RCSI for bone and cartilage repair are being commercialised through a spin-out campus company, SurgaColl Technologies. Patented technologies related to novel vascular stents from Dr. Kelly’s laboratory were licensed to another spin-out company, Synergy Flow.
The ability to combine complementary skills across institutions to translate research outcomes facilitates the process of commercialising the Institutions’ innovations. “DBERI has the capability to identify medical needs, conceive solutions, prototype innovative devices and then link with development partners to move healthcare products from university to patient as quickly as possible”, said Dr Gordon Elliott of the Technology Transfer Office in Trinity College.
Pictured left to right: Professor Fergal O'Brien (RCSI), Dr Daniel Kelly (TCD) and Dr Liam Breen (TCD).