Sharon Kuo, a graduating senior in Mechanical Engineering and Applied Mechanics (MEAM), is the inaugural recipient of the Madison “Maddie” Magee Award for Undergraduate Excellence.
Kuo, who is also minoring in Mathematics, comes to Penn from Taipei, Taiwan. Her interests within her major include mechanical design and product design, and she is passionate about space exploration and advancing human spaceflight.
This award will continue to be presented each year to a Penn Engineering senior who best exemplifies the energy, enthusiasm and excellence that was Maddie.
The award for Undergraduate Excellence was established in honor of Madison “Maddie” N. Magee, who graduated with both a bachelor’s degree in Mechanical Engineering and Applied Mechanics (MEAM) and a master’s degree in Bioengineering (BE) in 2021. Maddie passed away while hiking the Pacific Crest Trail on May 28, 2022. Read more about this award here.
Four University of Pennsylvania undergraduates have received 2023 Goldwater Scholarships, awarded to second- or third-year students planning research careers in mathematics, the natural sciences, or engineering.
They are among the 413 students named 2023 Goldwater Scholars from more than 5,000 students nominated by 427 academic institutions in the United States, according to the Barry Goldwater Scholarship & Excellence in Education Foundation. Each scholarship provides as much as $7,500 each year for as many as two years of undergraduate study.
Penn has produced 59 Goldwater Scholars since Congress established the scholarship in 1986 to honor U.S. Senator Barry Goldwater.
Angela Song (Class of 2024)
Angela Song, from Princeton Junction, New Jersey, is a third-year majoring in bioengineering in the School of Engineering and Applied Science. She is interested in engineering molecular therapeutics for disease. She works in Douglas C. Wallace’s lab in the Center for Mitochondrial and Epigenomic Medicine at the Children’s Hospital of Philadelphia, focusing on designing engineered proteins with mitochondrial applications. At Penn, Song is the vice president of design for UnEarthed, a student-published educational magazine for West Philadelphia elementary school children, and president of the Penn American Red Cross Club. After graduating, Song plans to continue pursuing research through a Ph.D. in bioengineering.
Read the full list of Penn 2023 Goldwater Scholars in Penn Today.
Read about previous Penn Bioengineering Goldwater Scholars here.
William Danon and Luka Yancopoulos pose in front of College Hall in April 2022. They are co-founders of Grapevine and the winners of the 2022 President’s Innovation Prize. (Photo: Eric Sucar)
In April 2022, three President’s Prize-winning teams were selected from an applicant pool of 71 people to develop projects that promote engagement and innovation. Each project received $100,000, as well as a $50,000 living stipend per team member.
The President’s Innovation Prize and President’s Engagement Prize winners included Grapevine, which aims to better connect buyers and suppliers to stabilize the medical supply chain market; IF Ventures, with its mission to scale impact by supporting college students with early-stage startup ideas that have measurable social and environmental impact; and Cosmic Writers, which organizes writing workshops to cultivate K-12 students to be better writers and communicators — and, therefore, better citizens.
“In less than a year, these three PIP and PEP prize-winning teams have already proven their commitment to making a difference in the world,” says President Liz Magill. “Their projects are ambitious and inspiring, and I am proud the University has been able to provide financial and networking support for these determined changemakers.”
After graduating in May 2022, Luka Yancopoulos, an Environmental Studies major and a Bioengineering major in the School of Engineering and Applied Science and William Danon, a History major, relocated to an office space in Westchester, New York, and got to work on a research and validation process — first, by spending a day at a Penn Medicine facility, Lancaster General Health, then by committing hundreds of hours to interviewing distributor and procurement teams alike, along with potential client companies. The mission, as any researcher knows, was to understand key pain points. They also onboarded veterans in logistics, technology, and payment security and processing while devising an organizational structure in which Yancopoulous leads on technology and design solutions while Danon interfaces with customers to know what needs remain unmet.
Grapevine soft launched in fall 2022 and, they say, has interfaced with 30 companies through its digital platform to facilitate sales among 40 suppliers, amounting to more than $20,000 in transactions. The appeal of the platform, they say, remains the concept of the “digital supply chain network,” which Yancopoulos says partners can use to connect with resellers, hospitals, distributors, and others to reduce the risk of supply chain disruption that is not just a product of the pandemic, he adds, but “forever ongoing.”
“It’s driven by the principle that together we’re stronger, and I mean that in every aspect of my life,” he says. “That people are stronger, and with Grapevine we work to [bolster] supply chains and increase the accessibility of health care products — together.”
Since winning the President’s Innovation Prize, they’ve focused on working with small- to medium-sized businesses — whether local clinics or high-quality, specialized resellers — that struggle to compete with or pay for traditional, large-scale distributors that are better-resourced or too expensive. It’s allowed them to also find new users, like health care-adjacent businesses including funeral homes and tattoo parlors.
Their current tagline: “Grow with us,” Danon says.
Watch a video overview of Grapevine’s progress since receiving the PIP prize and read more about the other PIP/PEP prize winners at Penn Today.
Penn Bioengineering juniors work on their ECG devices in BE 3100, Bioengineering Modeling, Analysis and Design Laboratory II (aka BE MAD)
The George H. Stephenson Foundation Educational Laboratory & Bio-MakerSpace (aka the Penn BE Labs) played host last week to Sarah Huffman, a local journalist writing for Technical.ly Philly. During her visit to the lab, she chatted with third year undergraduates working on their ECG devices for monitoring breathing and heart rates, and senior design students applying all they’ve learned in their previous three years to their graduation capstone projects. She also got a chance to discuss the classes and learn about the lab’s vision to be a bio-makerspace with Sevile Mannickarottu, Director of Educational Labs for BE, and with David Issadore, Associate Professor in Bioengineering and in Electrical and Systems Engineering and professor of the third year spring lab course:
Journalist Sarah Huffman interviews BE 3100 professor David Issadore.
“’The students all come here and they hang out and they build stuff,’ said David Issadore, associate professor of bioengineering and electrical and systems engineering. ‘This junior-level course is kind of an entry point for their senior design. So next year, all these students are going to take on new projects, and then they all kind of hang around here and they build incredible stuff.’”
The profile of the BE Labs is part of Technical.ly’s 2023 Universities Month, a series focusing on the latest trends and tech in higher education.
A new Penn Medicine preclinical study demonstrates a simultaneous ‘knockout’ of two inflammatory regulators boosts T cell expansion to attack solid tumors.
by Meagan Raeke
Image: Courtesy of Penn Medicine News
A new approach that delivers a “one-two punch” to help T cells attack solid tumors is the focus of a preclinical study by researchers from the Perelman School of Medicine. The findings, published in the Proceedings of the National Academy of Sciences, show that targeting two regulators that control gene functions related to inflammation led to at least 10 times greater T cell expansion in models, resulting in increased anti-tumor immune activity and durability.
“We want to unlock CAR T cell therapy for patients with solid tumors, which include the most commonly diagnosed cancer types,” says June, the new study’s senior author. “Our study shows that immune inflammatory regulator targeting is worth additional investigation to enhance T cell potency.”
One of the challenges for CAR T cell therapy in solid tumors is a phenomenon known as T cell exhaustion, where the persistent antigen exposure from the solid mass of tumor cells wears out the T cells to the point that they aren’t able to mount an anti-tumor response. Engineering already exhausted T cells from patients for CAR T cell therapy results in a less effective product because the T cells don’t multiply enough or remember their task as well.
Previous observational studies hinted at the inflammatory regulator Regnase-1 as a potential target to indirectly overcome the effects of T cell exhaustion because it can cause hyperinflammation when disrupted in T cells—reviving them to produce an anti-tumor response. The research team, including lead author David Mai, a bioengineering graduate student in the School of Engineering and Applied Science, and co-corresponding author Neil Sheppard, head of the CCI T Cell Engineering Lab, hypothesized that targeting the related, but independent Roquin-1 regulator at the same time could boost responses further.
“Each of these two regulatory genes has been implicated in restricting T cell inflammatory responses, but we found that disrupting them together produced much greater anti-cancer effects than disrupting them individually,” Mai says. “By building on previous research, we are starting to get closer to strategies that seem to be promising in the solid tumor context.”
Dahin Song, a third year undergraduate student in Bioengineering, penned a guest blog post for Penn Career Services as part of their ongoing series of posts by recipients of the 2022 Career Services Summer Funding Grant. In this post, Song talks about her opportunity to conduct research in the SMART Lab of Daeyeon Lee, Professor and Evan C. Thompson Term Chair for Excellence in Teaching in the Department of Chemical and Biomolecular Engineering and member of the Penn Bioengineering Graduate Group. During her summer research, Song worked on increasing the stability of the monolayer in microbubbles, gas particles which have been put to therapeutic use. She writes:
“My project was on increasing the stability of the monolayer using cholesterol; theoretically, this would decrease the permeability while maintaining the fluidity of the monolayer. Being given my own project at the get-go was initially intimidating; initial learning curve was overwhelming – along with new wet lab techniques and protocols, I learned a whole new topic well enough to ask meaningful questions. But in retrospect, throwing myself headlong into a project was the best method to immerse me in the research environment, especially as a first-time researcher. I learned how to read papers efficiently, troubleshoot research problems, navigate in a laboratory environment, and be comfortable with working independently but more importantly, with others.”
Fourth year undergraduate Jerry Gao (BE ’23) is the latest student featured in 34th Street Magazine’s “Ego of the Week” series. Jerry, who hails from Coppell, TX, majors in Bioengineering with a minor in Asian American Studies. In addition to his academic studies, he is passionate about education and literacy, working with The Signal, the Asian Pacific American Leadership Initiative, and the Penn Reading Initiative. In this Q&A, he discusses the sense of community that brought him to Penn, the love of cooking (and gifting food to his friends) that powers his @gaos_chows Instagram account, and his experience as a student and now TA in Penn Bioengineering’s “BE MAD” lab class:
“Now that you’re on your way to graduating, what have been your favorite classes or experiences in Bioengineering or Asian American Studies?
‘In terms of bioengineering, there’s definitely a clear favorite that I have. It’s actually the class I’m a TA for right now. It’s “Bioengineering Modeling, Analysis, and Design,” and it’s basically the lab that all junior bioengineers take. There’s one particular lab we do in the class that always catches everyone’s attention; it’s called the cockroach lab. I think it’s one of the biggest reasons why people want to study bioengineering at Penn in particular.
It’s a segue into prosthetics and different medical devices that can help restore people’s limb functions. We order hundreds of cockroaches and then we put them in a little bit of an ice bath to anesthetize. We amputate their legs, which will essentially serve as our prosthetics, and then implant metal electrodes into two different spots of the leg. Then, we go into our computer program and type different lines of code that can help replicate different signal waves to move the legs. If you submit a wave with a particular frequency and particular amplitude, it’ll cause a leg to move in one direction, and if you do a different combination of the amplitude and frequency, it’ll cause it to move in the other direction. The next task is to trace the end of the leg and try to choreograph the leg to spell the letters B and E for bioengineering. It’s so fun to be able to see what combination of leg movements in the servo motor can form the backbone of the B for example, what can form the three lines of the E. I would say that’s probably my favorite moment in the bioengineering department.'”
Penn Engineering is proud to announce the establishment of the Madison “Maddie” Magee Award for Undergraduate Excellence, named in honor of the memory of Madison “Maddie” N. Magee, who graduated with both a bachelor’s degree in Mechanical Engineering and Applied Mechanics (MEAM) and a master’s degree in Bioengineering (BE) in 2021. Following her time at Penn, Maddie joined the Integrative Baseball Performance department of the Philadelphia Phillies, where she collaborated with a group in developing the next generation of baseball players by analyzing biomechanics data.
To establish this award, 130 donors, including the Philadelphia Phillies, came together in 2022 to raise over $50,000, meaning that undergraduate students will be able to receive this award in perpetuity. Recipients will be Penn Engineering seniors who “exemplify the energy, enthusiasm, and excellence that was Maddie.”
“Maddie was full of life and promise and brought unmatched passion and spirit to everything she did,” says Kevin T. Turner, Professor and Chair of MEAM. “It was impossible to not see the impact that she was having on our Department and the School.” Magee excelled as a student at Penn, working as a Teaching Assistant at both Penn and Drexel and providing countless hours of tutoring to fellow students.
It is with deep gratitude for Maddie’s profound and lasting impact on many students, faculty and staff that this award is established.
Maddie passed away while hiking the Pacific Crest Trail on May 28, 2022.
The research team from left to right includes Kelsey Swingle, Hannah Safford, Alex Hamilton, Ajay Thatte, Hannah Geisler, and Mike Mitchell.
New research on reproductive health demonstrates the first successful delivery of mRNA to placental cells to treat pre-eclampsia at its root.
Pre-eclampsia is a leading cause of stillbirths and prematurity worldwide, occurring in 3 – 8 % of pregnancies. A disorder characterized by high maternal blood pressure, it results from insufficient vasodilation in the placenta, restricting blood flow from the mother to the fetus.
Currently, a health-care plan for someone with pre-eclampsia involves diet and movement changes, frequent monitoring, blood pressure management, and sometimes early delivery of the baby. These standards of care address symptoms of the condition, not the root cause, and further perpetuate health inequity.
Now, Penn engineers are addressing this longstanding gap in reproductive health care with targeted RNA therapy.
The COVID vaccines demonstrated how lipid nanoparticles (LNPs) efficiently deliver mRNA to target cells. The success of LNPs is opening doors for a variety of RNA therapies aiming to treat the root causes of illness and disease. However, drug development and health care have consistently neglected a portion of the population in need of targeted care the most – pregnant people and their babies.
In one of the first studies of its kind, published in the Journal of the American Chemical Society,Michael Mitchell, J. Peter and Geri Skirkanich Assistant Professor of Innovation in Bioengineering, and Kelsey Swingle, Ph.D. student in the Mitchell Lab and lead author, describe their development of an LNP with the ability to target and deliver mRNA to trophoblasts, endothelial cells, and immune cells in the placenta.
Once these cells receive the mRNA, they create vascular endothelial growth factor (VEGF), a protein that helps expand the blood vessels in the placenta to reduce the mother’s blood pressure and restore adequate circulation to the fetus. The researchers’ successful trials in mice may lead to promising treatments for pre-eclampsia in humans.
Savan Patel, a fourth year Penn Bioengineering student, is one of 42 finalists competing for a 2023 Hertz Fellowship in applied science, mathematics, and engineering, one of the most prestigious Ph.D. fellowships in the United States. Chosen annually, the Hertz Fellowship is awarded to the nation’s most promising graduate students in science and technology.
“Since 1963, the Hertz Foundation has granted fellowships empowering the nation’s most promising young minds in science and technology. Hertz Fellows receive five years of funding valued at up to $250,000, which offers flexibility from the traditional constraints of graduate training and the independence needed to pursue research that best advances our security and economic vitality […]
Over the foundation’s 60-year history of awarding fellowships, more than 1200 Hertz Fellows have established a remarkable track record of accomplishments. Their ranks include two Nobel laureates; recipients of 10 Breakthrough Prizes and three MacArthur Foundation “genius awards”; and winners of the Turing Award, the Fields Medal, the National Medal of Technology, and the National Medal of Science. In addition, 50 are members of the National Academies of Sciences, Engineering and Medicine, and 34 are fellows of the American Association for the Advancement of Science. Hertz Fellows hold over 3,000 patents, have founded more than 375 companies and have created hundreds of thousands of science and technology jobs.”
Patel is studying Bioengineering and Finance in the Jerome Fisher Program in Management and Technology (M&T), an interdisciplinary dual degree program coordinated by Penn Engineering and the Wharton School of Business. He is currently a member of the lab of Michael J. Mitchell, J. Peter and Geri Skirkanich Assistant Professor of Innovation in Bioengineering. Patel’s research interests lie at the interface of drug delivery and immunoengineering. His current project involves the use of modified cholesterol molecules to induce shifts in the biodistribution of ionizable lipid nanoparticles (LNPs). Following graduation, he intends to pursue a Ph.D. in bioengineering in which hopes to develop translatable immunotherapies and drug delivery platforms.
If chosen, the Hertz Fellowship will fund Patel’s graduate studies. Selected from over 750 applicants, Patel is one of fifteen undergraduates and one of two bioengineering students to make the final round of interviews. After a culminating round of interviews, the 2023 Class of Hertz Fellows will be announced in May.
Learn more about the Hertz Fellowship and read the full list of finalists here.
Penn Engineering is proud to announce the establishment of the Madison “Maddie” Magee Award for Undergraduate Excellence, named in honor of the memory of Madison “Maddie” N. Magee, who graduated with both a bachelor’s degree in Mechanical Engineering and Applied Mechanics (MEAM) and a master’s degree in Bioengineering (BE) in 2021. Following her time at Penn, Maddie joined the Integrative Baseball Performance department of the Philadelphia Phillies, where she collaborated with a group in developing the next generation of baseball players by analyzing biomechanics data.
In 