The Centre for Research and Applications in Fluidic Technologies (CRAFT) is a unique collaboration between the University of Toronto and the National Research Council of Canada and now Unity Health Toronto
The mandate of the Centre for Research and Applications in Fluidic Technologies (CRAFT) has been extended to 2028 and expanded to formally include Unity Health Toronto, an academic hospital network and leading Canadian health research institute.
A unique partnership between the University of Toronto (U of T), the National Research Council of Canada (NRC) and now Unity Health Toronto, CRAFT develops leading-edge microfluidic devices that can address many challenges in human health.
The latest agreement, which includes $21 million in new investments, will support dozens of U of T trainees who will work alongside NRC scientists and engineers and clinical scientists on exciting projects related to diagnostics biofabrication and organ-on-chip systems.
With the addition of Unity Health Toronto, clinicians will now join CRAFT scientists in developing new microfluidic technologies such as detection of and monitoring risks of infection in intensive care unit (ICU) environments and rapid detection of arterial peripheral diseases. This will allow scientists and clinicians to directly test and validate their technologies in care settings and develop new pathways to work with industry partners.
"CRAFT was built from the common vision that microfluidics could make a real impact on Canada's scientific and clinical fields," says Teodor Veres (PhD), Director of R&D at the NRC's Medical Devices Research Centre and co-director of CRAFT.
"Focused on providing new student generations with opportunities to forge ground-breaking scientific and technological advancements in microfluidic devices, these advancements have the potential to revolutionize disease diagnosis and treatment in Canada and globally. This vision was crucial to our initiative's growth and our current success."
Microfluidic technology enables fluids to be manipulated in engineered, miniaturized devices with features at the scale of microns, or one thousandth of a millimetre. The ability to precisely control fluids at this scale has many important applications in engineering, medicine, biology and chemistry.
Applications of microfluidics include rapid diagnostic devices that help clinicians to reliably test for the presence of certain diseases at the patient's bedside while avoiding the cost and time delays associated with sending samples to large testing laboratories. Microfluidics are also used in biosensors that allow patients in remote communities to send accurate data to specialists located hundreds of kilometres away.
As an example, Dr. Claudia dos Santos, Unity Health critical care physician and scientist, has pinpointed a need to quickly identify ICU patients at risk of sepsis. She is working with CRAFT researchers to develop a microfluidic instrument that can detect biomarkers for sepsis right on the ICU floor. Such an instrument will allow for faster diagnosis and treatment of sepsis, which can be deadly if left untreated.
"With Unity Health Toronto formally joining CRAFT, we are bringing the power and potential of microfluidic devices into clinical settings. This partnership will allow clinicians to merge their expertise with CRAFT scientists and take the next major steps towards transforming patient care," says Dr. dos Santos.
Another application of microfluidics—known as organ-on-chip—enables cells, tissues or even portions of working organs to be grown outside the body in microfluidic devices. These biological models can be used in high-throughput screening of large libraries of potentially therapeutic molecules for specific functions, for example, determining which ones would be most effective against a particular type of cancer. Such screens could even suggest the ideal therapies for an individual patient, opening the door to precision medicine.
CRAFT was founded in 2018 and includes 3 research and development facilities for microfluidic devices: the Tissue Foundry for bioprinting and device preclinical validation; the Device Foundry for microfluidic device design, prototyping and small-scale fabrication; and the NRC device fabrication and scale-up facility. The first two are located at U of T and available for use by academics, students, industry and government. The latter is located on the NRC campus in Boucherville, Quebec.
In 2023, the facilities hosted 125 unique users from across U of T as well as affiliated hospitals, including Sunnybrook, SickKids and the University Health Network. Since its inception, CRAFT has engaged 44 researchers and 114 trainees in a wide range of projects, leading to 69 peer-reviewed publications, 22 patent submissions and 3 spin-off companies.
"CRAFT has been a team effort all along. In addition to the NRC, we have been supported as an Institutional Strategic Initiative through U of T's Division of the Vice-President, Research and Innovation, and by U of T's faculties of Engineering, Arts & Science, Medicine, and Pharmacy. We all look forward to an exciting next chapter in partnering with Unity Health," says Axel Guenther, a professor of mechanical engineering at U of T and co-director of CRAFT.
"Developing the next generation of made-in-Canada microfluidic technologies and bringing them to the people who need them most—patients, healthcare professionals and pharmaceutical companies—will require strong partnerships within and outside of CRAFT with our clinical partners, U of T's entrepreneurship ecosystem and Canadian industry. We invite everyone to visit and use our open research facilities in Toronto, attend our Microfluidics Professional Course from July 17 to 19 or attend our CRAFT research symposium in Boucherville on October 12, 2024."
https://news.google.com/rss/articles/CBMie2h0dHBzOi8vbnJjLmNhbmFkYS5jYS9lbi9zdG9yaWVzL2NyYWZ0LTIwLWFjYWRlbWljLWhvc3BpdGFsLW5ldHdvcmstam9pbnMtY2VudHJlLXJlc2VhcmNoLW1pY3JvZmx1aWRpYy1kZXZpY2VzLWh1bWFuLWhlYWx0aNIBAA?oc=5
2024-02-28 16:17:52Z
CBMie2h0dHBzOi8vbnJjLmNhbmFkYS5jYS9lbi9zdG9yaWVzL2NyYWZ0LTIwLWFjYWRlbWljLWhvc3BpdGFsLW5ldHdvcmstam9pbnMtY2VudHJlLXJlc2VhcmNoLW1pY3JvZmx1aWRpYy1kZXZpY2VzLWh1bWFuLWhlYWx0aNIBAA
Tidak ada komentar:
Posting Komentar