Welcome to Research at UHN

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.

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:

UHN Researcher Made RSC Fellow

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

UHN Researcher Made RSC Fellow

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.

UHN EVP Education Honoured

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.

Stop in the Name of Life

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.

Nanoparticles to Outsmart Cancer

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]

Asking the Right Questions

Questionnaire helps clinicians track the progression of a rare disease that weakens muscles.

Asking the Right Questions

Myasthenia gravis (MG) is a disease caused by the gradual breakdown of communication between nerves and muscles. This breakdown leads to varying degrees of weakness in the body’s muscles, which worsens during periods of activity and improves after periods of rest.

An interesting aspect of MG is that treatments—ranging from medication to surgery—vary depending on the severity of symptoms. However, measuring disease severity remains a challenge because some symptoms are only triggered by activities that are not easily observed in the clinic.

In order to improve disease tracking, University of Toronto Assistant Professor Dr. Carolina Barnett Tapia, working with Krembil Senior Scientist Dr. Aileen Davis, set out to develop a questionnaire that could be used by clinicians to more reliably assess disease stage. The original draft of the questionnaire was assembled using common examination questions taken from the MG literature and provided by various MG experts. Then, the study team asked 18 MG patients and 72 MG experts for their input on what questions should be changed, removed or added in order to improve comprehension and diagnostic accuracy.

The team tested the revised questionnaire on 200 individuals with MG. The results revealed that the questionnaire excelled in two important ways: reliability and accuracy. Specifically, they found that the questionnaire yielded similar scores when administered to the same patient on separate occasions (known as the “test–retest reliability”). They also found that the questionnaire was a good indicator of actual disease state (known as “construct validity”).

“Overall, the main advantages of our questionnaire are that it is easy to use, does not take long to complete and, at the same time, provides a comprehensive assessment of the myasthenic state in patients,” says Dr. Davis.

This work was supported by the American Academy of Neurology, the American Brain Foundation and the Toronto General & Western Hospital Foundation.

Development and validation of the Myasthenia Gravis Impairment Index. Barnett C, Bril V, Kapral M, Kulkarni A, Davis AM. Neurology. PMID: 27402891. 2016 Jul 8. [Pubmed abstract]

Making Depression Less Debilitating

Antidepressant drug not only improves mood, but also depression-related cognitive impairment.

Making Depression Less Debilitating

Depression is one of the most common mental disorders in North America. Its symptoms include persistent feelings of sadness and hopelessness, low self-esteem and loss of interest or pleasure.

Depression can also impair a person’s ability to think, concentrate, form memories and solve problems. These “cognitive deficits” can persist even after mood has improved and can interfere with social interactions and workplace performance. Presently, there are no treatments available that specifically target these deficits.

To address this, Krembil Clinician Investigator Dr. Roger McIntyre examined the effectiveness of two conventional antidepressants—vortioxetine and duloxetine—in treating the cognitive deficits associated with depression.

Dr. McIntyre and colleagues examined the outcomes of three clinical trials that enrolled a total of 1,652 participants diagnosed with depression. Each participant had received either vortioxetine, duloxetine or a placebo containing no drug for eight weeks. Their depressive symptoms and mental function were assessed before and after treatment. Dr. McIntyre and his colleagues’ careful statistical analyses revealed that the study participants who received vortioxetine experienced significant and consistent improvements in cognitive function; however, those who received duloxetine did not.

“These findings suggest that vortioxetine could be a more effective treatment for depression—by improving mood and cognitive impairments,” says Dr. McIntyre. “However, more research and longer-term clinical studies are needed before we can confirm this.”

This work was supported by H. Lundbeck A/S, the Takeda Pharmaceutical Company Limited and the Toronto General & Western Hospital Foundation.

The effects of vortioxetine on cognitive function in patients with major depressive disorder (MDD): a meta-analysis of three randomized controlled trials. McIntyre RS, Harrison J, Loft H, Jacobson W, Olsen CK. International Journal of Neuropsychopharmacoly. doi: 10.1093/ijnp/pyw055. 2016 June 15. [Pubmed abstract]

Earlier Screening in Survivors

High prevalence of polyps in young cancer survivors treated with abdominal radiation therapy.

Earlier Screening in Survivors

Effective cancer interventions can prolong a patient’s life; however, they can also put the patient at risk for delayed complications. For example, young cancer survivors treated with abdominal radiation therapy (ART) have increased risks of colorectal cancer (CRC), yet clinical practice guidelines are inconsistent on recommendations regarding the initiation of early screening: there is no published evidence showing that treatment-related CRC is detectable with early screening.

A recent study led by CCRU member Dr. David Hodgson and his team examined the prevalence of colorectal polyps—fleshy growths occurring on the lining of the colon or rectum that have the potential to develop into CRC—in cancer survivors aged 35-49 years old who had received ART over ten years ago.

Using colonoscopic screening, potentially precancerous polyps were found in 27.8% of these individuals; this prevalence is as at least as high as that previously reported for the average-risk population over 50 years in age and significantly higher than that reported for those aged 40-49. Moreover, 53% of the polyps were within or at the edge of the areas of tissue where ART was previously applied.

“These findings suggest that treatment-associated CRC can be detected with early screening,” states Dr. Hodgson. “They also support guidelines that recommend early initiation of CRC screening among select young cancer survivors.”

This work was supported by the Canadian Cancer Society Research Institute, the Pediatric Oncology Group of Ontario, and The Princess Margaret Cancer Foundation.

High prevalence of adenomatous colorectal polyps in young cancer survivors treated with abdominal radiation therapy: results of a prospective trial. Daly PE, Samiee S, Cino M, Gryfe R, Pollett A, Ng A, Constine LS, Hodgson DC . Gut. doi: 10.1136/gutjnl-2016-311501. 2016 Jul 13. [Pubmed abstract]

Research Institutes at UHN

Krembil

PM Cancer Centre

Techna

TGRI

TRI

Recent News

UHN Researcher Made RSC Fellow

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

UHN Researcher Made RSC Fellow

UHN EVP Education Honoured

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

UHN EVP Education Honoured

Stop in the Name of Life

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

Stop in the Name of Life

Nanoparticles to Outsmart Cancer

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

Nanoparticles to Outsmart Cancer

Asking the Right Questions

Questionnaire helps clinicians track the progression of a rare disease that weakens muscles.

Asking the Right Questions

Making Depression Less Debilitating

Antidepressant drug not only improves mood, but also depression-related cognitive impairment.

Making Depression Less Debilitating

Earlier Screening in Survivors

High prevalence of polyps in young cancer survivors treated with abdominal radiation therapy.

Earlier Screening in Survivors

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Research Institutes at UHN

Krembil

PM Cancer Centre

Techna

TGRI

TRI

Recent News

UHN Researcher Made RSC Fellow

UHN EVP Education Honoured

Stop in the Name of Life

Nanoparticles to Outsmart Cancer

Asking the Right Questions

Making Depression Less Debilitating

Earlier Screening in Survivors