Seven students have joined the Interdisciplinary Ph.D. program in Quantitative Biosciences (QBioS).  These students have backgrounds in physics, mathematics and biology and join the program from the United States, China, and India.  Altogether, the QBioS Ph.D. program now includes 16 students, including nine members from the inaugural cohort who joined in Fall 2016.  The QBioS Ph.D. is directed by Biological Sciences Professor Joshua S. Weitz.

The QBioS Ph.D. was established in 2015 and includes more than 50 program faculty. The mission of QBIoS is to educate students and advance research, enabling the discovery of scientific principles underlying the dynamics, structure, and function of living systems at scales from molecules to ecosystems.   Of the seven incoming students, four are affiliated with the School of Biological Sciences and three are affiliated with the School of Physics.

Kelimar Diaz Cruz obtained a B.S. in Physics from the University of Puerto Rico, Rio Piedras Campus in Puerto Rico this year, before joining the QBioS Ph.D. “Before my undergrad, I had no idea there were many branches of Physics,” Diaz notes.  “Once I learned Biophysics was one of them I immediately knew in what direction I wanted to head. The QBioS Ph.D. program will allow me to develop interdisciplinary and quantitative approaches for the understanding of biological systems. There is no better program that aligns with my interests. I am looking forward to expanding my knowledge of biological sciences as I work alongside faculty and researchers in different areas.”

Guanlin Li graduated with a B.S in Mathematics and Physics Minor in 2016 from Arizona State University and earned his M.S in Mathematics from Georgia Tech this year before transferring into QBioS. “I like to utilize mathematical and computational tools to answer fundamental questions raised in the biosciences,” Li says. “QBioS opens a new door that brings biosciences to a quantitative side, from experimental interpretations to equations and laws. I'm excited and looking forward to joining this new program.”

Daniel Muratore completed a Bachelor's in Biological Sciences at the University of Chicago in 2016, focusing primarily in theoretical ecology. After graduating, he worked in Maureen Coleman's lab at the University of Chicago on microbial ecology and biogeochemistry for marine and lake systems. Muratore moved from to Atlanta to work with Weitz on virus-host models and nutrient dynamics in marine ecosystems and to start his PhD in QBioS, explains, “I am very excited to use modeling approaches and robust analytical methods to handle a diversity of data coming from the worlds of oceanography, molecular biology, and bioinformatics for the purpose of generating new knowledge about the goings on of the marine microbial ecosystem.”

Brandon Pratt graduated from the University of Washington earlier this year, receiving Bachelor of Science degrees in neurobiology and in molecular, cellular, and developmental biology. He notes, “I was drawn to the PhD program in Quantitative Biosciences at Georgia Tech because of its unique design that bridges the gap between biosciences and engineering. Coming from a primarily biosciences background, this program allows me to expand my repertoire of technical skills and knowledge to include those from the fields of computer science and engineering. I aim to use these skills to better describe living systems, particularly neural systems.” Pratt intends to conduct research involving how sensory information is acquired, processed, and integrated in the nervous system.  

Kai Tong earned his B.S. in Biological Sciences from Fudan University in Shanghai, China, this year. Initially admitted into the Ph.D. program in Biology, Tong decided to transfer to QBioS. “I was amazed by the easy-going and collaborative atmosphere here," Tong says. “And equally importantly, the fit with my research interests in major evolutionary transitions and social evolution.” He noted that his training as a ‘traditional’ biologist involved a leap to transfer to QBioS. “This out-of-comfort-zone effort will allow me not only to use more quantitative toolkits to tackle biological questions, but also to test hypotheses or perform predictions that usual experimental methodology may not be able to, as well formulate insights into a more abstract and generalizable way.”

Akash Vardhan received his training in Production Engineering from Jadavpur University, India, graduating in 2013. After completing his undergraduate education, he worked as a vehicle dynamics test engineer in the automobile industry, before moving on to study the mechanics of bug flight in Sanjay Sane’s lab at the National Centre for Biological Sciences in Bangalore, India. “As a part of the QBioS program I would love to continue working on the biomechanics and control of locomotion in a wide variety of animals,” Vardhan says. “Form and function is another area that I find really fascinating, how seemingly simple interactions can give rise to an emergent behavior which is really complex has also gotten me really interested.”

Mengshi Zhang received her B.S. in Biotechnology from South University of Science and Technology of China in 2015 and then switched to the Department of Physics at the Chinese University of Hong Kong for her master’s degree (MPhil), graduating earlier this year. She is fascinated by the quantitative descriptions of biological phenomena and drawn to this interface in QBioS. Zhang has backgrounds in system biology and synthetic biology, and experience in wet and dry labs. “I would like to combine both computational analysis and experimental methods and look forward to integrating principles of physical, mathematical and biological science together within QBioS,” she says.

 

Georgia Institute of Technology researchers developed a novel approach to summarize disease risk, creating a score for an individual based on gene expression – transcriptional risk score (TRS). They’ve applied this score in a recent ground-breaking study, which accurately predicts complications in Crohn’s disease, and potentially paves the way for personalized medicine strategies in the future.

“We were testing an intuition,” says Urko Marigorta, lead author of the study, “Transcriptional Risk Scores link GWAS to eQTL and Predict Complications in Crohn’s Disease,” published in the journal Nature Genetics.

“We wanted to see if checking the actual expression of pathogenic genes involved in disease is better than just looking at an individual’s DNA when assessing the risk for disease,” adds Marigorta, a postdoctoral researcher in lab of Greg Gibson, professor in the School of Biological Sciences and a researcher in the Petit Institute for Bioengineering and Bioscience at Georgia Tech.

This was part of a multicenter research initiative, the Crohn’s & Colitis Foundation’s “RISK Stratification” study (the largest new-onset study of pediatric Crohn’s disease patients), and a follow-up to research published earlier this year in the journal, The Lancet.

That study, says Gibson, evaluated “whether anti-TNF treatment really is beneficial in reducing inflammation and preventing progression to complicated Crohn’s disease. It is, but apparently only for a subset of patients. Our contribution there was to show that this subset can, to some extent, be identified at diagnosis on the basis of their overall gene expression profile in the ileum.”

The Nature Genetics paper takes advantage of the data sets analyzed in the previously published research. The RISK Stratification Study involved 28 clinics and 1,800 pediatric patients – a good sample size, according to Marigorta, who adds, “most important, [we had] two forms of biological data: DNA and gene expression from the small intestine. Importantly, the gene expression from RISK was obtained at diagnosis, when kids went to the hospital and before developing complicated versions of Crohn’s disease.”

So basically, Marigorta and Gibson wanted to test their novel approach, TRS, against genetic risk scores (GRS), or scores based on an individual’s DNA, which is currently the dominant approach in the field. But predicting disease risk from just DNA is difficult.

“In the last few years we’ve learned about many genes that are associated with disease – genes that have mutations, that are more frequent in people with disease than in healthy people,” Marigorta says. “But many people with mutated genes do fine, whereas others without them end up getting sick with some disease. Most of the field is trying to discover more of these mutations, which is totally fine because that will tell us more about biology, and will make for good drug targets. But we’re not sure it will add that much in terms of prediction.”

Marigorta’s statistical and bioinformatics analyses of the genomic data demonstrated that their intuition was on target: gauging the expression of risk genes (TRS) does a better job of predicting complications of Crohn’s than just adding up the number of risk genes (GRS).

“So, instead of trying to predict how good a football team is going to be by adding up how many players make $10 million a year, we actually evaluate how well they are performing,” says Gibson, using a familiar sports analogy.

This paper published in Nature Genetics was a collaboration of 23 author/researchers from 18 institutions – two in Canada and 16 in the U.S., including Emory University’s School of Medicine. Emory physician/professor Subra Kugathasan, director of the Children’s Healthcare of Atlanta Combined Center for Pediatric Inflammatory Bowel Disease, shares senior authorship with Gibson (who was the corresponding author). Key leadership also came from co-authors Lee Denson (Cincinnati Children’s Hospital) and Jeff Hyams (Connecticut Children’s Medical Center)

Going forward, Marigorta sees two primary directions that the TRS research may take.

“We’d like to see if it works for other traits and we have evidence that it does, at least for autoimmune diseases such as juvenile arthritis,” he says. “And more importantly, we’d like to see if it works when using gene expression from blood draws. Imagine, down the road, if you could fine-tune the predictions of risk due to your DNA with information gained from looking at gene expression from a simple blood draw at your once-a-year checkup.”

 

CONTACT:

Jerry Grillo
Communications Officer II
Parker H. Petit Institute for
Bioengineering and Bioscience

Georgia Tech’s School of Mathematics is set to play an important role in the rapidly expanding field of data science, thanks to a National Science Foundation initiative that will fund foundational research and educational training on campus.

The new institute, the Transdisciplinary Research Institute for Advancing Data Science (TRIAD), is one of 12 national data science projects to receive $17.7 million in NSF funds, the agency recently announced. The School of Mathematics is one of six Tech schools taking part in TRIAD, which will receive $1.5 million of the NSF funding.

“The successful funding of the TRIAD partnership between the Colleges of Science, Computing, and Engineering recognizes Georgia Tech as a leader in the foundations of data science,” says School of Mathematics Professor and Chair Rachel Kuske. “We welcome the opportunities and challenges that come with this recognition. TRIAD will be an important base as our leadership in the mathematical and quantitative sciences continues to expand, addressing both fundamental and applied questions.”

Other schools participating in TRIAD are the H. Milton Stewart School of Industrial & Systems Engineering, the School of Electrical and Computer Engineering, the George W. Woodruff School of Mechanical Engineering, the School of Biological Sciences, the School of Computational Science and Engineering, and the School of Computer Science.

The rise of technology in everyday life has come with an increase in raw data generated by an ever-expanding number of connected devices. Media outlets are calling this information explosion “big data.” Companies, organizations, and governments are now on the hunt to find better ways of analyzing and modeling big data, with potential benefits for business, science, education, and law enforcement.

The NSF initiative Transdisciplinary Research in Principles of Data Science (TRIPODS) hopes to leverage academic expertise in mathematics, statistics, and theoretical computer science. In Phase I of TRIPODS, the NSF put out a call to support the development of small collaborative institutes. Georgia Tech responded with TRIAD, which will be operate alongside the recently launched Institute for Data Engineering and Science (IDEaS).  Xiaoming Huo, professor in the School of Industrial & Systems Engineering, will be TRIAD’S executive director; Prasad Tetali, professor in the School of Mathematics with a joint appointment in the School of Computer Science, will serve as co-principal investigator.

“The emphasis on theoretical foundations of data science offers a great opportunity for mathematicians to actively engage with other scientists and help make breakthroughs in this fast-growing interdisciplinary field,” says Tetali. “Our team also recognizes the importance of being the only team, out of the dozen winners of Phase I, to have been selected from the Southeast,” he added.

Faculty from the College of Sciences with expertise in algebraic and convex geometry, applied dynamics, computational and numerical methods, discrete mathematics, quantitative and computational biology, high-dimensional probability, and statistical inference will provide research for TRIAD. Faculty members include School of Biological Sciences Professor Joshua Weitz and School of Mathematics professors Leonid Bunimovich, Sung Ha Kang, Vladimir Koltchinskii, Rachel Kuske, Anton Leykin, Galyna Livshyts, Ionel Popescu and Mayya Zhilova.

 

Heart problems were much more common in the genes of our ancient ancestors than in ours today, according to a new study by geneticists at the Georgia Institute of Technology, who computationally compared genetic disease factors in modern humans with those of people through the millennia.

Overall, the news from the study is good. Evolution appears, through the ages, to have weeded out genetic influences that promote disease, while promulgating influences that protect from disease. But there's also a hint of bad news for us modern folks. That generally healthy trend might have reversed in the last 500 to 1,000 years. 

So, who appears to have had the healthier genes? The “cavemen?” We moderns? And who was more genetically susceptible to mental illness?

READ about our genomic health heritage here, and meet our Copper Age ancestor, the “Iceman.”

Shana Kerr must feel like she won the Triple Crown in 2017 – a baby in March and an advising award from Georgia Tech in April. Following soon after was an award from NACADA: The Global Community for Academic Advising, naming Kerr one of 10 winners of the association’s 2017 Outstanding Advising Award – Faculty Academic Advising.

Kerr is being recognized for her exemplary academic advising, which is based on giving students direction and resources so they can themselves discover the answers to their questions. She believes in being genuine in her interactions with advisees and learning as much from students as they do from her.

“When I joined the Tech community as a member of the teaching faculty, I never imagined that academic advising would become such a fulfilling aspect of my job,” Kerr says. “I am deeply honored to be recognized at the national level for my advising and extremely proud to represent Tech!”

Kerr joined the Georgia Tech faculty in 2012 as an academic professional in the School of Biological Sciences. Her primary role is teaching classes; along the way she got involved in advising students. She realized the importance and joy of student advising, and as her awards attest, she has become a top-notch academic advisor.

“Sometimes students want easy, direct answers,” Kerr says. “But students who are always given direct answers are not getting practice in answering questions for themselves. I might respond with, ‘Have a look at this website for information on this issue. Let me know if you run into trouble.’ Over time, I have found that this approach yields more sophisticated questions from the same student.”

Georgia Tech’s well-deserved reputation for rigor can be shocking to high-achieving new freshmen, some of whom may struggle to pass a class or likely fail. As an adviser, Kerr helps them develop not only study skills, but also the virtues of perseverance in the face of constant challenge and resolution not to give up. She uses her advising meetings to inquire about how students are doing, determine whether serious intervention is needed, and direct them to other resources. “Many students see these resources as a lifeline,” she says.

“Professionalism is important,” Kerr continues. “But we are all human, and humanity involves emotions, mistakes, and ultimately just being yourself.” Being genuine can mean a spontaneous hug when a student has accomplished a big goal, or empathizing with and even being frustrated on a student’s behalf when they have unhelpful encounters elsewhere. Kerr wants students to know that she is affirming their experiences.

“I am constantly humbled and inspired by the amazing students I work with,” Kerr says. “I have learned much about what it really means to be persistent in the face of unrelenting challenges. I am grateful to work with such motivated and hard-working students and so very pleased to have stumbled – accidentally and enthusiastically – into the critical role of academic advisor.”

EDITOR'S NOTE: This article was first published by the Ocean Science and Engineering Program on Aug. 9, 2017.

In November 2016, Georgia Tech launched the Ph.D. in Ocean Science and Engineering (OSE, www.ocean.gatech.edu), an interdisciplinary graduate program across the schools and faculty of Civil and Environmental Engineering (CEE), Biological Sciences (BIOL) and Earth & Atmospheric Sciences (EAS). Ten students make up the inaugural cohort, which will begin its studies in the 2017 Fall semester.

The OSE program has two goals:

• to educate the next generation of transdisciplinary ocean scientists and engineers by combining basic and applied sciences with innovative ocean technologies
   
• to advance interdisciplinary research at the frontiers of the physical, biological, chemical and human dimensions of ocean systems. 

The program attracted a diverse group of applicants interested in specializing in Ocean Technology, Ocean Sustainability, Marine Living Resources, Ocean and Climate, and Coastal Ocean Systems. Following are the members of the inaugural class, who will begin their studies in the Fall 2017 semester. Their orientation will take place on Aug. 14-18, 2017.

 

Alexandra Muscalus (OSE-CEE)

Alexandra Muscalus obtained a B.S. in Civil Engineering from Georgia Tech in 2016. She joins OSE with Georgia Tech Presidential and Institute Fellowships. Her research interests include ocean energy and fieldwork approaches to nature-based coastal resilience and shoreline change. She aspires to advance the field of coastal engineering as a professor. In her free time, Muscalus enjoys backpacking, scuba diving, playing musical instruments, running, and cooking.

 

Roth Conrad (OSE-BIOL)

Roth Conrad joins OSE with a Georgia Tech Presidential Fellowship. “I spent eight years traveling, exploring, and acquiring a diverse skill set and world view,” he says. “I worked on a sailboat in the Bahamas, which deeply affected my awareness of the environment.” Conrad also built and traveled across the country in a vegetable-oil-powered school bus, which inspired his fascination with microbiology and biological degradation. “Both experiences showed me how rewarding sharing ideas with people can be,” he says.

“My mind full of questions, appreciation for the environment, curiosity about microbes, and desire to share ideas are a few reasons why I am pursuing a Ph.D. in Ocean Science and Engineering at Georgia Tech.”

 

Abigail Johnson (OSE-EAS)

After receiving a bachelor’s degree in biology from Texas A&M University, Corpus Christi, and a master’s degree in biological and environmental sciences from the University of Rhode Island, Abigail Johnson looks forward to continuing her education in the OSE program. With this Ph.D.,  she says, 

“I hope to advance our tools in search for and our knowledge of Earth’s deep ocean life.”

Specifically, she plans to use a novel high-pressure chamber to characterize microbial communities in methane hydrates from the Gulf of Mexico incubated under in situ pressures. Upon receiving a Ph.D., she plans to continue her career in academia, with the goals of “researching the mysteries of our deep ocean and educating our future generations.”

 

Benjamin Hurwitz (OSE-CEE)

Benjamin Hurwitz is an electrical engineer from Brooklyn, N.Y. He graduated from Brooklyn Technical High School with a focus in chemistry before attending Colby College, in Maine, from where he graduated with a B.A. in Applied Mathematics. A long-time scuba diver, he spent a year in the Virgin Islands, teaching and guiding divers around the reefs. He returned to school at the University of Maryland, College Park, where he spent three years earning a B.S. in Electrical Engineering with a focus on microelectronics.

His interests include marine robotic electrical systems, instrumentation design, and integrated circuit fabrication.

When he’s not working, he can be found on the ice rink, in the climbing gym, or on the ocean.

 

Gian Giacomo Navarra (OSE-EAS)

Since high school Gian Giacomo Navarra was interested in astronomy and mathematics. He pursued a bachelor’s degree in theoretical physics at the University of Bologna, Italy. After an undergraduate research experience in the University of Bristol, he got interested and completed a master’s degree in condensed matter and statistical mechanics in 2016. After completing his thesis in computational mechanics, Navarra says,

“I realized that the methods I learned and developed in statistical mechanics have the potential to advance the geosciences, in particular ocean and climate dynamics (for example, El Niño), which have a high degree of stochastic physics.”

 

Melissa Ruszczyk (OSE-BIOL)

Melissa Ruszczyk began her undergraduate education in 2013 at Allegheny College, in Meadville, Pa., where she did research in limnology, microbiology, and disease ecology.

She also fostered her passion for music, gave two public clarinet recitals during her four years at Allegheny, and was featured soloist and concert master of the wind symphony during her senior year.

Upon completion of her comprehensive senior research project, Serial Sonification of Chaoborus Behavior in Response to Daphnia Size: Intricacies of the Predator-Prey Relationship, Ruszczyk graduated magna cum laude with bachelor degrees in biology and music.

 

Youngjun Son (OSE-CEE)

Youngjun Son graduated with master degrees in industrial engineering and in naval architecture at Seoul National University in 2012. From 2011 to 2017, he researched hydrodynamics and mooring technologies at Hyundai Heavy Industries, in  Ulsan, Korea. His research experience includes environmental loads, potential theory, nonlinear damping, damping linearization, spectral analysis, extreme statistics, design waves, load combination factors, mooring, risers, dynamic positioning, and wave basin model tests. In the OSE program, he will study hydrodynamics and ocean mechanics...

...to develop new devices for ocean applications such as renewable energy converters.

He is motivated by the need to integrate diverse and complex knowledge beyond one particular discipline in order to develop new marine resources.

 

Minda Monteagudo (OSE-EAS)

Minda Monteagudo completed her B.A. in Earth Science at the University of Southern California and M.S. in Earth Science at the University of California, Santa Barbara. She joins the OSE program as a second-year Ph.D. student, specializing in paleoclimate and working on...

...reconstructing past sea surface temperature changes over the last glacial cycle from sediment cores in the Central Equatorial Pacific, for which very few records exist.

Previously, she worked on refining Mg/Ca paleothermometry, one of the most widely applied proxies for reconstructing past surface sea temperatures.

 

Xiyuan Zeng (OSE-EAS)

Xiyuan Zeng completed a Bachelor of Engineering in Marine Resources Development Technology in 2017 at Shandong University, China. For his bachelor’s thesis, he studied the characteristics of the peripheral flow field of circular cylinders. As an undergraduate, he also conducted research in remote sensing to estimate the seasonal variation of marine phytoplankton in the South China Sea. He also participated in several student training programs to study marine bacillus species and the New Zealand hybrid abalone.

He would like to use computational fluid mechanics to study ocean circulation and biophysical interactions in the marine environment.

Tyler Vollmer (OSE-EAS)

From Riverside, Calif., Tyler Vollmer graduated from the University of California, Los Angeles, with a double major in geophysics and mathematics/atmospheric and oceanic sciences at age 19, and began research in paleoclimatology. After being awarded a Georgia Tech Presidential Fellowship, he joined the OSE program. His research uses geochemical proxies, such as ¹³C, and ¹⁸O isotopes, and climate modeling to reconstruct past climatic conditions, such as temperature, ocean circulation, and atmospheric circulation. The results would add context to recent climate change.

In his spare time, Vollmer is a competitive figure skater (started at age 3). He was the Intermediate Men National Champion in 2013.

He hopes to continue in academia, with the goal of becoming a professor.

 

A Message of Appreciation

OSE program Directors Emanuele Di Lorenzo and Annalisa Bracco, professors in the School of Earth and Atmospheric Sciences, extend sincere thanks to Susan Cozzens, Georgia Tech’s vice provost for graduate education; Paul Goldbart, dean of the College of Sciences; Gary May, former dean of the College of Engineering and now the chancellor of the University of California, Davis; and the Georgia Tech leadership team for their support and encouragement in establishing the OSE program.

Di Lorenzo and Bracco also extend special thanks to the OSE Faculty who have worked very hard in recruiting this first class of OSE students.

 

NOTE FROM THE EDITOR: This story was first published in the Georgia Tech News Center on March 10, 2017.

Following Dean Gary May’s confirmation as the next chancellor at the University of California Davis, Provost Rafael L. Bras has named a search committee to launch a national and international search for a new dean of the College of Engineering.

The 15-member search advisory committee is comprised of faculty and staff, as well as the current undergraduate and graduate student body presidents. The committee will be chaired by Julia Kubanek, associate dean for Research, College of Sciences; professor of Biological Sciences; and professor of Chemistry and Biochemistry. Jennifer Herazy, associate provost for Operations, will serve as search director.

The new dean of the college must continue and accelerate the College’s pursuit of scholarship and excellence,” said Bras. “The critical work of the search committee will include identification and vetting of candidates that can bring the energy and intellectual leadership that will be required for that accelerated effort. I appreciate the committee’s dedication to the process as we identify the College’s next leader.”

An External Advisors Group is being formed to help guide the search process. More information about this group will be posted when available.

Two town halls will be scheduled in April for faculty, staff, and students to provide feedback on the candidate search.

Applications and nominations will be received until the dean is selected, but interested parties are encouraged to submit their application materials by April 30, 2017, to ensure optimal consideration.

Members of the search committee include:

• Julia Kubanek (Chair), Associate Dean for Research, College of Sciences; Professor of Biological Sciences; and Professor of Chemistry and Biochemistry
• Jennifer Herazy (Search Director), Associate Provost for Operations
• Adjo Amekudzi-Kennedy, Associate Chair, Global Engineering Leadership & Research Development; Professor of Civil and Environmental Engineering
• Samuel Graham, Associate Chair for Research; Rae S. and Frank H. Neely Professor; Professor of Mechanical Engineering
• Beki Grinter, Professor of Interactive Computing, College of Computing
• Emily Howell, Director of Finance and Administration, College of Engineering
• Ravi Kane, Garry Betty/V Foundation Chair and GRA Eminent Scholar in Cancer Nanotechnology; Professor of Chemical and Biomolecular Engineering
• Pinar Keskinocak, William W. George Chair and Professor, Industrial & Systems Engineering; ADVANCE Professor, College of Engineering; Co-Director, Center for Health and Humanitarian Systems
• Nagela Nukuna, Undergraduate Student Body President; Industrial Engineering Student
• Julian Rimoli, Goizueta Junior Professor, Associate Professor of Aerospace Engineering
• Justin Romberg, Associate Chair for Research; Schlumberger Professor; Professor of Electrical and Computer Engineering
• David Scripka, Graduate Student Body President; Materials Science and Engineering Student
• Meisha Shofner, Associate Professor of Materials Science and Engineering
• Phil Spessard, Associate Vice President for Development     
• Garrett Stanley, Carol Ann and David D. Flanagan Professor, Professor of Biomedical Engineering
• Brandi Foley-Rodgers (ex officio), Director, Human Resources, Office of the Provost
• Mary Thomas (search support), Program Manager, Office of the Provost

A full position description, search committee roster, and ongoing search updates can be found at provost.gatech.edu/dean-engineering.

The 2017 Atlanta Science Festival takes place on March 14-25 throughout the Metro Atlanta area. In its fourth year, the festival shines a light on the science and technology community in our region, showcasing local discoveries, innovation, and learning opportunities. At dozens of engaging events, the festival features the businesses, universities, and cultural institutions that make Atlanta a science metropolis.

To officially kick-off the Atlanta Science Festival, highly decorated American astronaut Captain Mark Kelly will make a special appearance at 7:00 PM on Tuesday, March 14, at Glenn Memorial United Methodist Church at Emory University.

The festival culminates on Saturday, March 25, at Centennial Olympic Park with a free, family friendly Exploration Expo from 11:00 AM to 4:00 PM. The Exploration Expo promotes science exploration, discovery and innovation through more than 100 interactive exhibits, hands-on experiments, mind blowing demos and performances.

Inspired by scientists, the Atlanta Science Festival was founded by Emory University, the Georgia Institute of Technology, and the Metro Atlanta Chamber.

The following events feature participation of Georgia Institute of Technology:

STEAM Leadership Institute

Thursday, March 16, 2017, 8:30 AM to 4:30 PM

Georgia Tech Research Institute, 400 10th St, NW Atlanta GA 30318

ADMISSION: $125/person; $100/person for groups of 3+ (Get tickets in advance or at the door.)

Reserve Tickets Here

Are you wanting to help your school become more STEAM focused, but not sure how? Georgia Tech’s Center for Education Integrating Science, Mathematics, and Computing (CEISMC) invites you to the 2017 STEAM Leadership Institute. This event will feature interactive, educational sessions, engaging STEAM-focused work groups, and panel sessions with experts in the field. This event is designed for leaders and administrators at K-12 schools. Discounts are available for groups of 3 or more. Admission includes continental breakfast and lunch. Register here. Free parking is available in the garage.

Science Happy Hour

Thursday, March 16, 2017, 5:30-7:30 PM

SweetWater Brewing Company,195 Ottley Dr NE Atlanta GA 30324

ADMISSION: $20 (Get tickets in advance or at the door.)

Reserve Tickets Here

Have you ever wondered how so much delicious flavor finds its way into a bottle of beer? Join the Georgia Tech School of Physics and SweetWater Brewing Company for happy hour with scientists and brewmasters as we investigate the role of specific gravity in the fermentation process. Explore interactive home brewing demonstrations and take a guided tour of the SweetWater brewery. Attendees will enjoy all of their favorite SweetWater beverages in a keepsake Atlanta Science Festival Science beaker/pint glass. Space is limited so reserve your tickets online now!

Story Collider

Thursday, March 16, 2017, 7:30-9:00 PM

Highland Inn Ballroom, 644 North Highland Avenue NE Atlanta GA 30306

ADMISSION: $10 (Get tickets in advance or at the door)

Reserve Tickets Here

The Story Collider brings true, personal stories about science to life. At this live show, you’ll hear from scientists about all the times things went wrong, and occasionally right, in their labs, and you’ll also hear from people who haven’t had a formal connection to science in years. We have physicists, comedians, neuroscientists, writers, actors, and many others telling their story. Some are heartbreaking; some are hilarious. They’re all true, and all, in one way or another, are about science. Read more about the storytellers for this show here and get your tickets in advance here.  

5th Annual Latino College and STEM Fair

Saturday, March 18, 2017, 9:00 AM to 2:30 PM

Georgia Tech Student Center, 350 Ferst Drive NW Atlanta GA 30332

ADMISSION: Free

Join us for bilingual workshops, fun hands-on activities for the entire family, a college fair, a majors fair, as well as an inspirational panel with Latino college students, parents, professors, and other professionals. This will be a free, fun, educational, and inspiring event organized by Georgia Tech GoSTEM and the University of Georgia LISELL-B programs. You don’t want to miss it!

What's All the Buzz About Nanotechnology?

Saturday, March 18, 2017 10:00 AM to 12:30 PM

Marcus Nanotechnology Building, 345 Ferst Dr. Atlanta GA 30313

ADMISSION: Free

How do scientists and engineers interact with a world too small to see? Learn how at Georgia Tech’s Institute for Electronics and Nanotechnology. Explore how micro- and nanoscale objects can be seen with powerful microscopes. Learn hands-on about unique properties at the nanoscale. Bring a sample (must be dry and smaller than an inch) to scan with our tabletop scanning electron microscope, and take home a digital copy of what we see. Parking is available in the visitor lot across the street and open in the faculty/staff lot.

Nerdy Derby

Saturday, March 18, 2017, 10:00 AM to 3:00 PM

Hollis Innovation Academy, 225 Griffin St NW Atlanta GA 30314

ADMISSION: Free

Build your own innovative car and bring it to Nerdy Derby for some fun, crazy racing. Or come and get help from folks from Georgia Tech and Decatur Makers to create your own personalized vehicle to speed down the 30+ foot track. The Nerdy Derby is a twist on the Pinewood Derby, but where all rules are thrown out and the focus is on rewarding creativity, cleverness, and ingenuity. Competition categories include slowest, fastest, funniest epic fail, cutest, and many others. Cars can be made from metal, wood, plastic, Legos, cardboard, cheese, or whatever you can dream up. Just make sure the wheels are 1¾” apart and the car isn’t more than 8” high or 5” wide.

Science of Cannabis

Saturday, March 18, 2017, 7:30-9:00 PM

Manuel’s Tavern, 602 North Highland Ave NE Atlanta GA 30307

ADMISSION: Free (RSVP preferred)

Join us for an evening of getting into the weeds...of weed. Science comedian and Georgia Tech chemical engineering professor Pete Ludovice will share with us his research on the science of cannabis biochemistry and production, and his recent work consulting on a TV show on cooking with cannabis. Get more info here.

Circus Science

Sunday, March 19, 2017, 2:30-4:00 PM

Buck’s Sports Barn, 2303B Peachtree Rd Atlanta GA 30309

ADMISSION: $12 presale, $15 at the door

Reserve Tickets Here

Ladies and gentlemen! Boys and girls! Step right up and be a part of Circus Science! Immerse yourself in the circus arts while learning basic scientific principles that make these amazing feats of strength and balance possible. We will incorporate traditional circus disciplines, demonstrated by skilled Imperial Opa Circus acrobats, and scientific principles, explained by Georgia Tech “Science Clowns.” to entertain and educate you. You will even have the opportunity to participate in learning several circus skills in order to experience the science within first hand! Get your tickets here.
Note: There is a second session of Circus Science at 5pm.

Please note that this event listing reflects the updated time for the event (different from the booklet listing).

Circus Science

Sunday, March 19, 2017, 5:00-6:30 PM

Buck's Sports Barn, 2303B Peachtree Rd Atlanta GA 30309

Reserve Tickets Here

ADMISSION: $12 presale, $15 at the door

Ladies and gentlemen! Boys and girls! Step right up and be a part of Circus Science! Immerse yourself in the circus arts while learning basic scientific principles that make these amazing feats of strength and balance possible. We will incorporate traditional circus disciplines, demonstrated by skilled Imperial Opa Circus acrobats, and scientific principles, explained by Georgia Tech “Science Clowns,” to entertain and educate you. You will even have the opportunity to participate in learning several circus skills in order to experience the science within first hand! Get your tickets here.
Note: There is an earlier session of this event at 2:30pm.
Please note that this event listing reflects the updated time for the event (different from the booklet listing).

Science Rock and Comedy

Sunday, March 19, 2017, 7:00-9:30 PM

Smith’s Olde Bar, 578 Piedmont Ave NE Atlanta GA 30324

ADMISSION: Free

Earth’s first genetically modified rock band, Leucine Zipper and the Zinc Fingers, emerges from their labs at Georgia Tech and Zoo Atlanta to laugh it up with members of the Geekapalooza comedy tour in this night of science-themed music and comedy. Learn more and connect with us through our Facebook event.

Science Improv

Wednesday, March 22, 2017, 7:30-9:30 PM

Whole World Improv, 1216 Spring Street Atlanta GA 30309

ADMISSION: $10 ($5 for students)

Reserve Tickets Here

Improv comedy with a science twist! Georgia Tech scientists, improvisation artists, and the audience combine to show the lighter side of science and life in the lab through short improv games and sketches. Get your tickets now!

Introducing the Next...

Friday, March 24, 2017, 7:00-10:00 PM

Ferst Center for the Arts, 349 Ferst Drive Atlanta GA 30332

ADMISSION: $28 ($22 with discount code)

Join us for an evening of arts, choreography, and innovation. Atlanta’s Dance Canvas and Arts @Tech come together to explore the bridges between movement, technology, science, and life. With a focus on humanity, culture, and how dance can innovate, this performance highlights the creativity of emerging new voices in dance. The performance begins at 8:00 PM, but come at 7:00 PM for a special ASF talk-back with choreographers Adam McKinney and Emily Cargill to discuss collaborations between arts & tech. For tickets, call the Ferst Center Box Office at 404-894-9600. Use the code SCIENCE to save 25% on tickets.

Georgia Tech's Hungry Hungry Robots

Saturday, March 25, 2017, 11:00 AM to 4 PM

Centennial Olympic Park, 265 Park Ave W NW Atlanta GA 30313

ADMISSION: Free

Come to Makers Meet to compete in Georgia Tech’s Hungry Hungry Robots! Race against the clock to collect more balls than your competitor using remote controlled robots! Innovation and Ingenuity will lead you to victory in this interactive, hands-on event!

Exploration Expo

Saturday, March 25, 2017, 11:00 AM to 4:00 PM

Centennial Olympic Park, 265 Park Ave W NW Atlanta GA 30313

ADMISSION: Free

Atlanta’s biggest interactive science event is FREE and open to adults, families, and children of all ages and interests. The Exploration Expo promotes science exploration, discovery, and innovation with more than 100 interactive exhibits, hands-on experiments, mind-blowing demos, and performances! Learn more here.

Though tailpipe emissions could fall in the years ahead as more zero-emission vehicles hit the streets, one major source of highway air pollution shows no signs of abating: brake and tire dust.

Metals from brakes and other automotive systems are emitted into the air as fine particles, lingering over busy roadways. Now, researchers at Georgia Institute of Technology have shown how that cloud of tiny metal particles could wreak havoc on respiratory health.

In a study published January 31 in the journal Environmental Science & Technology, the researchers described how vehicle-emitted metals such as copper, iron and manganese interact with acidic sulfate-rich particles already in the air to produce a toxic aerosol.

“There’s a chain reaction happening in the air above busy highways,” said Rodney Weber, a professor in Georgia Tech’s School of Earth & Atmospheric Sciences. “Acidic sulfate in the atmosphere comes into contact with those metals emitted from traffic and changes their solubility, making them more likely to cause oxidative stress when inhaled.”

The study, which was sponsored by the National Science Foundation and the U.S. Environmental Protection Agency, showed how the metals are emitted mainly in an insoluble form but slowly become soluble after mixing with sulfate.

“Sulfate has long been associated with adverse health impacts,” said Athanasios Nenes, a professor and Georgia Power Scholar in the School of Earth & Atmospheric Sciences and the School of Chemical & Biomolecular Engineering. “The old hypothesis was that the acidic sulfate burns your lung lining, which in turn leads the bad health effects. But there is not enough acid in the air alone to really have that impact.”

But sulfate plays a key role in making metals soluble before they are inhaled, which could explain the association of sulfate with adverse health impacts, the researchers said.

The researchers collected samples of ambient particulate matter in two locations in Atlanta – one near a major interstate highway and another urban site 420 meters away from the roadway. They analyzed the chemical content, size distribution and acidity of the samples.

A significant amount of the ambient sulfate found was similar in size to the metal particles, suggesting that the ambient sulfate and metals were mixed within individual particles, which over hours or days would allow the acidic sulfate to convert the metal into a soluble form.

To quantify just how dangerous the aerosol could be, the researchers developed a high throughput analytical system for a chemical assay – called oxidative potential – that simulates the toxic response that such a mix would have on cellular organisms. This instrument was used to generate large data sets on ambient aerosol oxidative potential, which when utilized in an earlier epidemiological study, researchers at Georgia Tech and Emory University found that the chemical assay was statistically associated with hospital admissions in Atlanta for asthma and wheezing.

In the new study, the researchers observed that the peak toxicity indicated by the assay was closely correlated to those particles that contained the largest amount of soluble metals, which occurred only when metallic particles mixed with highly acidic sulfate.

“That’s the smoking gun,” Nenes said. “The sulfate essentially dissolves those metals; when you breathe in those particles, the metals could be absorbed directly into the blood stream and cause problems throughout the body. For the first time, a mechanism emerges to explain why small amounts of acidic sulfate can adversely affect health.”

While the sample taken from the testing site located farther away from the highway had less particulate metal, there was still enough to cause an increase in the oxidative potential, showing that roadway pollution could travel through the air and potentially cause problems in surrounding areas as well.

Dust from brakes and tires isn’t the only source of metals in the air. Incinerators and other forms of combustion also produce mineral dust and metallic particles, which could mix with sulfate to trigger a similar reaction.

The researchers noted that while the amount of particulate sulfate in the southeastern United States has decreased during the past 15 years as sulfur dioxide emissions from power plants have fallen, there’s still enough acidic sulfate in the air to keep the pH of particles very low, in the range of 0 to 2, transforming insoluble ambient metals to a soluble form.

“Vehicle tailpipe emissions are going down, but these kinds of emissions from braking will remain to some extent, even if you drive an electric car,” Weber said. “Therefore, this kind of process will continue to play out in the future and will be an important consideration when we look at the health effects of particulate matter.”

This material is based upon work supported by the National Science Foundation under Grant No. 1360730 and the U.S. Environmental Protection Agency under Grant No. RD834799. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the National Science Foundation or the U.S. Environmental Protection Agency.

CITATION: Ting Fang, Hongyu Guo, Linghan Zeng, Vishal Verma, Athanasios Nenes and Rodney J. Weber, “Highly acidic ambient particles, soluble metals and oxidative potential: A link between sulfate and aerosol toxicity,” (Environmental Science & Technology, 2017). http://dx.doi.org/10.1021/acs.est.6b06151.

Researchers have successfully identified biological signatures in pediatric patients with newly diagnosed Crohn’s disease (CD) capable of predicting whether a child will develop disease-related complications requiring major surgery within three to five years. The results of this research, “Prediction of complicated disease course for children newly diagnosed with Crohn’s disease: a multicentre inception cohort study,” have been published in the journal, The Lancet. 

This groundbreaking work is the result of the Crohn’s & Colitis Foundation’s “RISK Stratification” study, the largest new-onset study completed on pediatric Crohn’s disease patients. It is a multicenter research initiative that consists of 25 U.S. institutions and three from Canada and a cohort of 1,112 CD children enrolled at diagnosis, of which 913 were included in the published study. Of the 28 research sites, four are located in Atlanta - Emory University, Georgia Institute of Technology, Children’s Healthcare of Atlanta, and the Children’s Center for Digestive Health Care. The goal of this research was to identify measurable indicators of the two most common complications in pediatric Crohn’s disease that require surgery - stricturing and penetrating disease. 

Stricturing, also referred to as fibrostenosis, is characterized by a build-up of fibrotic scar tissue which leads to thickening of the intestinal wall and narrowing of the intestinal passage. Penetrating disease is the result of sustained inflammation that spreads beyond the intestinal wall resulting in the creation of fistulas, abnormal connections between the intestine and other organs. Penetrating complications can also lead to the formation of abscesses at the sites of fistulas. 

“Twenty five percent of patients with Crohn’s disease account for 80 percent of complications, hospitalizations, surgery and health care costs. The aim of RISK is to preemptively identify those 25 percent of patients at diagnosis,” Subra Kugathasan, M.D., Emory University, principal investigator and lead author of the paper. “Through the study of baseline gene expression, immune reactivity, and intestinal bacteria, we have identified distinct biological signatures capable of predicting stricturing and penetrating disease, at diagnosis. After analyzing millions of biological and clinical data points, RISK has generated a composite risk stratification model.” 

"Stricturing and penetrating disease account for substantial morbidity in both pediatric and adult patients with Crohn’s disease, but there are no validated models to predict risk and the effect of treatment," said Caren Heller, M.D., chief scientific officer of the Foundation. 

RISK study researchers looked at intestinal gene expression levels to identify risk factor genes whose levels are altered (increased or decreased) at enrollment, and identified distinct biological gene expression signatures at baseline that could distinguish children who will develop strictures form those who develop fistulas or abscesses, without the confounding effects of treatment on gene expression. Therefore, these genetic signatures together with other biological and clinical variables they evaluated could be used as predictors of complications and treatment outcomes at diagnosis. 

"Importantly, the functional nature of these genetic signatures is consistent with the clinical presentation of the complications," said Ted Denson, M.D., Cincinnati Children's Hospital, co-principal investigator and lead author of the paper. "This means that while patients who develop fibrostenosis exhibit, at diagnosis, increased levels of several genes involved in the fibrosis process, patients who develop penetrating disease have increased levels of genes involved in the inflammatory response."

In addition to providing predictive biological signatures for development of complications, the RISK study also found that patients who receive early anti-TNFa biologic treatment, within three months of diagnosis, were less likely to develop penetrating complications. However, patients with stricturing complications were poorly responsive to early intervention with biologics. These data support the utility of risk stratification of pediatric Crohn’s disease patients at diagnosis, and may guide early tailored use of anti-TNFa therapy. The data also highlight the unmet medical need to find new treatment options for children likely to develop strictures. 

“These discoveries are great steps toward precision medicine in the treatment of pediatric Crohn's disease,” said Andrés Hurtado-Lorenzo, Ph.D., Director of Translational Research of the Foundation. “In the coming years, we plan to translate these findings into a risk diagnostic tool that could use these biological signatures as biomarkers to predict risk of complications and to help clinicians make therapeutic decisions at diagnosis.”

The Foundation has made significant investments in support of pediatric IBD research through the PRO-KIIDS network, an umbrella for clinics participating in pediatric IBD research. Although many projects are expected to arise from this network the Risk Stratification has been the flagship study.  

“Pediatric patients are the fastest growing group of the IBD population. Under the auspices of the PRO-KIIDS network, every major pediatric IBD center in the country is touched by our work or funding,” said Michael Osso, President and CEO of the Foundation. “Through the network, and the results of the RISK study, we are furthering research that will significantly lower the treatment burden on kids, and help minimize side effects on the quality of life surrounding the most vulnerable of patients.”

As part of the study, Georgia Tech postdoctoral researcher Urko Marigorta analyzed RNAseq gene expression data from biopsies provided by Cincinnati Children's Hospital. The work identified dozens of pathways that are differentially expressed in complicated disease, and showed that immune activity is more disrupted in penetrating disease while extracellular matrix is more involved in stricturing disease. Inclusion of these profiles in a statistical model with the serological and classical markers improved the predictive accuracy of the model significantly.  

“We performed statistical and bioinformatic analyses of the genomic data which led to enhanced discrimination of which patients are likely to progress to complicated disease,” said Greg Gibson, a professor in the Georgia Tech School of Biological Sciences and one of the paper’s co-authors. “The involvement of TNF-alpha signaling in progression to stricturing disease is consistent with the overall finding that these are the patients who respond to TNF-alpha therapy.”

This seminal work and its discovery represent over $10 million investment by the Crohn’s & Colitis Foundation, nearly 10 years of work, and collaborative team effort. Dr. Thomas Walters from the Hospital for Sick Kids, Canada shares lead authorship with Drs. Kugathasan and Denson. In addition, Dr. Jeffrey Hyams (Connecticut Children’s Medical Center), and Dr. Marla Dubinsky (Mount Sinai Hospital, New York) share authorship. 

About the RISK Stratification Study
The RISK Stratification Study enrolled 1,800 patients from 28 clinics, with a focus on 913 children with Crohn’s disease enrolled at diagnosis and complication-free following 90 days after diagnosis. This 36-month prospective inception cohort study included well documented clinical, demographic, and biological sample collection every six months on all patients for three years with continuing follow up for five years. 

About the Crohn's & Colitis Foundation 
The Crohn's & Colitis Foundation is the largest non-profit, voluntary, health organization dedicated to finding cures for inflammatory bowel diseases (IBD). The Foundation’s mission is to cure Crohn's disease and ulcerative colitis, and to improve the quality of life of children and adults who suffer from these diseases. The Foundation works to fulfill its mission by funding research; providing educational resources for patients and their families, medical professionals, and the public; and furnishing supportive services for those afflicted with IBD. For more information visit www.crohnscolitsfoundation.org. 

- Written by Crohn’s & Colitis Foundation

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Media Relations Contacts: John Toon (404-894-6986) (jtoon@gatech.edu) or Ben Brumfield (404-385-1933) (ben.brumfield@comm.gatech.edu).