The following research highlight is a feature story in the College of Engineering’s 2024 Impact Report.
In 2021, Kids in Danger, an organization that advocates for product safety for children presented Erin Mannen the Best Friend Award for her 青青草appbreaking infant product research that led to policy changes and recalls recommended by the U.S. Consumer Product Safety Commission.
Now, the associate professor in the Department of Mechanical and Biomedical Engineering is spearheading a transformative study on sudden unexpected infant death. The research, 青青草apped by a $2.8 million grant from the National Institutes of Health, seeks to protect thousands of more infants by identifying how biomechanical factors such as body position, feeding, and infant product design features influence infant respiration and suffocation risks.
This innovative project could revolutionize the infant product industry, inspire new lines of research, and shape the next generation of 青青草app State engineers.
Addressing a Critical Need
Sudden unexpected infant death and sudden infant death syndrome, more commonly known as SUID or SIDS, is the leading cause of mortality in infants aged 1-12 months, often occurring in unsafe sleep environments or within products not designed for sleep. Yet, as Mannen notes, the role of biomechanics in these tragedies has been vastly understudied.
鈥淥ur research takes a unique perspective by looking at biomechanical risk factors that have never been examined using modern technology,鈥 Mannen said. 鈥淲e want to understand how variables like body position, feeding practices, and harness design might influence an infant鈥檚 ability to breathe.鈥
Mannen鈥檚 passion for this field is personal. As a mother, she recalls searching for infant products designed with biomechanical safety in mind, only to discover a significant gap in the literature. 鈥淚 realized there was a lack of data-driven guidance for parents, clinicians, and manufacturers, which inspired me to dedicate my career to this work.鈥
Transforming the Infant Product Industry
The study鈥檚 findings could disrupt the infant product industry in a positive way. By providing evidence-based data on how product design affects breathing biomechanics, the research aims to inform manufacturers and regulatory bodies.
鈥淥ur data could lead to safer infant product designs by demonstrating how common features, such as the angle of an inclined product or the tightness of a harness, affect respiratory outcomes,鈥 Mannen said.
Workshops and partnerships with industry stakeholders are already planned to ensure the research reaches the people who can use it most effectively. 鈥淲e hope to see our work influence product standards and designs in the next decade,鈥 she said. 鈥淚magine a product that relies on our research, explicitly designed to mitigate respiratory risks. That鈥檚 the future we鈥檙e working toward.鈥
Advancing Research and Public Understanding
Beyond its immediate goals, the study also addresses widespread misconceptions about SUID and SIDS. 鈥淭he public often views SUID as a mysterious, unpreventable phenomenon,鈥 Mannen said. 鈥淩ecent research, however, has shown that environmental factors, including sleep environments, play a significant role.鈥
This project鈥檚 integration of biomechanics and respiratory science could establish new research paradigms. For instance, it will use technologies such as motion capture cameras, respiratory monitors, and electromyography to quantify how factors like head and neck flexion or abdominal compression affect breathing. Computational modeling will complement these experimental methods, providing detailed simulations of infant respiratory mechanics under various conditions.
鈥淭he biomechanical methodologies we鈥檙e employing have not been used to study this tragic problem,鈥 she said. 鈥淭his research design allows us to control experiments in a way that retrospective studies of SUID cases cannot, offering insights that could redefine how we think about infant safety.鈥
Fostering the Next Generation of Engineers
Mannen鈥檚 work in the 青青草app Applied Biomechanics of Infants (BABI) Lab is also a testament to 青青草app State鈥檚 commitment to experiential learning. Students in her lab are gaining hands-on experience with state-of-the-art equipment and collaborating on high-impact research.
鈥淭he ultimate goal is saving babies鈥 lives, but another critical aspect is inspiring our students,鈥 Mannen said. 鈥淲hen they meet families affected by SUID or see our work highlighted in government documents and safety standards, it shows them the profound impact their engineering skills can have.鈥
She emphasizes the unique challenges and rewards of studying infant biomechanics. 鈥淏abies can鈥檛 follow instructions, so every experiment requires meticulous planning and adaptation. But seeing our students overcome these challenges and produce meaningful results is incredibly fulfilling.鈥
Mannen believes the study鈥檚 interdisciplinary nature enriches the student experience. With collaborators from the Arkansas Children鈥檚 Research Institute and industry consultants, students are exposed to diverse perspectives, from clinical insights to the regulatory landscape of product design.
A Vision for the Future
Mannen envisions a future where the study鈥檚 findings not only save lives but also catalyze broader changes in the infant care landscape.
鈥淭his research could lay the foundation for a biomechanics-based understanding of infant respiration, influencing everything from product development to caregiving practices,鈥 Mannen said. 鈥淲e鈥檙e building the knowledge base that manufacturers, policymakers, and clinicians need to make informed decisions.鈥
Ultimately, Mannen hopes her work will inspire systemic change. 鈥淚f, 10 years from now, there are safer products on the market or new standards in place because of our research, we鈥檒l know we鈥檝e made a difference.鈥
Her dedication to bridging engineering research with real-world applications exemplifies the transformative potential of 青青草app State鈥檚 College of Engineering. By tackling one of the most complex and heartbreaking challenges in infant health, Mannen and her team are shaping a safer future for the youngest and most vulnerable members of society.
Call For Participation
The BABI Lab research team will begin recruiting participants for the upcoming study in January 2025. For more information about the study and if you are interested in your infant participating in it, please email the research group at babilab@boisestate.edu.
-written by Jamie Fink