Category: News

3 new members join Southern Research Advisory Board

Posted on March 4, 2019

The Southern Research Advisory Board, comprised of emerging leaders in the Birmingham business community who are committed to enhancing the organization’s mission of scientific and engineering advancement, has added three new members.

Key Foster of McWane Inc., Angele Monconduit of Alabama Power, and Beeland Nielsen of Coca-Cola Bottling Co. UNITED joined the Advisory Board during its first quarter meeting on Feb. 21.

“Southern Research is making great strides in its endeavors today, and we are pleased that these three outstanding leaders have elected to contribute their time and talents to help support the organization’s mission of solving the world’s hardest problems,” said Advisory Board Chairman David Perry, vice president of Corporate Strategy at Protective Life Insurance Co.

KEY FOSTER

Foster joined McWane in 2011 and has responsibility for operating divisions focusing on high-tech companies and commercial real estate investments, as well as corporate development initiatives. Previously, Foster helped lead the turnaround of two public companies, advised Lehman Brothers during its bankruptcy, and executed $13 billion in mergers and acquisitions, financing and real estate transactions.

Foster has held senior management roles in public and private companies and has a successful track record leading early stage growth companies, corporate turnarounds, principal investments and corporate development. He was co-founder of Redmont Hospitality and served in senior roles at Gaylord Entertainment and the Trust Co. of Sterne, Agee & Leach.

Foster received a bachelor’s degree in business administration from Washington and Lee University and an MBA from Vanderbilt University. He holds the Chartered Financial Analyst (CFA) designation.

ANGELE MONCONDUIT

Monconduit serves as the assistant to the executive vice president of External Affairs for Alabama Power. Since 2002, Monconduit has served in a variety of leadership roles responsible for ensuring the safe, reliable, and cost-effective operation and maintenance of the company’s generating power plants.

She is engaged with several civic and charitable organizations, including the Women’s Fund of Birmingham and the National Society of Black Engineers, where she co-hosts an engineering camp for over 200 Birmingham students every summer. She has been recognized by the Engineering Council of Birmingham for her service to the community and is a Distinguished Service Award recipient.

Monconduit graduated from the University of Evansville with a bachelor’s degree in civil engineering.

BEELAND NIELSEN

As corporate senior director of Commercial Leadership at Coca-Cola Bottling Co. UNITED, Nielsen has responsibility for all commercial leadership and capability functions. He previously served as director of Commercial Leadership-Retail for the company, with responsibility for leading project development and implementation focusing on Go-To-Market processes, strategic route planning, commercial capabilities, and sales force automation.

Prior to joining Coca-Cola UNITED in 2004, he worked for Regions Bank as a management trainee and retail branch manager. He completed a comprehensive management training rotation in Chattanooga, Tennessee, and served as retail sales manager for Coca-Cola UNITED’s Tennessee Valley Division.

Nielsen received a bachelor’s degree in English literature from The University of the South, Sewanne and later completed an MBA at Vanderbilt University.

“The addition of these new members will enhance Southern Research’s relationship with the Birmingham business community,” said Watson Donald, the organization’s senior director of External Affairs. “They will join with the other Advisory Board members to provide us with valuable feedback on our multifaceted activities as they move forward in their own business careers.”

In addition to Perry, existing Advisory Board members are:

Alexia Borden, senior vice president and general counsel, Alabama Power
Jay Brandrup, principal, Kinetic Communications
Deon Gordon, president, TechBirmingham
Danny Markstein, managing director, Markstein;
Liz Pharo, managing partner, Featheringill Capital
Shannon Riley, president and CEO, One Stop Environmental
Elizabeth Scribner, analyst, Model Risk Management & Validation,
Regions Financial Corp.
Mitesh Shah, vice president and assistant general counsel, Vulcan Materials Co.

The Southern Research Advisory Board was established in 2015.

Southern Research’s GEMS event inspires students to explore STEM careers

Posted on February 22, 2019

High school and middle school girls from communities around Alabama visited Southern Research on Friday and left inspired about their future studies and possible careers in STEM fields.

The Birmingham campus hosted Girls Engaged in Math and Science, or GEMS, and its 2019 Project Showcase, “Ignite the Light in STEM!”

Southern Research STEM — Southern Research hosted high school and middle schools girls from around Alabama for a Girls Engaged in Math and Science (GEMS) event on Friday, Feb. 22, 2019.

Students showed off their projects that demonstrated STEM knowledge and skills. They also participated in interactive educational activities and experiments in the Southern Research STEM lab facilitated by Kathryn Lanier, Ph.D., STEM education outreach director, and Liz Johnson, Ph.D., STEM education specialist.

GEMS Coordinator Hailey Ridgeway said Lanier and Johnson are great female role models, one of the strategies the group uses to encourage girls in STEM.

“We hope the main impression they leave with is they can do anything they can put their mind to and they won’t be intimidated by math and science,” she said.

The students’ project expo covered a wide range of topics, including human blood types, the laws of motion and linear equations and slopes.

‘GIRL ON FIRE’

One project, called “Girl On Fire,” turned common electric circuits into modern fashion. Students from Chilton County High School adorned two prom dresses with LED lights that responded to motion and noise.

“I love to be creative, and I love designing things,” said Grace Tuell, a 17-year-old Chilton County High School student. “Having this project to work on for these last few months has been really fun and exciting.”

Tuell, who wants to be an electrical or mechanical engineer, plans to attend Jefferson State Community College and then transfer to Auburn University. The GEMS event offers an outlet for her and her peers to explore their interest in engineering and science, she said.

Jay LeCroy, STEM director for Chilton County Schools and a teacher at the system’s STEM Academy, said the dress project involved programming, soldering circuit boards and making circuits.

Those tasks have previously been identified by Southern Research as necessary for today’s high school students entering STEM studies, said LeCroy, a former fellow in SIPSE, Southern Research’s professional development program for high school educators.

In fact, Southern Research helped design the Chilton County course that formed the basis for the dress project.

ELEVATING INTEREST

GEMS, which Chilton County has participated in for 11 years, helps his students dive deeper into their STEM studies, LeCroy said. Over the years, his students’ GEMS projects have covered topics such as underwater robotics, hydrogen fuel cells, solar cells and physics of roller coasters.

Visiting Southern Research for this year’s event was a special treat for students, he added.

“Being in a small, country county, they don’t have a chance to network often with scientists and researchers, and coming here gives them the opportunity to do that,” he said.

Offered by the Alabama Department of Education, GEMS supports the national need to close the STEM gender gap, using teaching strategies to encourage girls’ self-confidence and elevate interest in the areas of science, technology, engineering and math.

Participating schools in Friday’s event included those in Anniston, Chilton County, Cullman County, Florence, Hoover, Montgomery and Shelby County.

GEMS has held previous events at The Birmingham Zoo and Dauphin Island. This year, kindergarten through second-grade girls went to McWane Science Center, while sixth- through 12^th-graders visited Southern Research.

BUILDING THE FUTURE

Lanier on Friday encouraged the students to pursue their interest in STEM and to not be discouraged by failure.

“The cool thing about being a scientist is failure,” she said.

She asked them to imagine themselves working on a complex project for years with experiments that keep failing. But late one night, the experiment finally works, and the feeling that follows is indescribable.

“Not only are you the only person in the world who knows that answer, you’re also the first. That’s a powerful feeling. You’ve got to embrace failure, and you’ve got to be brave,” she said.

Lanier told the students they could help build a movement of girls who are brave.

“Each and every one of you need to know that not only can you do this, but we need you to do this. You’re the key to building that future.”

Anniston Middle School students Adrianna Fitten and Miasia Dennis, who are both eyeing careers in the medical field, said the GEMS event has helped inspire their future plans.

“You are around other girls who are interested in science,” Fitten said. “It helps get you out of your comfort zone, and you make friends.”

Southern Research teams with UAB to launch 3 pilot studies

Posted on February 20, 2019

How certain bacteria may make people more prone to asthma is one topic of three research grants jointly funded by Southern Research and the UAB School of Medicine.

These new research pilots are the latest effort to harness synergies between researchers at the University of Alabama at Birmingham and Southern Research, a Birmingham-based nonprofit research institute with nearly 400 scientists and engineers.

The two other pilots seek an improved way to develop new vaccines and a new mouse model for a potentially dangerous, hereditary deficiency shared by 400 million people worldwide.

The cooperation began with a July 2018 research retreat, sponsored by Art Tipton, Ph.D., president and chief executive officer of Southern Research, and Etty “Tika” Benveniste, Ph.D., senior vice dean for Basic Sciences in the UAB School of Medicine.

“While our researchers work together in many areas, we strongly suspected there would be additional ones that would be possible if both sides knew the research capabilities of each side better,” Tipton said. “And we were correct.”

“We announced at the end of it that we would fund some joint pilot programs,” Benveniste said. “Proposals were submitted and reviewed, and now three programs have been funded.”

This program parallels one held for the UAB School of Engineering, the College of Arts and Sciences, and Southern Research that was announced last July. That symposium was so successful it was repeated this month, and it will have additional funded programs to be announced later this year.

The one-year, $25,000 pilots were selected for intellectual merit, originality, potential to win major research funding and ability to foster collaborations between Southern Research and UAB.

Here are brief descriptions of the three pilots.

Javier Campos-Gómez of Southern Research and Beatriz León of UAB (Image: UAB)

ASTHMA STUDY

This study is based on the observation that human lung infections with the bacterium Pseudomonas aeruginosa are associated with more severe chronic cases of asthma and allergic sinusitis.

This suggests that the bacteria make people more susceptible to allergic airway inflammation, and that treating the lung infection could prevent severe asthma attacks. However, P.aeruginosa is often resistant to antibiotics.

The study is led by Southern Research principal investigator Javier Campos-Gómez, Ph.D., research associate biologist in the Department of Infectious Diseases, Drug Discovery Division, and UAB principal investigator Beatriz León, Ph.D., assistant professor in the Department of Microbiology

Campos-Gómez and León will investigate a different way to stymie P.aeruginosa, by probing the molecular basis for increased susceptibility to allergic inflammation and asthma in infected patients. They have preliminary evidence that a certain metabolite of P.aeruginosa may affect the immune response to allergens, and this could offer a new path to treatment therapies.

VACCINE DEVELOPMENT

Braden McFarland of UAB and Raj Kalkeri of Southern Research (Image: UAB)

This study starts with the understanding that the bacteria found in the human gastrointestinal track are necessary for the development of our immune system. However, 85 percent of bacteria found in the guts of laboratory mice are not found in the guts of humans, implying that vaccine efficacy evaluation with regular laboratory mice might not translate to humans.

The study is led by Southern Research principal investigator Raj Kalkeri, Ph.D., MBA, subject matter expert for infectious disease research in the Drug Development division, and UAB principal investigator Braden McFarland, Ph.D., instructor in the Department of Cell, Developmental and Integrative Biology.

Kalkeri and McFarland hope to bridge the knowledge gap through vaccine evaluation in humanized microbiome mice — mice that have human donor bacteria in their gastrointestinal tracts. This might be a better model to test potential human vaccine efficacy, as well as help reveal how gut microbes affect vaccine protection.

SAFETY OF THERAPEUTIC DRUGS

Babu L. Tekwani of Southern Research and Robert P. Kimberly of UAB (Image: UAB)

This study involves the hereditary condition called glucose 6-phosphate dehydrogenase, or G6PD, enzyme deficiency that affects more than 400 million people worldwide.

This enzyme deficiency can make people susceptible to drug-induced hemolytic anemia, and it can also limit use of several important drugs in public health. Yet development of safer drugs for these 400 million people has been hampered by lack of suitable experimental models for the enzyme deficiency.

The study is led by Southern Research principal investigator Babu L. Tekwani Ph.D., distinguished fellow and chair of infectious diseases in the Drug Discovery division, and UAB researchers in the Center for Clinical and Translational Science, Jennifer A. Croker, Ph.D., director of Administration, and Robert P. Kimberly, M.D., director.

Tekwani and colleagues will establish a model for the enzyme deficiency in humanized-immunocompromised mice, and then investigate the mechanism of drug-induced hemolytic anemia. This mouse model also should be useful to develop safer drug alternatives. Tekwani and his group are working on improving the safety of antimalarial drugs in populations with G6PD deficiency.

New bacterial signaling language offers pathway to treat infections

Posted on February 19, 2019

Scientists at the microbiology lab led by Javier Campos-Gómez, Ph.D., in Drug Discovery at Southern Research discovered that Pseudomonas aeruginosa, a bacterium responsible for severe, drug-resistant infections in humans, uses a family of fatty acids, known as “oxylipins,” in a cell-to-cell signaling language critical for its virulence.

The Campos-Gómez team was established to explore novel ways to fight infectious disease, so when Campos-Gómez’s long-standing colleague and team member, Eriel Martínez, Ph.D., suggested that oxylipin molecules could represent the “words” of a new type of P. aeruginosa bacterial language, the laboratory immediately began investigating that hypothesis.

While bacteria use other chemical molecules in signaling systems, the scientists say this is the first time that oxylipins, which are commonly recognized signaling factors in animals, plants and even fungi, have been shown to play a part in cell-to-cell communication in any bacterium.

Pseudomonas Southern Research — Southern Research scientists Eriel Martinez, left, and Javier Campos-Gómez have discovered a new cell-to-cell signaling language in a bacterium blamed for dangerous infections.

“Bacteria talk to each other using chemical signaling molecules,” Martinez said. “This allows bacteria to work together to achieve functions that couldn’t be achieved as individuals. Our study reports a new bacterial language that uses oxylipins as words.”

The researcher’s findings suggest that disrupting oxylipin production by P. aeruginosa will defend against a bacterial infection the World Health Organization (WHO) has named a serious threat to human health.

“This is important because we can design a new generation of antibiotics that target this oxylipin pathway,” Campos-Gómez said.

A paper titled “Oxylipins mediate cell-to-cell communication in Pseudomonas aeruginosa,” published this month in Communications Biology, a new peer-reviewed, open-access journal of the Nature group, outlines the new findings.

Read the paper published by Communications Biology.

BIOFILM FORMATION

Bacteria mainly communicate via what’s called “quorum sensing,” which involves the production of various small molecules that function as “words” of the bacterial language. In P. aeruginosa, oxylipins function as new “words” in a novel quorum sensing system, the Southern Research scientists found.

This system controls the changing roles of genes in a bacteria community, turning some on and others off. In P. aeruginosa, the oxylipins are synthesized from oleic acid, a specific fatty acid, which is abundant in the tissue of a host organism, including humans.

The scientists previously found that these oxylipin molecules play a key role in the formation of the biofilm that acts as a shield to protect P. aeruginosa from attack by the human immune system and from antibiotics. (See original publication here).

“This is a step forward. Now, we know more about how oxylipins function in P. aeruginosa. They are signaling molecules involved in regulating biofilm formation and virulence,” Campos-Gómez said.

‘DISARMING THE BACTERIA’

Southern Research pseudomonas — Eriel Martinez is a research scientist in the Campos-Gómez lab at Southern Research.

In 2017, the WHO included P. aeruginosa in its first-ever list of antibiotic-resistant bacteria that pose the greatest threat to human health. P. aeruginosa was listed in the most critical group of multidrug resistant bacteria in need of a new therapeutic treatment option.

The WHO has warned the bacteria in this group pose a particular threat in hospitals, nursing homes, and among patients whose care requires devices such as ventilators and blood catheters. They can cause severe and often deadly conditions such as bloodstream infections and pneumonia.

The Centers for Disease Control and Prevention (CDC) estimates that 51,000 health-care associated P. aeruginosa infections occur in the United States each year. More than 6,000 of these, around 13 percent of the total, are multidrug resistant, with roughly 400 deaths, according to the CDC.

“P. aeruginosa is one of the toughest bacterial infections to cure because it is able to form this biofilm that makes it very resilient against antibiotics,” Campos-Gómez said.

The Southern Research scientists have already developed a high throughput assay to identify small molecules that block the production of oxylipins in P. aeruginosa and have identified a couple of promising compounds.

“We are trying to develop a new generation of antibiotics that do not directly kill the bacteria, reducing the odds that it will develop resistance to the drug,” Campos-Gómez said. “We want to disarm the bacteria, so that the immune system takes care of the bacteria itself.”

Southern Research to host 65 students for statewide STEM GEMS event

Posted on February 18, 2019

A statewide program that encourages girls to pursue careers in STEM fields will hold its annual expo at Southern Research this week, highlighting the ingenuity and creativity of students from across Alabama.

Girls Engaged In Math and Science, also known as GEMS, will hold “Ignite the Light in STEM!” Friday at the Birmingham campus. The event will feature female role models from Southern Research: Kathryn Lanier, Ph.D., STEM education outreach director, and Liz Johnson, Ph.D., STEM education specialist.

There’s a full slate of STEM-related activities planned for about 65 students, including a project showcase, interactive educational activities, breakout sessions, experiments in the Southern Research STEM lab and a keynote address by Lanier.

Lanier said she’s a big supporter of the current push to draw more girls into STEM fields, but she wants to make it clear to students that it’s not about promoting their gender.

STEM Southern Research — Kathryn Lanier directs STEM education outreach for Birmingham-based Southern Research.

“A lot of times, when girls apply for something competitive and they get it, there’s this automatic thought, ‘Oh it’s because I’m a girl.’ And that’s not the case here. It’s not that we want girls to go into STEM to promote women’s rights, it’s because these fields need the unique perspective a female can offer.

“It’s not just that we want girls in STEM, it’s that we need girls in STEM,” she added.

CLOSING THE GAP

Participating schools include those in Anniston, Chilton County, Cullman County, Florence, Hoover, Montgomery and Shelby County.

This is the 11^th year for the annual GEMS expo, which has been previously held at Birmingham’s McWane Science Center. This year’s event for the younger girls is still being held at McWane, but the older girls will be at Southern Research.

“The whole Martin Library will be full of Alabama teen and tween girls, showing off projects they have been working on all year,” Lanier said.

Project cover a wide range of topics, such as electric circuits, laws of motion and the makeup of human blood types.

Hands-on projects facilitated by Southern Research that day will include the making of Harry Potter wands. The students will learn about circuits, using a wooden dowel, LED light, battery, copper tape and binder clip.

In other projects, students will build their own wind turbines using 3D printing technology and study ocean acidification using cabbage juice as a universal indicator.

“We are excited and honored to partner with GEMS and support the important mission of closing the gender gap in STEM fields,” said Art Tipton, Ph.D., Southern Research President and CEO. “This aligns perfectly with our own goal of building the pipeline of future researchers and scientists who will tackle the world’s hardest problems for generations to come.”

STEM OUTREACH

Southern Research STEM education — Southern Research expanded its STEM education program to introduce students to careers in science and engineering.

Lanier said she believes the continued efforts toward girls in STEM will have a lasting effect.

“I am the ultimate STEMinist,” she said. “For my generation, being a woman in STEM means you don’t look like everybody else. I don’t fit in with the average STEM person. But I believe our little girls will someday.”

Lanier joined Southern Research in 2017 and has been actively increasing the organization’s STEM outreach efforts across Alabama.

Two or three schools visit the Birmingham campus each week on field trips, getting hands-on experience in the Southern Research STEM lab.

In addition, the application period for SIPSE opened last week. This is a professional development program for high school teachers and provides paid summer internships for 9^th through 12^th grade educators.

SIPSE is expanding this year, from six participants in Birmingham last summer to 12 or 13 in Birmingham this summer, along with one to be placed at The University of Alabama in Tuscaloosa.

Meanwhile, high school students can apply to participate in the Drone Academy Program, a free weeklong summer camp where they will be able to 3D print their own drone.

Southern Research works to spur medical device development in Birmingham

Posted on February 7, 2019

Southern Research’s Stacey Kelpke, Ph.D., believes Birmingham is well equipped to become the next hub for the development of innovative medical devices, thanks to the city’s rich manufacturing heritage and its wide-ranging healthcare expertise,

As director of Southern Research’s Medical Technology program, Kelpke is leading an initiative that aims to harness the broad-based resources already present in Birmingham and in Alabama to make that a reality.

“Our goal is to help establish the Birmingham area as a center for medical device business formation by working in a collaborative fashion to capitalize on the region’s dynamic healthcare sector and its deep roots in manufacturing,” Kelpke said. “It seems natural to fuse those two elements together, combining a new strength with a historic one.”

Southern Research medical devices — Stacey Kelpke directs Southern Research’s Medical Technology program. She wants to see Birmingham become a hub for medical device development.

Kelpke plans to couple Southern Research’s extensive capabilities in fields such as drug discovery and engineering with the Birmingham area’s increasingly vibrant start-up ecosystem to accelerate the development of medical device technologies.

Initial steps in the initiative include:

Southern Research is hosting a MedTech Symposium on Feb. 28 that will bring innovators, policymakers and experts from around the nation to Birmingham to discuss medical device development.
Kelpke has formed an Advisory Board comprised of industry leaders and healthcare executives to generate ideas and lend expertise on how to advance the initiative.
Southern Research is seeking to connect medical device startups and entrepreneurs in Alabama with sources of possible funding that can spur the formation of new enterprises and accelerate the growth of fledgling businesses.
Kelpke has launched efforts to foster community engagement and form new partnerships that can boost medical device development by identifying and promoting resources.

“Southern Research has been translating ideas into innovations with commercial potential for over a half a century in Birmingham,” said Josh Carpenter, director of Innovation and Economic Opportunity for the City of Birmingham.

“With their leadership, expertise, and convening power, Birmingham can sharpen its focus on medical device research and development, enhancing the city’s collective market presence.”

SYMPOSIUM

While Kelpke has been working behind the scenes on the initiative for several months, the MedTech Symposium being held this month at Southern Research will serve as its community debut.

Scheduled speakers include Craig Buerstatte, acting director for the U.S Commerce Department’s Office for Innovation and Entrepreneurship; Tiffany Wilson, CEO of the Global Center for Medical Innovation; and Chris West, president of the Zeroto510, a Memphis, Tennessee-based accelerator that focuses on medical device startups.

In addition, Greg Canfield, secretary of the Alabama Department of Commerce, is scheduled to speak on a panel discussion at the event. Canfield’s department administers the Alabama Innovation Fund, which has provided funding for Southern Research’s efforts in medical device development.

“The symposium gives us a chance to educate the community about the potential of medical device development and to bring in resources that can spark conversations and help us build an environment in Birmingham for innovators in this field,” Kelpke said.

For more information on the seminar or to register, click here.

LEVERAGING EXPERTISE

Southern Research has worked to promote medical device development since 2014 and has provided internal seed funding for more than a dozen medical technology projects in recent years.

Going forward, Southern Research is looking at its own expertise to develop medical technologies and forge collaborations with academic and industrial partners. The organization’s fields of expertise include system designs, imaging, sensors, material testing and additive manufacturing, as well as drug discovery.

Blair King, manager of economic development and existing industry for Alabama Power and a member of the Southern Research Medical Technology advisory board, said Birmingham possesses all the resources needed to spur the development of medical devices.

“With both world-class health care and scientific research taking place in Birmingham, there’s the realistic potential for the development and commercialization of new medical devices and technologies, along with the formation of new jobs,” King said. “Thanks to its multifaceted capabilities and its collaborative skills, Southern Research can work in concert with other organizations to shape an environment where innovation can take place.”

Southern Research expanding additive manufacturing capabilities with key hire

Posted on January 29, 2019

Southern Research announced today that Robert Amaro, a mechanical engineer with expertise in metallurgy and solid modeling, will spearhead an expansion of the organization’s activities in additive manufacturing, a technology revolutionizing how complex aerospace parts and other industrial components are made.

Amaro, Ph.D., joins Birmingham-based Southern Research from The University of Alabama, where he conducted federally funded research on how metals behave in environments that contribute to structural problems such as fatigue, fracture and large-scale deformation.

In his new role as manager of Advanced Materials Technologies, Amaro will help companies in aerospace, energy and other industries better understand the physical properties and performance capabilities of parts produced using additive technologies.

Jim Tucker, director of Materials Research for Southern Research’s Engineering division, said expanding the advanced materials group’s expertise in additive manufacturing will complement its longstanding focus on composites.

Southern Research additive manufacturing — Robert Amaro joins Southern Research to expand the organization’s capabilities in additive manufacturing.

For decades, Southern Research has been considered a world leader in the high-temperature evaluation of composite materials used in heat shields and other components in NASA spacecraft and ballistic missiles.

“Just as composites did, additive manufacturing is changing the whole concept of how high-performance parts are designed and manufactured,” Tucker said. “Southern Research intends to stay at the center of materials testing for a range for industries, and Robert will help position us for the next-generation of advanced materials.”

ENSURING PRECISION

Additive manufacturing – sometimes called 3-D printing – involves techniques that create three-dimensional objects by depositing one superfine layer of material over another. The process is controlled by computer-aided design (CAD) software and can involve laser or electron beams.

Manufacturers are embracing additive technologies because they can rapidly produce intricate parts that are lighter and stronger than ones fabricated using conventional means such as machining.

Because the techniques are so new, however, there can be questions about the structural integrity of components built with additive technologies that require extensive post-build testing.

Amaro said his primary focus will be on coupling Southern Research’s expertise in non-destructive evaluation with process parameter optimization techniques to create in-situ additive manufacturing build process parameter optimization routines. The data collected as part of the closed-loop AM build control routine will then be used to create a digital twin of the AM build.

Ultimately, the AM build data collected for process parameter feedback, coupled with the AM component digital twin, will aid companies and organizations using additive technologies to ensure consistent component builds and high-precision industrial production while simultaneously minimizing and quantifying build defects.

“Basically, we will offer a component build-to-solid model infrastructure that closes the gap between what it is that is being built through additive manufacturing and what is being put into service,” Amaro said. “If we can decrease the amount of time from part inception to the insertion of that part into service, then we have been successful.”

As with composites, the Southern Research team will be able to consult with both manufacturers using additive techniques and end-users of AM-produced parts on the structural integrity and performance characteristics of materials.

RESEARCH FOCUS

Amaro has served as principal investigator for research projects supporting NASA, the U.S. Department of Energy, the U.S. Department of Transportation, and the National Institute of Standards and Technology, or NIST.

His research for NASA focused on modeling friction stir welding processes to achieve optimal welds, while he examined hydrogen-assisted fatigue and failure in pipeline steels and pressure vessels for NIST.

Before arriving in The University of Alabama, Amaro worked in the Colorado School of Mines’ Mechanical Engineering Department and in the Materials Reliability of NIST’s Structural Materials Group. He is the former co-owner of design-build engineering firm and managed projects to construct themed attractions in Tokyo and Berlin.

Amaro holds a doctorate in mechanical engineering from the Georgia Institute of Technology, where he also earned bachelor’s and master’s degrees in the field.

Southern Research moving ‘green chemistry’ team to new Birmingham lab

Posted on January 23, 2019

Southern Research announced today that it has moved a team of scientists working to develop promising clean-energy technologies from North Carolina to a new state-of-the-art laboratory it is opening on the organization’s downtown Birmingham campus.

The research team, led by Amit Goyal, Ph.D., has devised cost-efficient, environmentally friendly methods to produce valuable industrial chemicals from sources such as waste materials and harmful carbon dioxide.

“These leading-edge technologies hold significant potential for commercialization and relocating our talented scientists to an ultra-modern laboratory in Birmingham will help them advance their important work,” said Art Tipton, Ph.D., president and CEO of Southern Research.

“We are committed to supporting the research being conducted by Amit’s team because it fully aligns with Southern Research’s core mission – finding innovative solutions to make the world a better place,” Tipton added.

Southern Research is investing $1 million to outfit an existing 7,200-square-foot building on its Southside campus as the Sustainable Chemistry and Catalysis Laboratory. Work is under way to install pilot-scale chemical reactors and other equipment at the facility. Funds raised through the recent Change Campaign effort are also helping to drive this important project forward.

The lab is expected to be operational by mid-February, and Goyal’s team, comprised of eight researchers, is already working full-time in Birmingham, according to Corey Tyree, Ph.D., senior director in Energy & Environment (E&E) at Southern Research.

“This will be a world-class lab where brilliant inventors are creating new technologies that offer a better way of manufacturing everyday products,” Tyree said. “This group is doing award-winning work, and now that work will be carried out right here in Birmingham, where Southern Research has made many groundbreaking discoveries in its history.”

GREEN TECHNOLOGIES

Green Chemistry Southern Research — Amit Goyal leads a Southern Research working on promising clean-energy technologies that is being relocated from North Carolina to a new lab in Birmingham.

Goyal and his team have developed a method to convert biomass sugars into acrylonitrile, the chemical building block of carbon fiber, which is increasingly used in airplanes, automobiles and other manufactured products because of its strength and light weight.

The Southern Research process to produce acrylonitrile for high-performance carbon fiber is around 20 percent cheaper than conventional production methods and sustainable, lowering greenhouse gas emissions by nearly 40 percent.

Goyal’s team has also developed a process to transform CO₂ into high-value chemicals known as olefins, which are used to make a sweeping range of products such as packaging, plastics, textiles, paints and electronics.

Energy-intensive methods are currently used to produce ethylene and other widely used chemicals in the olefin family, so the Southern Research technology could yield significant environmental benefits while also converting a greenhouse gas.

“This relocation represents an exciting and important opportunity to capitalize on significant Southern Research infrastructure and the scientific community in Birmingham,” said Goyal, director of Sustainable Chemistry and Catalysis for Southern Research. “This puts science at the heart of everything we do because our long-term success depends on improving R&D productivity and achieving scientific leadership.”

EXPANDING CAPABILITIES

Mayor Randall Woodfin welcomed Goyal’s team to the city where Southern Research works to discover and develop new medicines, tackles engineering challenges for major government agencies, and researches energy and environmental technologies.

“Birmingham is increasingly becoming a key location for world-class research and a place where important discoveries are being made on almost a daily basis,” Mayor Woodfin said. “Southern Research’s decision to move its ‘green chemistry’ scientists to a new lab in the city will add to this momentum. I look forward to seeing their work advance in Birmingham.”

As a result of the team’s relocation, Southern Research has closed its office in Durham, North Carolina. The organization’s Environmental Technology Verification team, led by Tim Hansen, P.E., will continue to operate from the city, evaluating new clean technologies around the world.

Tyree said the decision to close the Durham office will yield cost savings and increase efficiency for the non-profit organization. The move also unites the Sustainable Chemistry team with other E&E researchers in Birmingham, who focus on issues such as energy storage systems and solar panel durability.

Southern Research opened the Durham office in 1992 to support work for the U.S. Environmental Protection Agency, which at the time operated a major research and development facility in Research Triangle Park.

In recent years, the work in Durham has focused primarily on various green energy technologies from the U.S. Department of Energy and other customers, making the location in North Carolina less necessary than when it was tied to the EPA work.

Southern Research investigates novel flu vaccine approach

Posted on December 19, 2018

The 2017-18 influenza season was brutal, with nearly 49 million Americans sickened by the flu and almost 1 million of them ending up in the hospital. The death toll was estimated at 79,400.

The most severe influenza outbreak since the 2009 global pandemic was worsened by the fact that the seasonal flu vaccine was less effective than usual. With another flu season just beginning, a question is emerging: Is there a better way to produce vaccines that will boost their overall effectiveness?

To find out, Southern Research is working to help key government health agencies explore a novel approach to creating next-generation flu vaccines that offer more protection and greater predictability.

Typically, flu vaccines are developed based on their ability to prompt the immune system to make antibodies against the most abundant protein on the surface of the influenza virus, known as hemagglutinin, or HA.

But Southern Research scientists are investigating whether a second surface protein, called neuraminidase, or NA, could also be targeted to give vaccines a higher level of protection against flu infections.

“Yes, HA is the dominant protein, but the NA actually plays a role in how the virus infects and spreads to surrounding cells,” said Landon Westfall, Ph.D., an influenza researcher in Southern Research’s Drug Development division. “If you were to block both of those, do you effectively have more of a neutralizing effect?

“We’re starting to take notice of the NA protein’s potential.”

PROVIDING PROTECTION

Usually, flu vaccines provide around 60 percent effectiveness, meaning a vaccination reduces a person’s overall risk of having to seek medical care for flu illness by 60 percent.

But in some years, the protection is less.

Last year’s vaccine was below par, with overall effectiveness estimated by the Centers for Disease Control and Prevention (CDC) to be 40 percent. Against the H3N2 virus, the predominant strain during the 2017-18 flu season, the vaccine’s effectiveness was measured at just 25 percent.

Mutations in the vaccine virus are the most likely explanation. This mutation meant that the neutralizing antibody triggered by the vaccine wouldn’t bind properly to the HA protein on the flu virus’ surface, reducing effectiveness, Westfall said.

“The vaccine is grown in eggs, and the virus that was put into the eggs was not the same virus that came out,” he said.

So far, this year’s flu season is off to slow start, with most states reporting minimal activity as of early December. Recent data, however, indicates flu levels are on the rise throughout the United States, according to the CDC’s Weekly U.S. Influenza Surveillance Report. That suggests that the vaccine is more effective this year, particularly against H1N1, the main flu strain that’s circulating in the nation.

Southern Research flu vaccine — Landon Westfall is an infectious disease scientist at Southern Research.

“As I recommend to everyone, even if the flu vaccine is not as effective as wewant, it still provides a level of protection,” Westfall said. “It’s important that everyone at least have that on board because even it if reduces the virulence of the viral infection only a little bit, it could mean the difference between life and death for some individuals.”

NEW VACCINE APPROACH

Vaccine makers have long concentrated on the HA protein in the evaluation and development of their flu vaccines. Recent research, however, has shown that anti-NA antibodies may be more important than anti-HA antibodies for protecting people from severe flu systems.

Westfall said that has important implications for vaccines, which in the future could also have an NA component.

He said Southern Research is working with government health agencies to develop an assay that can better detect anti-NA antibodies as part of a clinical trial. The goal is find a combination that leads to increased efficacy and provides greater predictability about how the vaccine will protect against certain flu strains.

“We’re trying to see if there is any type of proportional response between the proteins to see if the vaccine needs, say 75 percent HA and 25 percent NA, to reach an overall level of 65 percent protection,” Westfall said.

Birmingham-based Southern Research has been heavily involved in U.S. government influenza programs since 2004, when H5N1, or bird flu, emerged as a serious threat. Since 2009, the organization has supported the government as a primary provider of flu vaccine testing and support.

Southern Research has worked extensively on influenza projects in support of clinical trials for the National Institutes of Health (NIH), the National Institute of Allergy and Infectious Disease (NIAID) and the Biomedical Advanced Research and Development Authority (BARDA).

STEM Day provides students with close-up look at science careers

Posted on November 30, 2018

BIRMINGHAM, Alabama – More than 100 students from across Alabama went behind the scenes at Southern Research on Thursday in an event designed to spark their interest in STEM-related careers.

Students from Jefferson, Mobile and Wilcox counties participated in the 5^th Annual STEM Day, which has grown from 20 participants at its inception to 103 this week.

The event is part of Southern Research’s expanding STEM education efforts, which are helping to build the state’s next-generation workforce, said Kathryn Lanier, Ph.D., STEM education outreach director.

“I always say that I have the coolest job in the world, because we really are building a ‘STEMpire’ from the ground up,” she said. “We get to be creative and find new ways to do the right thing, which is educating kids and preparing them for the future.”

Lanier cited statistics from testing provider ACT that show more than half of Alabama students have an interest in STEM majors or careers. But just 11 percent meet benchmarks for STEM subjects.

“We have a lot of work to do, and there’s a big impact we can make,” she said.

CAREER PATHWAY

Liz Johnson, Ph.D., who joined Southern Research this fall as STEM education specialist, said STEM Day can help students turn their passion for science into a career.

“It’s awesome that we can give these students an opportunity to see what it’s like to be a real-life scientist or engineer,” she said. “It’s one thing to see them on TV or elsewhere in the media, but to actually get in the lab and participate helps open students’ eyes to new opportunities.”

STEM Day featured multidisciplinary, hands-on experiments across Southern Research’s focus areas, including Drug Discovery, Drug Development, Engineering and Energy & Environment.

Participants also had lunch with scientists and members of the Jefferson County Legislative Delegation.

Sonya Scott, who teaches chemistry at Mobile County’s Mary G. Montgomery High School, said STEM Day is a valuable experience for students and teachers.

For students, it’s an opportunity to see what scientists do every day and learn about the path to their careers.

“They’re also seeing how chemistry crosses with biology, and they’re using techniques in the lab we haven’t done, as well as different instruments we don’t have access to,” she said.

Scott said she also learned a lot about Southern Research’s ground-breaking research and discoveries. And the students’ experience in the lab will support her classroom instruction.

“Chemistry can be very abstract in the classroom, especially when we talk about nanoliters and microliters, units that are so tiny. Today, they were able to see that professionals actually use these things, and it’s not just something I’m telling them they need to know,” she said.

‘MAKING CHANGE HAPPEN’

Kelsey Kennedy, an environmental science teacher at Wilcox Central High School, said her students were excited to attend STEM Day and talked about it all week before the trip.

“We come from a low-income county, and this is a great opportunity for our students,” she said. “Our school’s motto is ‘Excellence is the Only Standard,’ and this event fits in well with that.”

One of those students, junior Makayla Kidd, said she learned a lot from an experiment that separated hydrogen from oxygen and carbon.

Kidd said she previously didn’t have an interest in the STEM field, but now she wants to learn more about its careers and majors.

“This is something I really enjoy doing, and I plan on doing a lot more of it,” she said.

Art Tipton, Ph.D., Southern Research president and CEO, said the organization is proud to host STEM Day.

“We are thrilled to again host this annual event that seeks to broaden the minds of interested students and help shape the next generation of researchers and scientists,” he said. “These real-world experiments serve as inspirational, aspirational and educational ways to promote STEM-related fields to those who will one day lead the charge in making change happen globally.”

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STEM Day provides students with close-up look at science careers