“The meeting was designed for people who are ‘invested’ in SCI research—people who are willing to think outside the box, generate new ideas, and forge partnerships to pave a pathway toward promising discoveries,” says Marco Baptista, Ph.D., Chief Scientific Officer of the Christopher & Dana Reeve Foundation. “It was astonishing and awe-inspiring to see competitors in the same room together working toward a common goal.”
During the meeting, insight from SCI research participants, panel discussions, and industry presentations brought to light a few key themes:
Improved Outcomes Measures
Moderated by Jack Allen, senior research analyst at Baird Equity Research, the discussion shined a light on one of the most important issues in current SCI research: Developing meaningful outcome measures for people with SCI.
Javier mentioned that current functional tests aren’t assessing abilities that relate to participant's everyday lives. “They’re asking us to do things like put a coin in a coin slot,” he said. “I can’t remember the last time I had to do that.” And Nieder highlighted the fact that studies aren’t capturing important variables that impact performance, such as sleep, hydration, and nutrition.
Throughout the day, SCI researchers discussed how to develop outcome measures that make a difference in the lives of participants and caregivers. “Within the SCI space, we have 156 outcome measures, none of which are approved by the FDA,” said Mary Jane Mulcahey, Ph.D., OTR/L, professor in the Department of Occupational Therapy at Thomas Jefferson University. “There’s tremendous variability within spinal cord injury so outcome measures need to be tailored to the individual.”
Reimagined Clinical Trial Design
“Someone who is 25 at the time of injury will have a dramatically different recovery trajectory than someone who is 65, even with the same injury,” said Michael Fehlings, M.D., Ph.D., professor of neurosurgery at the University of Toronto. And until the field has SCI biomarkers to better classify injuries, scientists may need to get creative.
Fehlings is one of many researchers suggesting that SCI research would benefit from group-based trajectory modeling, meaning scientists would cluster clinical features that track together to achieve significance. “With that approach, we’re comparing apples to apples instead of apples to watermelons,” he said.
Work is also underway to develop computerized adaptive testing, a step-wise testing approach that tailors questions based on the individual’s responses. For example, if a person is able to do a certain function, the test adapts and presents more challenging tests. If the person responds negatively, the next tests will be easier in difficulty. And future tests should be able to distinguish between and document compensatory strategies research participants use to function and true adaptive movement.