Of the approximately 4 million births in the United States each year, at least 400,000 of them still trigger a state of desperation in maternity wards.
Parents, doctors and medical staff feel this way over the challenge of managing high-risk pregnancies. There is a surprising lack of precise science behind diagnosing risk for preterm birth, or intervening at the right time or with the right methodology.
Even worse, U.S. preterm birth rates have actually increased in recent years to almost 10 percent, and along with them a surge of long-term medical and social distress for families.
Against this backdrop, the Morgridge Institute for Research is launching a research project intended to give doctors new tools to improve health outcomes and lower premature birth rates. The project includes partners at the University of Wisconsin–Madison Department of Medical Physics, Intermountain Healthcare in Utah, Columbia University and the Meriter Hospital Birthing Center in Madison.
Kayvan Samimi
Samimi says there is strong reason to believe the lower uterine segment, which includes the placental membrane and cervix, plays a prominent role in triggering spontaneous preterm labor. He will be looking for microstructural clues that promote normal versus abnormal weakening in preparation for delivery of the fetus.
The first objective will be to visually identify and understand the conditions that pose the greatest risks in pregnancy. The second goal is to develop actual imaging tools doctors can use with women early in pregnancy to identify those risk factors and provide personalized solutions. The key technologies in use are optical coherence tomography and ultrasound.
“If successful, the technologies we’re using could easily lend themselves to non-invasive imaging in patients to find these microstructural features,” he says.
Dr. Helen Feltovich
“The issue for me was going to work every single day to face this problem that no one has solutions for, and no one is getting anywhere with,” Dr. Feltovich says. “It was just starting to grate and grate and grate on me. The point is we flat-out do not understand how spontaneous pre-term births happen.”
Dr. Feltovich, also on the UW–Madison medical physics faculty, and Hall have partnered on some promising work that focuses on another tell-tale sign of preterm risk, which are changes in the stiffness of the cervix. They are working with ultrasound to identify better objective measures of a level of softness in the cervix that can be a precursor to the problem. The cervix naturally softens before full-term birth to ease passage through the birth canal, but it happens quickly and unexpectedly in preterm cases.
Today, Hall says, doctors determine cervical stiffness with a touch test by comparing it to touching one’s forehead (firm), nose (medium) or cheek (soft).
Tim Hall
“These treatments have been recycled over and over … and there probably is a very small number of people for whom they actually work,” she says.
The relative absence of rigorous science is contrasted by the problem itself. Feltovich says doctors were astonished to see preterm birth numbers climb in the United States in 2015 and 2016 up to 9.8 percent after a period of modest decline. It turns out they only declined, she says, in large part because of more accurate gestational dating and fewer elected inductions by caregivers.
Preterm births — which occur between 20 and 36 weeks of pregnancy — result in babies not fully developed and can lead to health problems including cerebral palsy and learning disabilities. The Institute of Medicine estimates that preterm birth costs an estimated $26.2 billion annually in increased health and social services.
The Morgridge project is also unique in that it’s cutting across silos in current research. In addition to Samimi’s project on membranes and the Hall/Feltovich work on the cervix, the team is joining forces with a Columbia University project that will use all of the information to model the biomechanics of high-risk pregnancy.
The Meriter Birth Center staff response to the project has been very enthusiastic, says Melissa Skala, a Morgridge medical engineering investigator who is overseeing the project. “They’re really excited to learn about what’s happening with their patients, because they’re frustrated,” she says.
“I think it’s a community that’s desperate for anything that will work,” adds Hall. “Because this is a world of early adopters, we have to be really careful about what we claim.”
Skala says the project is a prime example of how the Morgridge Institute can help seed risk-reward research that may be too early-stage to get funding from the National Institutes of Health. Samimi was hired under an interdisciplinary postdoc program created by Morgridge to delve into this kind of uncharted territory with UW–Madison partners.
“You need the data before you can get the NIH funding, and you can’t get the data without the person,” she says. “We wouldn’t be doing the study without Kayvan.”