St. Joseph’s Health Care London is at the forefront of national research exploring biomarkers to better predict dementia and slow its onset.
Dr. Michael Borrie is now seeing grandchildren of patients who came to his clinic when he first started Alzheimer’s research 30 years ago.
His message to this new generation is more hopeful than ever, bolstered by ever-more-reliable ways of early detection and being tantalizingly close to a future of predicting dementia and intervening even before symptoms appear.
“The ultimate goal is to slow cognitive decline – and to stop it if we can – so that people can live independently, and happier, for a lot longer,” says Borrie, Medical Director of the Aging Brain and Memory Clinic at St. Joseph’s Health Care London (St. Joseph’s).
“We’re aiming to alter the trajectory of dementia,” he says.
A geriatrician, clinician and researcher, Borrie is also Platform Lead for the Comprehensive Assessment of Neurodegeneration and Dementia (COMPASS-ND), a long-term study within the Canadian Consortium on Neurodegeneration and Aging (CCNA).
Recently, the Canadian Institutes of Health Research announced $20.6 million in funding to continue the work of CCNA, a 30-site, multi-pronged project of which the St. Joseph’s-based team is the lead player. The grant will enable them to advance the frontiers of dementia research to benefit real-world patients here and across the country.
Solving mysteries with biomarkers
Despite the prevalence of Alzheimer’s and other neurodegenerative diseases – and with more than 10,000 new diagnoses in Canada each year – there are still many mysteries to solve: Why do some people have early-onset dementia while others, super-agers, remain alert and active in their 90s? What’s happening genetically, in their environment and personal medical history to advance or protect against the disease?
What is known, however, is the link between damaged nerve cells and specific proteins that misfold and clump together to form amyloid plaques and tau tangles in the brain. Detecting these abnormal proteins early is an important key to diagnosis and prediction.
Locally, the most comprehensive tool has been state-of-the-art brain Positron Emission Tomography (PET) scanning at St. Joseph’s Imaging. Lawson researchers are also involved in reliably detecting amyloid proteins by analyzing participants’ cerebrospinal fluid (CSF) – a surprisingly accurate way of confirming imaging results, says geriatrician Dr. Jaspreet Bhangu, a Lawson scientist and head of the biomarker project.
Through the BioMIND regional research project, Lawson scientists are analyzing PET scans, blood and CSF samples to check for specific protein biomarkers. If shown to be reliable, a series of these tests over time could signal whether the disease is progressing, and could predict whether it will progress or respond to treatment.
All that gets added to an arsenal that includes tests of behaviour, memory and cognitive function.
“It’s a triple assessment, or even a quadruple one, that we can conduct over time. We hope to use these advanced tests to provide vital information, similar to what is done in certain types of cancer,” Bhangu says.
But that’s not all.
Testing potential treatments
St. Joseph’s is also one of the country’s most active sites for clinical trials into whether novel medications might be able to directly pinpoint and destroy the proteins that cause Alzheimer disease.
“This is the intersection of cutting-edge research, top-notch resources and excellent clinical practice to develop personalized treatments,” says Bhangu. “What makes us unique in Canada among dementia researchers is that our science is taking us from bench to bedside – a rapid turnaround from research to direct patient benefit.”
If a person has a strong family history of Alzheimer disease and no symptoms – but does have positive biomarkers confirming presence of disease – they may then choose to take part in a randomized controlled trial to try to alter the trajectory of the disease.
“It’s still in a research context, still in clinical trials – but if Health Canada ultimately approves a treatment, we’ll have the ability and the patient database to be able to translate our findings into clinical practice much more quickly instead of waiting for years,” says Borrie.
All this is good news for a generation eager for answers, Borrie says.
“When we learn more about the mechanisms of the disease, we can find more effective, earlier treatments. And if we can treat people earlier, we hope to move the disease progression curve to the right, to add more years of good cognitive health to someone’s life.”
