Health And Wellness, Research, Science and Technology

Six U of A innovations that changed the world

Â鶹ÊÓƵ researchers have been driving discovery and innovation for more than 100 years. It is what we do. It is who we are. We push the boundaries of knowledge and create the future through our research, teaching and innovation—and the outcomes help to improve lives and shape our world.  But do you know how many Â鶹ÊÓƵ innovations and discoveries have touched your daily life or the lives of those around you? Here are just six STEM innovations—among the many Â鶹ÊÓƵ innovations spanning diverse fields of study—that have changed the world:

October 15, 2020 By Matthew McCreary

/en/folio/2020/10/cover-image-v3.jpg

1) Quantum Canola

Canola field

When blackleg disease threatened to destroy Canada’s multibillion-dollar canola industry in the 1990s, Â鶹ÊÓƵ researchers rose to the challenge. Plant scientist Gary Stringam used his expertise in biotechnology to create a blackleg-resistant strain called Quantum canola that helped save Canada's canola industry. Quantum canola now contributes more than $20 billion to Canada's economy, and canola has become the country’s most valuable crop. Today, Â鶹ÊÓƵ researchers are poised for global leadership in emerging areas like precision agriculture, which Mordor Intelligence predicts will be the most influential agricultural trend by 2030.

2) The world's first hepatitis B antiviral

/en/folio/2020/10/tyrrell-in-lab-with-students.jpg
Lorne Tyrrell 

Hepatitis affects nearly one in three people worldwide. More than 400 million people live with chronic hepatitis B and C, and 1.3 million die from these diseases each year. When Â鶹ÊÓƵ researchers Lorne Tyrrell and Morris Robins discovered hepatitis B antiviral agents in the 1990s, their findings sparked one of Canada’s largest university-industry research collaborations and produced the world's first oral hepatitis antiviral, lamivudine. The medication is now used in more than 200 countries to treat HIV/AIDS as well as hepatitis, and has helped to save or improve millions of lives.

2) The C-Leg

C-leg
The C-Leg (Photo: John Ulan)

Â鶹ÊÓƵ researchers Kelly James and Richard Stein were among the first in the world to create a bionic leg—and the first to create a fully microprocessor-controlled knee. When they undertook their work in the early 1990s, the was ahead of its time, using an intelligent sensor chip to detect the limb’s precise location in space and making adjustments at every moment of each step. The C-Leg remains an industry leader today, having helped more than 70,000 people around the world to walk more easily, safely and naturally.

4) Synthesized sucrose

Ray Lemieux
Â鶹ÊÓƵ chemist Ray Lemieux (Photo: Wikimedia Commons)

Many of today's medical treatments trace their origins to the creation of synthesized sucrose, as carbohydrate (i.e., sugar) chains—or glycans—reside in every living cell and are essential to most biological processes. Â鶹ÊÓƵ chemist Ray Lemieux was the first to build the 3-D sucrose molecule, laying critical groundwork for the development of antibiotics, vaccines, early anti-rejection techniques for organ transplant, and even early treatments for hemophilia. Lemieux accomplished the synthesis of sucrose while working at the National Research Council lab in Saskatoon, bringing his expertise to the Â鶹ÊÓƵ a few years later. The companies he founded shortly after—R&L Molecular Research (1962) and Raylo Chemicals (1966), acquired in 2006 by Gilead Sciences—helped to launch Alberta's biotech economy. Today the Â鶹ÊÓƵ is home to , the leading the emerging science of carbohydrates, which includes the Â鶹ÊÓƵ’s newest Canada Excellence Research Chair, Lara Mahal.

5) The first oilsands separation process

Karl Clark
Karl Clark in his oilsands lab at the Â鶹ÊÓƵ in 1929
(Photo: Glenbow Museum Archives, ND-3–4596a)

Recruited by the Â鶹ÊÓƵ’s founding president, Henry Marshall Tory, engineering professor Karl Clark developed the first successful means of separating and refining heavy oil from the oilsands. Thanks in part to Clark’s discovery, Alberta has since become the world’s sixth largest energy producer, and the Â鶹ÊÓƵ continues to play a central role with the Canadian and global energy industry incorporating many of the university’s research discoveries. Home to , the university houses expertise in new energy technologies—including solar, biofuel, energy storage, fuel cells, chemical batteries and nuclear fusion—that will help Alberta maintain its leading role in energy amid the changing global landscape.

Jillian Buriak

6) World championship winning AI

Professor Michael Bowling and the Computer Poker Research Group (Photo: John Ulan)

Artificial intelligence is set to transform every facet of our world—but much of this revolution . In 1994, Â鶹ÊÓƵ computing scientist Jonathan Schaeffer’s computer program, Chinook, —the first program to win a human world championship in any game. Following the same trajectory, Michael Bowling and his team recently developed an in no-limit Texas hold ’em poker. These victories underpin diverse AI research at the Â鶹ÊÓƵ, spawning AI-powered innovations like the PolypDx test for colon cancer, new tools to , and even under current redevelopment that detects lung abnormalities to better diagnose COVID-19.

Schaefer
Computing scientist Jonathan Schaeffer (Photo: Richard Siemens)

Know another Â鶹ÊÓƵ innovation that changed the world? Email blog@ualberta.ca and let us know.


Great ideas change the world, but ideas need a push forward. At the Â鶹ÊÓƵ, we know that push has never been more important as we do our part to rebuild Alberta and keep doors of opportunity open to all. We're making research discoveries. We’re cultivating entrepreneurs. And we’re giving our students the knowledge and skills they need to turn today's ideas into tomorrow's innovations. Read more stories about Â鶹ÊÓƵ innovators.