AHS Faculty Q&A: Megan Huibregtse on traumatic brain injuries, MRI and coming to Illinois



Megan Huibregtse (Fred Zwicky / University of Illinois Urbana-Champaign)
Talk about what drew you to the College of AHS. Why did you choose to come to Illinois? 

Megan: I was looking for an environment where I could connect with a vibrant research community and work directly with undergraduate and graduate students. While my work spans multiple disciplines such as clinical neuroscience or psychiatry, traumatic brain injury is one of the most common neurological conditions (Maas et al., 2022 The Lancet Neurology), and there’s a real public health concern about acute and long-term neurobehavioral effects.

So, AHS’s mission of improving health and well-being across the lifespan is a great fit for my research program. Plus, the neuroimaging resources here are unparalleled, and I can’t wait to start using the 7 Tesla scanner. 

(The University of Illinois and Carle Health co-own a 7 Tesla MRI scanner, which provides a huge step up in quality for brain imaging.)

You’ve described yourself as ‘obsessed with the brain.’ When and how did your fascination with neuroscience begin? 

I was unlucky enough to get two concussions from playing volleyball when I was younger, and the second led to the discovery of a brain tumor in my left frontal lobe. It might have been a coincidence, but the tumor was right next to where I hit my head when I got the first concussion.

Fortunately, the surgery to remove it went well, and I’ve been fascinated by the brain and what happens in response to injury ever since. Having personally gone through many hours of magnetic resonance imaging, I learned what a powerful tool it is to non-invasively examine the brain. 

Within the area of traumatic brain injury, you’ve already investigated a wide variety of topics, from sub-concussive head impacts in high school football to head trauma from intimate partner violence. How do you generally describe your research interests? 

That’s right—I’ve been fascinated by various aspects of neurotrauma. In general, I would say that my interests revolve around comprehending how our experiences (brain injuries, traumatic events, and when they occur simultaneously) impact our brain health. I consider brain health in terms of both structural integrity and function. 

What are your priorities as you’re getting started here at Illinois? 

This year, I’m working on setting up my research program—recruiting graduate students and undergraduate research assistants, submitting my protocols to the Institutional Review Board, and getting acquainted with the excellent neuroimaging resources at the Beckman Institute. 

How has your experience in Urbana-Champaign been so far? Is there anything you’d like your colleagues to know about you? 

It’s been great so far! Having completed my degrees at another Big Ten school (Indiana), Urbana-Champaign feels familiar already. Outside of work, I love to cook and bake for my family and friends. 

Editor’s note:

To reach Megan Huibregtse, email mhuibreg@illinois.edu.

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Measuring pain in postpartum women: A first look



Sandraluz Lara-Cinisomo

Bringing a new baby into the world is often described as joyful, overwhelming, and exhausting all at once. But what’s less often talked about is how the postpartum body—and brain—handle pain, especially for mothers dealing with postpartum depression.

A team of researchers led by Sandraluz Lara-Cinisomo, an associate professor in the Department of Health and Kinesiology at Illinois, recently took a bold step to explore that question. Their study, published in Psychiatry Research: Neuroimaging, asked: Can we measure how new moms’ brains respond to pain using fMRI ? And would moms even be willing to do it?

It turns out the answer is yes.

The study focused on 13 women, 11 without depression and 2 with postpartum depression. The point was to see if the idea would work: Would new moms come into a lab, be willing to experience a controlled pain test while researchers measured their brain activity?

The “pain test” was simple but effective: participants were exposed to a cold-pain device while in the scanner, enough to be uncomfortable but not unsafe. The experiment was repeated five times, during which the women reported how intense and how unpleasant the pain felt.

“Although there is growing interest in the postpartum brain, including in the context of depression, the focus on postpartum pain has stalled,” Lara-Cinisomo said. “Birthing people experience changes that are not often observable. fMRI offers an opportunity to measure their minds process pain while creating a space for them to tell us how it feels to be in pain. This study is the first step toward unveiling how postpartum depression affects pain perception.”

The researchers then compared those reports to what was happening in their brains.

For the women without depression, the scans showed activation in the places you’d expect:

  • The amygdala (linked to the assessment of pain intensity)
  • The insula (a key hub for processing physical sensations of pain)
  • The anterior cingulate cortex, or ACC (involved in emotional components of pain)

When the researchers compared women with depression to those without, they found higher brain responses in the depressed group. Still, those differences were not significant, likely due to the small sample size.

Where things got interesting was in how the women described their pain.

Even though the numbers didn’t hit statistical significance, there was a clear pattern: women with higher depression symptoms tended to find the pain more unpleasant and intense.  The depressed group also tended to report the onset of pain earlier in the experiment than the non-depressed group.

So, what is the takeaway from this study?

First, it proved the concept. Postpartum women were willing to take part and found the process acceptable. That matters because there’s often concern about asking new moms to volunteer for time-consuming or physically demanding studies.

Second, it showed that fMRI can capture real brain activity linked to pain in this group. That opens the door to larger-sample studies that could dig deeper into how PPD changes the pain experience—and maybe test which treatments (such as therapy, medication or support programs) improve mood and pain.

The study also adds to the growing recognition that postpartum health is complex. It’s not just about healing physically or adjusting emotionally—it’s about how those two processes interact in ways that can shape daily life for mothers.

Lara-Cinisomo and her co-authors are clear about what’s next: larger studies, with more women experiencing postpartum depression, and identifying interventions to help alleviate their physical and psychological discomfort. That way, they can track how the brain responds to pain might shift as symptoms improve.

Editor’s note:

To reach Vince Lara-Cinisomo, email vinlara@illinois.edu.
 

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