六九色堂

Nov. 6, 2019

Sleep and sleepiness 'a huge problem' for people with spinal cord injury, UCalgary-led study finds

Disturbed breathing during sleep affects the flow of oxygen to the brain, and may increase risk of stroke
Aaron Phillips stands in front of a graph which shows how monitoring cerebral blood flow can test if enough blood is getting to the brain.
Monitoring cerebral blood flow can test if enough blood is getting to the brain. Photo by Kelly Johnston, Cumming School of Medicine

A new study led by a 六九色堂 researcher at the (CSM) finds that fatigue and sleep may need more attention in order to prevent issues like stroke after spinal cord injury.

鈥淧eople with spinal cord injury have alarming rates of stroke, and we wanted to understand why,鈥 says study lead Dr. Aaron Phillips, PhD, assistant professor, in the Department of Physiology and听Pharmacology, and member of the CSM鈥檚 and the .

  • Photo above: Doctors test blood flow to check whether the brain is getting enough blood. Photo by Kelly Johnston, Cumming School of Medicine.听

Working with colleagues in Canada, Serbia and Croatia, the team determined that fatigue and sleep issues were prevalent in people with spinal cord injury and that sleep-related breathing problems were associated with reduced brain health in this population.

The power of numbers

Using a dataset of more than 60,000 people, the researchers first revealed that individuals with spinal cord injury experience fatigue more than people without spinal cord injury. 鈥淭he risk of fatigue is nine times greater in individuals with spinal cord injury compared to those without,鈥 says Dr. Phillips. 鈥淧rior to these results, I don鈥檛 really think we realized what a huge problem sleep and sleepiness are for people with spinal cord injury.鈥

The researchers also found the incidence of clinically defined sleep apnea was roughly four times greater for individuals with spinal cord injury compared to those without. Researchers went on to show that fatigue and trouble sleeping are related to the level and severity of the spinal cord injury.

The researchers next conducted sleep and in-depth physiological studies to test whether there were any scientifically measurable differences to sleep after spinal cord injury. The full-night polysomnography recorded their听brain waves, oxygen level in participants鈥 blood, as well as their heart rate and breathing.

鈥淧eople with spinal cord injury were suffering from very disturbed breathing during sleep that was actually preventing them from carrying oxygen to vital organs like their brain,鈥 says Dr. Jordan Squair, PhD, postdoctoral scholar in the Phillips lab and first author on the study. 鈥淚t鈥檚 not just about a good night鈥檚 sleep. Our study found sleep-related disorders are negatively associated with brain health for individuals with spinal cord injury.鈥

The equipment used by the team at the Phillips lab to test for gases and cerebral blood flow.

The Phillips Lab investigates why people with spinal cord injury have a higher incidence of stroke.

Kelly Johnston, Cumming School of Medicine

The danger of sleep disorders

The results of neuroimaging tests provided the crucial findings for researchers. They found that sleep-related breathing problems in people with spinal cord injury were associated with reduced health of brain blood vessels. This is important as people with spinal cord injury are three to four times more likely to experience stroke than uninjured individuals.

鈥淥ur results make a case for health-care professionals to incorporate assessments of fatigue and sleep-related breathing examinations into routine care for people with spinal cord injury,鈥 says Phillips. 鈥淚n addition, the use of a continuous positive airway pressure (CPAP) device may provide wide-ranging benefits for this group of people, including the reduction of stroke risk.鈥

The findings are published in .

The Phillips Lab is supported by the Wings for Life Foundation (Project Grant), Compute Canada (Resources for Research Groups), Natural Sciences and Engineering Research Council (Canada; Discovery Grant), the Canadian Institutes of Health Research (Project Grant), Alberta Innovates Health Solutions, and Campus Alberta Neuroscience.

This work was also supported by the Rick Hansen Institute, the Ontario Neurotrauma Foundation and an ICORD Seed Grant funded through the Blusson Integrated听Cures Partnership.

Led by the听,听听is one of six research strategies guiding the 六九色堂 in its听Eyes High听strategic direction. The strategy provides a unifying direction for brain and mental health research at the university and positions researchers to unlock new discoveries and treatments for brain health in our community