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    • An international source for discovery, education and patient care. Read More

    • State-of-the-art research facilities in the heart of downtown Toronto. Read More

    • Training the future of research today. Read More

    • Research firsts with global impact. Read More

    University Health Network (UHN) is a research hospital affiliated with the University of Toronto and a member of the Toronto Academic Health Science Network. The scope of research and complexity of cases at UHN have made it a national and international source for discovery, education and patient care.

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    2. Welcome to Research at UHN

    Research Institutes at UHN

    Research across UHN's five research institutes spans the full spectrum of diseases and disciplines, including cancer, cardiovascular sciences, transplantation, neural and sensory sciences, musculoskeletal health, rehabilitation sciences, and community and population health.

    Learn more about our institutes by clicking below:

    • Krembil

      Krembil Research Institute

    • PM Cancer Centre

      Princess Margaret Cancer Centre

    • Techna

      Techna Institute

    • TGRI

      Toronto General Research Institute

    • TRI

      Toronto Rehabilitation Institute

    Recent News

    Precision Colon Cancer Therapy

    New combination of genetic markers better identifies those that benefit from anticancer drug.

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    Precision Colon Cancer Therapy
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    Patients with metastatic colorectal cancer may receive a medication called cetuximab as part of their treatment. However, only a portion of those patients benefit from the therapy, which is expensive and can have side effects.
     
    Changes in a gene known as RAS have been found to identify patients that respond to cetuximab therapy. Around 40% of all patients have genetic changes in RAS that preclude them from receiving cetuximab. However, many patients that do receive the drug—despite favourable RAS status—experience little therapeutic benefit from the therapy.
     
    To improve how patients are selected for cetuximab therapy, PM Senior Scientist Dr. Geoffrey Liu and colleagues explored a different approach: they looked at tumour as well as healthy tissues from samples collected from patients enrolled in an international clinical trial. This approach identified, in the healthy tissue, small genetic changes in a gene for the Fc-ɣ receptor, which plays a role in the how cetuximab helps the body’s immune system identify tumour cells and attack them.
     
    When combined, the two genetic readouts—Fc-ɣ in healthy tissue and RAS in the tumour—better identified which patients benefit from cetuximab. Use of the new Fc-ɣ receptor marker identified two thirds of those who would normally be selected for cetuximab as unlikely to benefit. Thus, the new screening method has the potential to greatly improve the selection of patients for treatment, while ensuring that only those that will benefit receive the drug.
     
    See Dr. Liu talk about the study in an interview with UHN Public Affairs here.
     
    This work was supported by the Ontario Institute for Cancer Research, Transgenomic Inc., the Canadian Institutes of Health Research, the Peter MacCallum Cancer Research Foundation and The Princess Margaret Cancer Foundation. Dr. G Liu holds the Alan B. Brown Chair in Molecular Genomics and the Cancer Care Ontario Chair in Experimental Therapeutics and Population Studies.
     
    Fc-γ receptor polymorphisms, cetuximab therapy, and survival in the NCIC CTG CO.17 trial of colorectal cancer. Liu G, Tu D, Lewis M, Cheng D, Sullivan LA, Chen Z, Morgen E, Simes J, Price TJ, Tebbutt NC, Shapiro JD, Jeffery GM, Mellor JD, Mikeska T, Virk S, Shepherd LE, Jonker DJ, O'Callaghan CJ, Zalcberg JR, Karapetis CS, Dobrovic A. Clinical Cancer Research. doi 10.1158/1078-0432.CCR-15-0414. 2016 May 15. [Pubmed abstract]

    A New Vision, a New Institute

    The Donald K. Johnson Eye Centre and the Vision Science Research Program join forces.

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    A New Vision, a New Institute
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    The ​creation of a new clinical and vision research institute—named the Donald K. Johnson Eye Institute—was announced at a special UHN celebration on the evening of September 20, 2016. The new institute is a result of merging UHN’s Ophthalmology Department (previously known as the Donald K. Johnson Eye Centre) with the Division of Vision Sciences. Its research activities will continue to operate under the direction of the Krembil Research Institute.

    By bringing together a clinical centre with a comprehensive research program, it will be guided by dual clinical/research leadership through co-directors Dr. Robert Devenyi, Director of Retinal Services, and Dr. Valerie Wallace, Head of Vision Sciences. This integrated approach will promote new collaborations and strengthen existing partnerships between clinicians and researchers, with the aim of developing innovative approaches to treating patients at UHN and worldwide.

    "The greatest research advances often stem from simple conversations between clinicians and researchers, which spark new ideas," says Dr. Wallace. "The organizational structure of the Donald K. Johnson Eye Institute will ensure that more of these conversations happen."
     
    The new institute could not have been formed without the continued leadership and generosity of philanthropists Donald K. Johnson and his wife, Anna McCowan-Johnson. The name of the institute reflects the long-standing support that they have provided to clinical efforts and basic research at UHN—support that totals more than $15 million.
     
    It is the vision of Dr. Peter Pisters, UHN President and CEO, to establish similar clinical-research sub-institutes across all UHN programs; he commented on the benefits of this approach during his address, saying, "This transformation will facilitate improved collaboration between clinicians, researchers and educators, with the ultimate goal of improving patient care."

    FedDev Ontario Funds Innovation

    New federal investment in improving the care and management of chronic diseases.

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    FedDev Ontario Funds Innovation
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    The Federal Economic Development Agency for Southern Ontario (FedDev Ontario) announced an investment of up to $15 million to York University and its partners, Southlake Regional Health Centre and the University Health Network, to support a major project focused on improving care options for managing chronic disease. The investment has been matched by an additional $19.5 million from 36 partners, bringing the total project budget to $34.5 million.
     
    Rates of chronic disease are rising in Canada 14% annually and three out of five Canadians over 20 years of age have at least one chronic disease [Centre for Chronic Disease Prevention and Control, Public Health Agency of Canada, Statistics Canada]. The costs of chronic disease in Canada are enormous—amounting to $190 billion annually—and these costs are rising faster than economic growth [National Health Expenditure Database, CIHI; The Conference Board of Canada].
     
    The project will be used to bring academic, hospital and business partners together to develop and commercialize clinical applications and medical devices to improve the care and efficient management of chronic disease. The new technologies to be developed have the potential to improve patient outcomes and improve the efficiency of health care, while reducing costs.
     
    In total, the project will support the development of 37 technologies, enable the creation of 72 new collaborations and close to 130 new jobs for Canadians. FedDev Ontario is supporting this project through its Investing in Commercialization Partnerships initiative.
     
    Regarding the initiative, the Honourable Navdeep Bains, Minister of Innovation, Science and Economic Development and Minister responsible for FedDev Ontario, said, “The most innovative solutions often happen when people from different fields collaborate. That's why it's important for universities, healthcare providers, the business community and government to work together. That's how we will come up with health‑care solutions that improve the quality of life for Canadians."
     

    UHN Researcher Made RSC Fellow

    Dr. Gordon Keller has been elected as a Fellow of the Royal Society of Canada (RSC).

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    UHN Researcher Made RSC Fellow
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    Dr. Gordon Keller has been inducted as a fellow of the Royal Society of Canada (RSC). Dr. Keller is a Senior Scientist at PM Cancer Centre, Director of the McEwen Centre for Regenerative Medicine and a Tier 1 Canada Research Chair in Embryonic Stem Cell Biology.
     
    RSC Fellows are elected by their peers in recognition of outstanding achievement. The appointment honours Dr. Keller’s contributions to the field of developmental biology, and specifically, his research into the therapeutic potential of pluripotent stem cells (PSCs). He has made significant contributions to his field through pioneering methods to guide PSCs into various cell types with the aim of developing new therapies for a range of degenerative diseases.
     
    Dr. Keller will join 18 other Fellows to be inducted within the Life Science Division during the awards ceremony on Friday, November 18, 2016 at the Isabel Bader Centre in Kingston, Ontario.
     
    The RSC, which was founded in 1882, aims to “recognize scholarly, research and artistic excellence, to advise governments and organizations, and to promote a culture of knowledge and innovation in Canada and with other national academies around the world.”
     

    UHN EVP Education Honoured

    Dr. Hodges wins prestigious award for research in medical education.

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    UHN EVP Education Honoured
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    Dr. Brian Hodges, UHN’s Executive Vice President (EVP) of Education and TGRI Affiliate Scientist, is the recipient of the prestigious 2016 Karolinska Institutet Prize for Research in Medical Education. This international award is awarded every two years and aims to “to recognize and stimulate high-quality research in the field, and to promote long-term improvements in educational practice.”
     
    Dr. Hodges’ research has changed how medical professionals are trained: his findings have led to the integration of realistic simulations, as well as the inclusion of assessments for mental health and communication skills in medical education programs—approaches that are now standard practice in Canada and have since been adopted by other countries.
     
    The award will presented to him by the Karolinska Institutet in Stockholm on October 13, 2016. The Karolinska Institutet is a major hub for medical research in Sweden and also hosts a Nobel Assembly, which has served to select Nobel laureates in Physiology and Medicine.
     

    Stop in the Name of Life

    Life-threatening changes to the aorta—the body’s largest artery—are driven by micro-RNA.

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    Stop in the Name of Life
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    The heart pumps blood through the arteries to the rest of the body, starting with the largest artery—the aorta. A valve in the heart—the aortic valve—ensures that blood flows in one direction, out of the heart and into the aorta. This valve is normally made up of three leaves, but in a rare cardiac condition called bicuspid aortic valve (BAV), the valve only has two leaves. This condition changes blood flow and can lead to progressive dilation (ie, widening) of the aorta which, if not surgically replaced, can be fatal.
     
    Understanding the mechanisms responsible for this dilation may lead to new treatments to prevent it in high risk patients. In a recent study, TGRI Senior Scientist Dr. Ren-Ke Li and colleagues collected tissue samples from the aortas of patients with and without BAV who had undergone heart surgery.
     
    The researchers looked at levels of micro-RNAs—small non-coding RNA molecules that regulate gene function in the cell—and found that a group of these molecules, known as miR-17, varied according to the degree of dilation observed in patients. This micro-RNA group plays a role in regulating matrix metalloproteinases (MMP), enzymes that can break down the connecting material between cells and that are important for altering the structure of the aorta associated with dilation.
     
    An increase in miR-17 and MMP activity may be an early hallmark of dangerous changes to the structure of the aorta in BAV. miR-17 levels were highest in the less-dilated sections from patients with BAV, suggesting that this normal-looking tissue was in the early stages of the disease. “Decreasing miR-17 expression during the early stages of dilation may prevent further progression, and represents a potential therapeutic target,” says Dr. Li.
     
    This work was supported by The Larry and Cookie Rossy Family Foundation, the Heart and Stroke Foundation of Ontario and the Toronto General & Western Hospital Foundation. Dr. TM Yau holds the Angelo and Lorenza DeGasperis Chair in Cardiovascular Surgery Research. Dr. R-K Li holds the Tier 1 Canada Research Chair in Cardiac Regeneration. Image credit: creative commons license, Cardionetworks via Wikimedia Commons.
     
    Progressive aortic dilation Is regulated by miR-17-associated miRNAs. Wu J, Song HF, Li SH, Guo J, Tsang K, Tumiati L, Butany J, Yau TM, Ouzounian M, Fu S, David TE, Weisel RD, Li RK. Journal of the American College of Cardiology. doi: 10.1016/j.jacc.2016.04.027. 2016 Jun 28. [Pubmed abstract]
     

    Nanoparticles to Outsmart Cancer

    Researchers develop a ‘smart’ technology that uses light and heat to destroy tumours.

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    Nanoparticles to Outsmart Cancer
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    Photothermal therapy uses light and heat to treat cancer. The approach involves injecting small substances called nanoparticles into the body, where they accumulate in tumours. Light is then targeted to the tumour area; the nanoparticles absorb this light and convert it into heat—destroying the tumour cells.
     
    Although the therapy is promising, its widespread use is limited for two reasons: too much heat can be generated, damaging the surrounding normal tissue; and light stops travelling after it is absorbed, making the therapy ineffective for treating the inside of large tumours. Dr. Gang Zheng (Techna Core Lead and PM Senior Scientist) has now developed nanoparticles to address these issues.
     
    Dr. Zheng’s nanoparticles are formulated with two main components: J-aggregates, which absorb light and convert it to heat; and lipid membrane sensors, which respond to the heat generated by the J-aggregates. When light is absorbed by J-aggregates at the surface of a tumour, the heat that is generated destroys cancer cells. This also activates the lipid membrane sensors, which cause the J-aggregates to dissolve and become non-functional—stopping excessive heat production. Because the J-aggregates are dissolved, light is no longer absorbed and is allowed to travel into a deeper part of the tissue. This process is repeated with the next layer of nanoparticles until the tumour is destroyed from the outside in.
     
    “Our nanoparticles, which we’ve called photothermal enhancing auto-regulated liposomes (PEARLs), are a new form of ‘smart’ technology that—after being targeted to tumours—provide the right amount of heat required to kill cancer cells,” explains Dr. Zheng. “Our next step is to test this concept further in preclinical models.”
     
    This work was supported by the Terry Fox Research Institute, Prostate Cancer Canada, the Canadian Institutes of Health Research, the Ontario Institute for Cancer Research, the Natural Sciences and Engineering Research Council of Canada, the Canada Foundation for Innovation, the Tanenbaum Chair in Prostate Cancer Research and The Princess Margaret Cancer Foundation.
     
    Controlling spatial heat and light distribution by using photothermal enhancing auto-regulated liposomes (PEARLs). Ng KK, Weersink RA, Lim L, Wilson BC, Zheng G. Angewandte Chemie (International Edition in English). 10.1002/anie.201605241. 2016 Jul 14. [Pubmed abstract]
     
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