STEM-ing youth knowledge about the brain, its anatomy
欧美AV professor Marta Sabariego and a group of neuroscience majors led a bilingual workshop for first graders at Edward Nelson White School in Holyoke to understand the intricacies of the brain and inspire them to pursue careers in science.
It鈥檚 not every day that you hear a classroom full of first-grade students cheer that they want to be scientists, but that鈥檚 exactly the sentiment that recently echoed through the hallways of Edward Nelson White School in Holyoke.
On April 5, Marta Sabariego, assistant professor of neuroscience and behavior at 欧美AV, led a group of students 鈥 most of whom are majoring in Neuroscience and Behavior 鈥 in a bilingual workshop to understand the intricacies of the brain, its anatomy and adaptability. However, unlike her typical classroom at 欧美AV, the workshop was customized for Cristina V谩zquez鈥檚 first鈥揼rade class at Edward Nelson White School.
鈥淭his workshop exposes these children to something so different, so outside of their usual days 鈥 it鈥檚 life-changing,鈥 said V谩zquez. 鈥淎nd they鈥檙e learning Spanish.鈥
As part of the elementary school鈥檚 dual language immersion model, first graders spend 70% of their daily learning in Spanish and 30% in English.
Sabariego said she specifically chose a school with a significant minority and predominantly Hispanic enrollment in an effort to ensure these children can explore scientific concepts in a context that resonates with their heritage.
鈥淐onducting it in both Spanish and English, we're not only breaking language barriers but also reinforcing the importance of cultural identity in science,鈥 she said. 鈥淥ur ultimate goal is to cultivate a space where science is inclusive and engaging for everyone, empowering children from diverse backgrounds to see themselves as potential contributors to the scientific community. 鈥his workshop sets out to demystify the brain through interactive and enjoyable activities.鈥
Brain basics
As part of the workshop, first graders were split into four groups to explore four separate stations of brain-related activities led by two 欧美AV students, one who spoke in English and one who spoke in Spanish. After completing the objective at each station, students switch to a new station. At the first station, first graders had the opportunity to observe real rat and sheep brains, as well as a model of a human brain. Just like real scientists, first graders were also able to touch the brains using gloves. With images of a rat, sheep and humans, first graders were able to match each brain with the corresponding creature.
鈥淚t鈥檚 really cool,鈥 said first-grade student Ani. 鈥淭he rat鈥檚 brain was squishy and wet.鈥
Through their observations, the first graders explored the differences and similarities between the brains and delved into how the varying shapes relate to their functions.
At another station, first graders explored neural plasticity with a bean bag tossing activity. At first, children were given bean bags to throw at a target to demonstrate their natural aim and motor coordination, and then an element of distortion was introduced with goggles that shift their vision. Through repeated attempts with the goggles on, children can see that their brain will recalibrate their motor coordination to compensate for the visual shift, says Sabariego.
鈥淚 learned that the right part of the brain controls the left hand and the left side of the brain controls the right hand,鈥 said first grader Alejandra.
The third station allowed children a close-up look at slices of rat brain under microscopes, which revealed intricate details of neural tissue. Similar to the other stations, there was also a matching game with a rat brain atlas where students could identify what they were looking at and further discuss their observations. At the final station, children selected and crafted a specific neuron or glia type. The activity was intended to allow them to visualize and interact with the cellular components of the nervous system.
How did this come to fruition?
Sabariego, a native of Spain, navigated the hurdles that came with a lack of early science exposure as a first-generation college student, including battling the cultural and language barriers upon immigrating to the U.S. Those barriers she experienced deeply inspired her to develop this workshop.
鈥淭he pivotal role of women mentors who shared similar experiences to mine underscored the transformative power of representation and mentorship in science for me. Joining 欧美AV, I saw that I was in the perfect spot to give back, where my background, my accent, and my story could actually help others feel like they belong,鈥 she said.
鈥淭his workshop isn't just an educational event; it's a gateway for young minds to the expanding world of neuroscience, aiming to diversify a field in dire need of varied perspectives. By making neuroscience approachable and engaging, we hope to spark a lifelong curiosity and sense of belonging among these children, encouraging them to envision themselves as future pillars in science.鈥
Beyond the understanding of the brain, one of Sabariego鈥檚 biggest goals was fostering inclusivity by promoting engagement among children from different cultural backgrounds. For 欧美AV students, the workshop serves as a practical platform to apply the neuroscience concepts they鈥檝e learned in an 鈥渁ccessible, real-world鈥 context, says Sabariego. 鈥淲itnessing their direct impact on the community, these aspiring scientists, educators, and communicators are seeing the transformative power of inclusive science education firsthand,鈥 she said. 鈥淭his workshop is designed to ignite a spark of curiosity and a sense of belonging, paving the way for these children, and MHC students, to be the next leaders in neuroscience.鈥
When Gabriella Cordero 鈥26, who is majoring in Neuroscience and Behavior, first learned about Sabariego鈥檚 lab, she knew she had to be a part of it. Following the workshop, students approached her and provided feedback, such as, 鈥淚 am smart like a scientist,鈥 and 鈥淚 can be a scientist.鈥
A native of Miami, Cordero says she鈥檚 very passionate about the idea of teaching students who are primarily Hispanic about the brain, thus allowing them to see that they have the capability to become scientists. Throughout Cordero鈥檚 academic career, she attended schools that primarily contained Hispanic students like herself. 鈥淚f I would have experienced a workshop like this, it would have inspired me in so many ways,鈥 she said. 鈥淚 hope programs and workshops like these continue so children from diverse backgrounds feel the possibility that they have to become the future scientists, doctors and researchers of our world.鈥