CONTACT: Kathleen Haughney, University Communications
(850) 644-1489; khaughney@fsu.edu

@FSUResearch

Feb. 1, 2017

FSU SCIENTISTS RECEIVE $2.17M FROM STATE TO COMBAT ZIKA VIRUS

TALLAHASSEE, Fla. — Florida State University scientists received nearly $2.17 million from the Florida Department of Health as part of a state initiative to develop treatment and prevention methods related to the Zika virus.

“We are pleased with the Department of Health’s faith in Florida State as a partner to combat the effects of the Zika virus,” said Associate Vice President for Research Ross Ellington. “The research conducted by our faculty will help move the needle as scientists and doctors work to find a cure for this devastating disease.”

Gov. Rick Scott awarded 34 grants to 10 institutions totaling $25 million as part of this effort. More than 1,000 people in Florida were diagnosed with travel-related Zika cases in 2016, according to the Department of Health.

The money received by Florida State is divided among three projects:

• Assistant Vice President for Research Eric Holmes and Vice President for Research Gary K. Ostrander, who is also a professor of biomedical sciences, will receive $1.1 million for human clinical trials involving the drug niclosamide. This drug is currently on the market for tapeworm infections, but researchers found in lab studies that it can also be effective in combating the Zika virus.
• Associate Professor of Biomedical Sciences Timothy Megraw will receive $856,750 to understand the mechanisms by which the Zika virus activates the microtubule-organizing activity in the centrosome and to identify drugs that interfere with this process, blocking the spread of the virus.
• Assistant Professor of Biomedical Sciences David Meckes will receive $199,280 to identify markers in pregnant women that let doctors know if the fetus has been infected with the Zika virus. Meckes’ lab is working with scientists and physicians in Puerto Rico to obtain samples from pregnant women who have either tested positive or negative for the Zika virus.

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CONTACT: Doug Carlson
(850) 645-1255; doug.carlson@med.fsu.edu

March 16, 2017

FLORIDA STATE MEDICAL STUDENTS TO MEET THEIR MATCH

On Friday, the 118 members of the Florida State University College of Medicine Class of 2017 expect to find out where they will receive residency training — a defining moment in their medical careers — during a Match Day ceremony.

The students will simultaneously open envelopes, learning for the first time where they will spend the next three to seven years completing training in the medical specialty they will practice. Among the graduating students participating is former FSU football All-American and Rhodes Scholar Myron Rolle.

Graduating students at M.D.-granting medical schools across the United States receive their match information at the same time through the National Resident Matching Program, the primary system that matches applicants to residency programs with available positions at U.S. teaching hospitals.

The ceremony will take place:

FRIDAY, MARCH 17

NOON

RUBY DIAMOND CONCERT HALL

WESTCOTT BUILDING, 222 S. COPELAND ST.

FLORIDA STATE UNIVERSITY

TALLAHASSEE, FLORIDA

The ceremony can also be viewed online. Visit /matchday for parking and map information, as well as details about the webcast.

CONTACT: Doug Carlson, FSU College of Medicine
(850) 645-1255; doug.carlson@med.fsu.edu

March 17, 2017

FLORIDA STATE UNIVERSITY COLLEGE OF MEDICINE ANNOUNCES MATCH DAY RESULTS

TALLAHASSEE, Fla. — Graduating students in the Florida State University College of Medicine Class of 2017 received notification today of where they will enter residency training this summer.

Of the 117 graduating students who registered in the matching program, 60 (51 percent) matched in a primary care specialty, including internal medicine, family medicine, pediatrics and obstetrics/gynecology.

Other students matched today in emergency medicine, anesthesiology, general surgery, psychiatry, orthopedic surgery, dermatology, otolaryngology, child neurology, neurological surgery, neurology, ophthalmology, diagnostic radiology and interventional radiology.

Former FSU football All-American and Rhodes Scholar Myron Rolle matched in the Harvard Medical School neurosurgery program at Massachusetts General Hospital.

Nine students matched in Tallahassee, including seven with residency programs sponsored by the College of Medicine. Three each matched with the general surgery and internal medicine programs at Tallahassee Memorial Hospital, and one matched in dermatology with Dermatology Associates. The two other students matching in Tallahassee did so with TMH’s family medicine residency program.

Forty students matched in Florida, a state that ranks 42nd nationally in the number of available residency slots. Of those, eight matched with programs sponsored by the FSU College of Medicine (the seven in Tallahassee, plus one in family medicine at Lee Health in Fort Myers).

“I am very proud again to see our students successfully match in wonderful programs throughout the country,” said College of Medicine Dean John P. Fogarty. “We are pleased that eight of our graduates matched in residency programs that we’ve started in the past six years. We’ll continue to build capacity so that more of our graduates are able to stay in Florida in the future.”

The residency match, conducted annually by the National Resident Matching Program, is the primary system that matches applicants to residency programs with available positions at U.S. teaching hospitals. Graduating medical students across the country receive their match information at the same time on the same day.

For information about current and past Match Day results, visit /alumnifriends/residency-match-day-results

To see where past College of Medicine graduates are practicing, visit http://public.med.fsu.edu/alumni/alumni.aspx?class=2005.

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CONTACT: Dennis Schnittker, University Communications
(850) 644-4030; dschnitt@fsu.edu

March 27, 2017

FLORIDA STATE RECEIVES RECORD NUMBER OF APPLICATIONS

TALLAHASSEE, Fla. — Florida State University is more popular than ever among prospective first-time college students as a record number of applications were received for admission to the 2017 summer and fall semesters.

This year’s total application number of 42,325 announced on Thursday, March 16 — FSU’s second and final decision day — is a 16 percent jump over last year’s total of 36,429.

“The upward trend of applicants for admission to Florida State University reflects that more and more people in Florida, and across the country, know that FSU represents academic excellence,” said President John Thrasher. “We intend to stay on this path as we strive for higher national prominence. We are thrilled to welcome such a talented freshman class.”

Admission notices were released on December 8 and March 16. Together, the cohort admitted represents the academically strongest in university history and boasts an average GPA of 4.1 and an average ACT score of 29.

FSU Director of Admissions Hege Ferguson said the record number of applicants demonstrates the strength of Florida State’s reputation as a high-quality institution that prepares students for success.

“We are looking forward to welcoming the class of 2021 to the Florida State family,” Ferguson said. “They are shaping up as an exceptional class — our brightest ever based on their academic profile.”

FSU continues to attract more and more students into the STEM disciplines. The top five majors selected by this year’s admitted freshman class are: biological sciences, pre-health professions, business, engineering and psychology. The pre-health professions major was established last year by the College of Medicine in partnership with six other colleges for students who intend to apply to medical school, dental school, physician assistant programs and a number of other healthcare professions from hospital management to medical data analyst.

Students with admission notices have until May 1 to confirm whether they will enroll. FSU expects to enroll 6,400 freshmen in its 2021 class.

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CONTACT: Veronica Jones, FSU Autism Institute
(850) 488-4072; veronica.jones@med.fsu.edu

April 13, 2017

FSU AUTISM INSTITUTE LAUNCHES WEB-BASED FAMILY ECOSYSTEM TO JUMP-START EARLY INTERVENTION

TALLAHASSEE, Fla. — Waiting for children to develop on their own is one reason so many toddlers with autism go undiagnosed. A delay in treatment can result in the loss of precious months or years when interventions are able to dramatically affect outcomes.

The Autism Institute at Florida State University has launched a new early intervention approach called the Family Ecosystem. It’s a system of care developed in partnership with Autism Navigator and the FIRST WORDS Project.

By integrating automated screening beginning at 9 months with evidence-based online courses, tools and resources, the Family Ecosystem is designed to improve early detection of communication delays and autism, help families get a jump-start on early intervention and facilitate their access to care for a better outcome.

While the signs of autism can be detected by 18 to 24 months, the average age of diagnosis is between 4 and 5 years old, when early intervention is no longer possible. By then, 80 percent of school-age children who qualify for special education miss the opportunity for early intervention. Screening in primary care is challenging, and the early-intervention system is overburdened. Too often the results are substantial societal costs and lifetime consequences for children with autism spectrum disorder (ASD) and their families.

Autism Navigator integrates the Family Ecosystem and current research into a highly interactive web platform with extensive video footage to illustrate early learning and development, early signs of autism and early intervention. It provides hundreds of video illustrations of evidence-based intervention techniques that families can incorporate into everyday activities to support their child’s learning and development as soon as they suspect autism.

The first course for the public, About Autism in Toddlers, was originally released in April 2015 and has more than 12,000 users in 115 countries. Autism Navigator now offers a collection of web-based courses for professionals who screen toddlers, make referrals and provide early intervention. Those who complete the Autism Navigator for Primary Care course can begin using the Early Screening for Autism and Communication Disorders (ESAC), a new innovative screener for children 12 to 36 months old that is based on parent reports and uses “smart” technology. Families are then invited to the parent portal, where they have unlimited access to online courses, tools and resources in the Seamless Path for Families.

Autism Navigator is helping to bridge the gap between science and community practice, improve family access to care, train and guide professionals, and transform community-based systems of health care delivery and education for toddlers with ASD and their families.

“By leveraging technology, systemwide changes in early detection and early intervention practices for toddlers with autism are viable and sustainable,” said Amy M. Wetherby, Distinguished Research Professor in the Department of Clinical Sciences and director of the Autism Institute at the FSU College of Medicine. “The Autism Navigator web platform is advancing science by providing a practical, achievable mechanism for identifying autism at very young ages through community-based screening. This is enabling genetic, biomedical and intervention research to study children younger than was previously possible, given the usual age of diagnosis, and help to accelerate scientific advances.”

Autism Navigator is available at http://www.autismnavigator.com/ and is being deployed globally. Each course and tool is designed to increase the capacity of health care professionals, early intervention providers, educators and families to improve outcomes of young children with ASD.

“Our vision,” Wetherby said, “is to make Autism Navigator courses, tools and resources free to families and utilize the fees associated with the professional development courses to fund ongoing research and development.”

About the FIRST WORDS® Project
The FIRST WORDS Project is a longitudinal research investigation in the Florida State University Autism Institute in the College of Medicine directed by Dr. Amy Wetherby. The major goal is to identify early signs of developmental language disorders, ASD and other communication delays in children from 9 to 24 months of age.

About Autism Navigator Development Team
Autism Navigator was developed by faculty and staff in the Autism Institute at the Florida State University College of Medicine with funding from the state of Florida. Research and video clips from the FIRST WORDSand Early Social Interaction Projects contributed to its content.

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CONTACT: Ron Hartung, FSU College of Medicine
(850) 645-9205; ronald.hartung@med.fsu.edu

May 18, 2017

FSU STUDY REPORTS ENCOURAGING TREND IN INFANT MORTALITY

TALLAHASSEE, Fla. — Eighteen states are on track to eliminate racial disparities in infant mortality by the year 2050 if current trends hold — sooner if they accelerate — according to a newly published paper from researchers at Florida State University’s College of Medicine.

The study projects more than 4,000 babies a year could be saved by eliminating black-white disparities in those states. It’s a rare bit of encouraging news on infant mortality, which persistently afflicts black babies more than white babies despite nationwide prevention efforts.

Lead author Joedrecka S. Brown Speights, associate professor of family medicine and rural health, called the study’s results a welcome surprise.

“Racial equality in infant survival is achievable,” Brown Speights said. “But more needs to be done if we want to see it in our lifetimes.”

In 2013, the non-Hispanic black infant mortality rate in the U.S. was 11.1 per 1,000 live births, compared with 5.1 for non-Hispanic whites. The black rate has remained at least double the white rate for decades. The paper, based on data from the past 15 years, stated much research has “exuded a sense of inevitability” about the seemingly unshrinkable gap.

Researchers conclude racial disparities in infant mortality reflect larger inequalities in the health status of different populations. Those gaps are caused by a wide range of factors, including housing and food, economic status, structural and relational racism, insurance coverage, health-care access, as well as positive factors such as resiliency and social support.
Florida is not one of the 18 states leading the way. Researchers predict it will take at least 49 years, but probably much longer, for Florida to eliminate differences in black-white infant death rates if current trend lines remain constant.

“A more conservative calculation,” said co-author George Rust, professor in the department of behavioral sciences and social medicine, “puts Florida’s estimated ‘date of equality’ at 2213 or nearly a century from now.”

The study, “State-Level Progress in Reducing the Black-White Infant Mortality Gap, United States, 1999-2013,” was published in the American Journal of Public Health.

Researchers didn’t set out to determine why certain states performed better than others. Answering that question comes later. First, their objective was to establish U.S. trends.

They used a research technique that Rust and co-author Robert Levine, with the Baylor University College of Medicine, have used successfully to gauge states’ progress on such conditions as breast cancer and colorectal cancer.

They measured two trend lines simultaneously: A reduction in the black infant mortality rate was characterized as “optimal” improvement, and a reduction in the disparities between black and white rates was characterized as “equitable” improvement.

Digesting the data for each state, they calculated when the black-white gap would disappear if current trends continued. Massachusetts ranked No. 1 for having the lowest black infant mortality rate and No. 1 in making the greatest percentage gain toward equality in its black-white rate ratio. Georgia was the only Southeastern state in the top 18.

The United States has made progress. Between 2000 and 2013, overall infant mortality rates declined 13 percent. In this latest study, every state improved its survival rate for black babies over the 13-year time period.

“Usually all you hear about are the disparities that won’t go away,” Brown Speights said. “That can be discouraging. Now, though, this study is saying that some states are trending in the right direction. Let’s look at them. Let’s ask them: ‘What did you do?’ Maybe they’ll say, ‘We don’t know!’ Maybe it’s a lot of factors. We could guess what those factors might be. But for each community, they may be a little different.”

Finding out what those 18 states are doing right won’t be fast and won’t be easy, she said. But she hopes this latest study will energize researchers and community members, including her fellow volunteers in the Tallahassee area’s Maternal Child Health Equity Collaborative.

“Some states are on the right track,” Brown Speights said. “Now we have a benchmark that we can hold ourselves accountable to. That gives me hope.”

*****

Besides Brown Speights and Rust, the FSU College of Medicine co-authors of the American Journal of Public Health paper are Les Beitsch, chair of the Department of Behavioral Sciences and Social Medicine, and Samantha Goldfarb and Brittny Wells, both research faculty members in the department.

Partnering in or with the Maternal Child Health Equity Collaborative are the Florida A&M University College of Pharmacy and Pharmaceutical Sciences; including the Institute of Public Health and Center for Health Equity; the Florida State University College of Medicine; the FSU Center on Better Health and Life for Underserved Populations; the Bond Community Health Center; the C.H. Mason Bible Institute of Tallahassee; the Destiny Church of God; the Destiny Center; the Florida Department of Health, statewide and in Leon County, including WIC; the Capital Area Healthy Start Coalition; the Gadsden County Area Healthy Start Coalition; the Gadsden Arts Center and Museum; the Greater Frenchtown Revitalization Council; The Links Inc.; Tallahassee Memorial HealthCare- Women’s Pavilion; Whole Child Leon; women advocates impacted by infant mortality; and participants in the College of Medicine’s SSTRIDE outreach program.

Funding for this research was made possible in part by R13MD011260-01 from the National Institute on Minority Health and Health Disparities.

CONTACT: Doug Carlson, FSU College of Medicine
(850) 645-1255; doug.carlson@med.fsu.edu

May 31, 2017

FSU RESEARCHERS RECEIVE $2.8 MILLION GRANT TO SEARCH FOR THE ORIGIN OF PERSONALITY TRAITS IMPACTING LONGEVITY

TALLAHASSEE, Fla. — Our personality predicts more than just the type of friends we may have. It also provides significant clues about our health and can even predict how long we might live.

Yet little is known about how our personality forms relative to what we know about its consequences on health across the lifespan.

Florida State University College of Medicine Assistant Professor Angelina Sutin is seeking answers with the help of a $2.8 million National Institutes of Health grant.

As part of a five-year study, her team will work to identify prenatal and childhood neighborhood risk factors contributing to the development of personality traits most consequential for healthy aging. A better understanding of these relationships is the first step toward earlier interventions for improving health outcomes.

A number of biological, social and behavioral influences affect pregnancy. Did the mother smoke, drink, use drugs, suffer from depression or experience physical or mental abuse?

In childhood, similar influences vary from child to child depending on where they lived and the relative socioeconomic factors in play.

“The broader goal is to understand where personality comes from in childhood to have a better sense of how we could intervene,” Sutin said. “One thing we are looking at, for example, is what factors might be involved in helping some kids to be more resilient than others.”

Sutin plans to integrate three established frameworks of health research addressing those factors into one theoretical model examining the influences on formation of personality — and the eventual health consequences. She will be assisted by FSU College of Medicine faculty researchers from the departments of behavioral sciences and social medicine, biomedical sciences and geriatrics.

The research centers on three longtime behavioral and biological health studies conducted in the United States, United Kingdom and Australia. The studies, involving thousands of participants assessed over a span of several decades, look at risk factors ranging from prenatal health to childhood place of residence.

• The study from the United Kingdom includes more than 10,000 participants recruited in the early 1990s. Pregnant women agreed to give blood samples and answer questions about behavior such as smoking habits or use of drugs and alcohol. The majority of women, their partners and children continue to participate in regular assessments to examine environmental and genetic factors affecting health and development. “It’s great to have both biological markers from when the mom was pregnant, and behavioral and life-circumstance data when the mom was answering for what was happening in the moment, rather than recalling her memories of pregnancy from years earlier,” Sutin said.

• The study from Australia follows the development of 10,000 children and families from all parts of the country. Families with children 4 or 5 years old and families with infants up to age 1 were recruited into the study and are reassessed every two years. The study focuses on how social, economic and cultural environments affect a child’s adjustment and well-being.

•  The study from the United States was designed to identify sources of persistent health disparities in overall longevity, cardiovascular disease and cerebrovascular disease through influences of socioeconomic status. The study includes information on where about 2,000 children grew up and lived at age 16.

The U.S. study will allow Sutin to look more closely at relative neighborhood safety, family income and education and potential links with health outcomes.

“Even though the participants in these studies are from three completely different cultural contexts, if you grow up in vulnerable circumstances, regardless of where it is, it’s still vulnerable circumstances,” Sutin said. “We’re going to be able to look at that in early childhood with the Australian and the English data, young adulthood in the English data and middle adulthood into old age with the U.S. data.”

Leslie Beitsch, chair of the department of behavioral sciences and social medicine, said Sutin is renowned for her exceptional research.

“Dr. Sutin’s work is often cited in the lay press but is even more influential within health psychology academic circles, and it’s easy to understand why,” Beitsch said. “Projects like this offer the potential to unlock new therapeutic pathways that enable people to experience more optimal health across the life course.”

Sutin, College of Medicine Associate Professor of Geriatrics Antonio Terracciano and others have published research showing that those who show more conscientiousness generally experience better health outcomes and greater longevity. Neuroticism leads in the other direction.

Managing health behaviors associated with conscientiousness and neuroticism, then, could be an effective intervention to address health problems.

In the ongoing study, Sutin hopes to gain understanding about how these traits emerge, potentially leading to new ways of mitigating unwanted behaviors linked to personality.

“This project really began with thinking about where personality traits come from,” she said. “It makes more sense to intervene at the source rather than later in life.”

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CONTACT: Gail Bellamy, 850-644-3454; 304-543-2138; gail.bellamy@med.fsu.edu
Doug Carlson, 850-694-3735; doug.carlson@med.fsu.edu

May 31, 2017

BUS TRIPS GIVE FSU MEDICAL STUDENTS GLIMPSE OF RURAL MEDICINE

Friday, first-year College of Medicine students will board buses and fan out across North Florida to explore rural health care. It’s the FSU College of Medicine Rural Learning Experience (RuLE), sponsored by the Florida Blue Foundation. The idea is to increase students’ familiarity with rural health – and the possibility that they’ll practice rural medicine – by exposing them early to rural communities and health providers.

This year four buses will depart, each with 30 first-year students, several second-year students, several master’s students, plus faculty and staff from the College of Medicine. The destinations are:
• Bristol in Liberty County and Blountstown in Calhoun County.
• Madison in Madison County.
• Perry in Taylor County.
• Quincy in Gadsden County.

In addition to visiting rural hospitals, health departments, and medical and dental practices, they will meet and hear from primary-care physicians (including College of Medicine alumni), nurse practitioners, administrators, community leaders, and second-year medical students who participated in the 2016 RuLE. Bus trips will take place:

FRIDAY, JUNE 2

TO INTERVIEW PARTICIPANTS BEFORE THEY LEAVE TALLAHASSEE
Interview and photo opportunities:
8:05 A.M. (MADISON)
8:10 A.M. (BRISTOL)
8:10 A.M. (QUINCY)
8:40 A.M. (PERRY)

FSU COLLEGE OF MEDICINE
1115 W. CALL ST., TALLAHASSEE
(All buses expected to return around 4-5:30 p.m.)
Directions: From downtown, travel west on Tennessee Street and turn left on Stadium Drive. The College of Medicine is at Stadium and Call Street. Press parking will be available by RSVP.

TO INTERVIEW PARTICIPANTS IN THE RURAL COMMUNITIES
Join the groups between 10:30 a.m. and 1:30 p.m. in any of the towns listed above. Call or text a trip coordinator in the town of your choice. Here is the contact information:
BRISTOL: Brigitta Nuccio, 850-693-0789
MADISON: Terri Johnson, 850-544-0022
PERRY: Gail Bellamy, 304-543-2138
QUINCY: Susan LaJoie, 850-294-1450

Visit /ruralhealth/home for more on the rural health programs.

# # #

CONTACT: Doug Carlson, FSU College of Medicine
(850) 645-1255; doug.carlson@med.fsu.edu

June 28, 2017

TALLAHASSEE, Fla. — All cells, from bacteria to humans, must be able to rid themselves of damaged or unneeded proteins in order to remain healthy.

Understanding how cells perform this vital task has become a source for discovering new and potentially more effective ways of treating diseases ranging from cancer to neurodegenerative disorders.

The process is a research focal point for Robert J. Tomko Jr., assistant professor of biomedical sciences at the Florida State University College of Medicine. He recently received a $1.5 million National Institutes of Health grant to dig deeper into how cells dispose of their protein waste.

The endpoint for these proteins is the proteasome, a “machine” assembled within cells and responsible for removing unwanted debris. Many human diseases are caused or sustained by either too much or too little proteasome activity. Turning the proteasome off has shown great promise in the treatment of several cancers, whereas turning it back on could help treat many neurodegenerative diseases.

The proteasome consists of three functional units: a processing unit (or lid); a motor (or base) that uses cellular energy to power the machine; and a core particle, capable of breaking chemical bonds within proteins.

Once these three units assemble, they form a fully functional protein-destroying machine. The three units then work together to process proteins destined for destruction: The lid removes the delivery signal from the incoming proteins, the base unfolds them into amino acid strings and the core particle then chops those strings into little pieces.

“We want to understand how the individual contacts between these different units allow them to coordinate with one another, so that as they each do their respective jobs to process proteins that need to be destroyed, they can make sure they are in step with one another,” Tomko said.

He likens it to gears fitting together in an engine.

“For it to work, each step has to happen in the appropriate order and in a coordinated fashion,” he said. “We want to know how that happens. Right now, we have pictures of what the proteasome looks like during different steps of this protein processing, but we don’t really know how we get from State A to State B to State C.”

A key element in understanding the process is determining what causes it to fail. Inactive proteasomes and the resultant accumulation of toxic, damaged proteins are a hallmark of many neurodegenerative disorders, such as Alzheimer’s and Parkinson’s. Understanding how the proteasome is activated could provide important information on how it could be turned back on in patients suffering from these diseases.

“Our goal with this research really is to try to understand the events that drive proper activation of the proteasome,” Tomko said. “How is the signal transmitted throughout the entire machine from a spot that is, in many cases, highly localized and away from the parts that actually receive it? And then to see if we can devise clever ways to either trigger that activation or prevent it with small molecules or other approaches that could be further developed into therapeutics.”

The key, according to Tomko, is to understand what drives the proteasome’s relay system.

“If we know how it works, we can make it work to our advantage in fighting diseases,” he said.

CONTACT: Kathleen Haughney, University Communications
(850) 644-1489; khaughney@fsu.edu

@FSUResearch

July 2017

TALLAHASSEE, Fla. — Zika drugs to stop microcephaly. A tool to help teachers sort through troves of testing data to see who is struggling and where. Plasma technology that could help organic farmers better care for their crops.

Those are just a few of the new Florida State University-driven technologies that are being licensed to companies that will take them from the laboratory to the global marketplace.

Florida State University signed several licenses in the past fiscal year. Additionally, during the 2016 calendar year, the university patented 48 technologies, making it one of the top producers of patents in the country. A report by the National Academy of Inventors and the Intellectual Property Owners Association ranked FSU 49th for patent production.

“FSU researchers are developing new technologies every day that not only help make the world a better place, but also represent significant business opportunities,” said Brent Edington, director of the Florida State University Office of Commercialization. “These new technologies have been licensed to companies that will expose FSU innovation and research to a broader audience.”

Here are a few highlights of the licenses signed this past fiscal year.

• Zika drugs and diagnostic tools: Potential drugs to combat the Zika virus have been developed by FSU scientists and licensed to Spotlight Innovation, a pharmaceutical company advancing technologies to combat rare or emerging diseases. Professor of Biological Science Hengli Tang’s laboratory is working with researchers at the NIH and Johns Hopkins University to identify a panel of potential drug compounds that could be used to treat the disease. Tang has also developed monoclonal antibodies to Zika virus proteins, which can be used to identify the Zika virus. Rights to these monoclonal antibodies have been licensed to a local company, BioFront Technologies.

• Plasma systems for organic farming: FAMU-FSU College of Engineering Professor Bruce Locke developed technology that uses natural elements and plasma to deliver organic fertilizer to plants and mitigate the environmental impact of growing food. The FSU Research Foundation has signed a license agreement with Advanced Fertilizer Systems to develop and use this technology.

• Health indicators for corporate wellness: Psychology Professor Brad Schmidt developed a web-based application that provides tools that help promote healthy living skills. It provides tips related to diet and exercise, sleep hygiene, water consumption and other health-related issues. The technology has been licensed to Yo-Fi Wellness, Inc., which already provides tools for corporate wellness. Yo-Fi Wellness plans to incorporate this into their existing materials for a broader health-related application called Healthy U.

• Better testing materials: Yaacov Petscher, director of research for the Florida Center for Reading Research at FSU, has developed a new app that provides more in-depth analytics to help teachers predict who is struggling and how to help these students make up lost ground. Current tests only show present-day ability, while Petscher’s diagnostic tool uses the scores from those tests to predict potential hurdles for students in the future. The technology has been licensed to the University of Oregon’s Center on Teaching and Learning and the RMC Research Corporation, which distributes testing and educational materials in classrooms nationwide.

• An education toolkit for marine biology: Lost Key Media, the publisher of Guy Harvey magazine, has partnered with CPALMS, an online education curriculum platform to provide fish and marine science content created by Guy Harvey. CPALMS was developed by researcher Rabieh Razzouk at the Learning Systems Institute. It is endorsed by the Florida Department of Education and reaches 60,000 unique visitors daily.

• Screening procedure to identify drugs to inhibit fibrosis: Thrivant, a Tallahassee-based company, has licensed technology that makes significant advancements in screening potential drugs to treat liver fibrosis. Professor of Biomedical Sciences Branko Stefanovic has been working on fibrosis research for several years and developed this tool while also investigating treatment for the disease. Liver fibrosis is often a precursor to cirrhosis, the final state of liver disease where the liver is barely functioning.