Monday, December 26, 2016

It's Flu Season!

While it isn’t possible to put a date on when it starts and ends, influenza (the viruses that cause the flu) activity often increases in October/November and peaks between December and March. When it hits your home, school or work, it may seem easy to observe how effortlessly the virus spreads.

While vaccination coverage among health care professionals that work directly with patients in a traditional care facility is rising, focus on increasing that rate can help reduce the rate of infection even further.

Flu Facts Flu Vaccine Facts
  • Anyone can get sick from the flu. Seriousness can be mild to severe and in some cases lead to death.
  • The virus is most commonly spread through fluid droplets of an infected person talking, coughing or sneezing.
  • Symptoms appear 1-7 days after becoming sick. Some may not have any symptoms. The virus can be spread to others even before symptoms appear.
  • Flu vaccines are safe and serious problems are very rare. The most common is soreness around the injection.
  • Flu vaccines are made with either killed or weakened viruses and cannot cause the flu.
  • Although viruses are unpredictable, the vaccine protects against those that research indicates to be most common during the upcoming season.

Does the influenza virus change?

Constantly changing, influenza may do so by “drift” or by “shift.”

Antigenic Drift – Small genetic changes can occur during the virus replication cycle. Often, if a person has already been exposed to a particular virus, their antibodies will still recognize and fight this slightly different virus. This called cross-protection. However, if enough changes accumulate, the previous antibodies may not be effective.

To keep up with antigenic drift, the composition of flu vaccines is continually reviewed, predictions made about which should be addressed and regional recommendations made based on prevalence.

Antigenic Shift – An abrupt or major change in the virus—resulting in a new combination of genes in the virus—can shift a virus that previously infected animals to being able to infect people. Often when a shift occurs, most people have little or no antibody protection against the virus. This fact is what allows the virus to spread quickly and can result in a pandemic.

To avoid antigenic shift, strategies such as limiting exposure to diseased animals, vaccinating livestock and vaccinating farmers for similar viruses to promote cross-protection are in place.

Flu vaccination recommended for healthcare providers.

As of November 1, 2016, the Centers for Disease Control and Prevention’s (CDC), Advisory Committee on Immunization Practices (ACIP), and the Healthcare Infection Control Practices Advisory Committee (HICPAC) recommend that all U.S. health care workers* get vaccinated annually against influenza. Unfortunately, the two most common reasons reported for not getting vaccinated include thinking that the flu vaccine doesn’t work or not thinking it is important to get.

Breaking the chain of infection through health care workers can help decrease the spread of the virus to vulnerable individuals that come under their care as well help limit antigenic drift. During the 2014-15 flu season, 64.3% of health care personnel were vaccinated. Unfortunately, those that worked in long-term care facilities—generally providing care to the elderly or other vulnerable individuals—had the lowest coverage at 54.4%. Across all types of facilities, vaccine coverage was 85.8% for those whose employers who required it, 68.4% when recommended by the employer and only 43.4% when there was no policy or recommendation in place.

Does the facility you work at have a policy or provide incentives regarding the flu vaccine? 

If not, share this article now! Helping to dispel myths about the flu vaccine and promote its purpose among health care professionals and facility managers is an important step in flu prevention. Explore at http://www.cdc.gov/flu/healthcareworkers.htm


*Health care workers include (but are not limited to) physicians, nurses, nursing assistants, therapists, technicians, emergency medical service personnel, dental personnel, pharmacists, laboratory personnel, autopsy personnel, students and trainees, contractual staff not employed by the health-care facility, and persons (e.g., clerical, dietary, housekeeping, laundry, security, maintenance, administrative, billing, and volunteers) not directly involved in patient care but potentially exposed to infectious agents that can be transmitted to and from health care workers and patients.


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Monday, December 19, 2016

Learning the Value of International Research in Ghana

Over the summer of 2016, four MPH students, one medical student and one MPH faculty took part in ongoing research projects over five weeks in Ghana. Staying on campus at the teaching hospital, Kuomfo Anokye, in Kumasi, students worked to
  • collect data to help predict risk of Metabolic Syndrome (MetS);
  • examine water quality across a gold mining region; and
  • investigate factors associated with Hepatitis C (HCV).

 Matt McHugh recounts the experience.
“Most of our involvement had to do with expanding previous MetS study work. Processing data via a 6-part survey (Anthropometric measures/Health risk factors/Food diary/SES interview) gave us a hands-on look at the complexities of conducting research in underserved communities.

After collecting water and soil samples in three different towns (Kumasi, Obuasi and Nkwantakese), it was tested to measure the heavy metal content that varied due to the distance of area gold mines. We were able to see how the mining practices affected the health of area communities.  

Additionally, we participated in a collaboration between Gilead Sciences, LUC and NYU. Tailoring a survey to protect the dignity and modesty of participants—but still gain important knowledge pertaining to hygiene and sexual behaviors that contribute to HCV transmission—we surveyed 25 people in Nkwantakese with translators. The work gave us great insight into HCV transmission factors that would help develop effective treatment plans utilizing the new pan-genotypic drug.”

But why Ghana? Why conduct research abroad at all?
In addition to gaining practical working knowledge on how to conduct complex research, strengthening their ability to see patterns between environmental issue and health effects, and becoming more cognizant of how sensitive topics can affect research outcomes, the students also expanded their understanding of community. This field experience broadened their social and cultural experience which will have a profound effect on their future research, practice and advocacy work.

The power of international education and research is immense. The MPH program is proud to have so many professionals that understand the benefits of this unique type of collaboration. 


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Tuesday, December 13, 2016

Report on Life Expectancy - Chicago Tonight - December 12, 2016

What does it mean when we talk about life expectancy? Does the data point to a decrease in life expectancy in the United States? What improvements have been made? Where should additional attention be directed?

These questions and more are addressed in Chicago Tonight's segment "Are Americans Dying Younger?" that aired December 12, 2016. The segment runs from approximately 28 minutes in through 39 minutes in.

Click to launch Chicago Tonight - Full Episode - video.

Video Features:
  • Diane Lauderdale, PhD
    University of Chicago, Epidemiology, Department Chair & Professor
  • Richard Cooper, M.D.
    Loyola University Chicago, Public Health Sciences, Department Chair & Professor
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Monday, December 12, 2016

2016 Junior Scientist of the Year Award

During the 37th annual St. Albert’s Day reception on November 3, 2016, Dr. Lara Dugas, PhD, MPH—Assistant Professor with the LUC Department of Public Health—received the 2016 Junior Scientist of the Year Award.

Who was St. Albert?
Called the “Doctor Universalis” (Universal Doctor), St. Albert was born at the beginning of the 13th century, joined the Order of St. Dominic in 1223 and was canonized in 1931. During his life, St. Albert dedicated his life to learning, exploring science and philosophy and teaching. It is no surprise that LUC had adopted his name for their annual research symposium featuring presentations across any multitude of topic areas.


St. Albert’s Day, hosted by the Health Sciences Division, is a celebration of all the research taking place at the Stritch School of Medicine. Throughout the day, research students make presentations concerning their area of focus. Dr. Dugas noted, “There are not many opportunities to see all the research that is going on. It is really eye opening to see the level of research being conducted as well as the diversity of the material.” 

Many of the students that presented that day are part of LUC’s Student Training in Approaches to Research (STAR) Program. This eight-week, research intensive is an opportunity for first year medical students to gain an in-depth understanding of the scientific approach, interpreting results and presenting findings. Dr. Dugas has mentored over 45 students during her time at Loyola, many of which are part of the STAR Program.  

At the conclusion of the event, Dr. Dugas was honored with the 2016 Junior Scientist of the Year Award. As her biography is studded with research achievements, honors and grant awards, it is no wonder she was nominated by her peers. When asked what she believes most contributed to her success—without hesitation—she answered, “collaboration.”
Explaining that her knowledge is the culmination of her past work, Dr. Dugas’ pursuits have been aided by her self-diversification. However, identifying and working with new collaborators has been just as important as her own development. It is what has kept her passion fueled. Her advice to those in research, “find people who inspire you and that you enjoy working with. Success will happen naturally.”
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Friday, December 2, 2016

Poverty Simulation Workshop Recap

As we lead into the winter months, it is a good time to reflect on the broad spectrum of socioeconomic dimensions in America. To broaden students’ understanding, Poverty Simulation Workshops were conducted across the three LUC campuses. Students and faculty from all programs were invited to attend and approximately 109 participated.


Poverty Facts
14.5%
 Official U.S. poverty rate (approximately 45.3 million people).
25.4%
 Average poverty rate for African-Americans and Hispanic/Latinos (compared to 9.6 for White non-Hispanic).
15.8%
 Rate of females in poverty (compared to 13.1 of males).

During the 3-hour simulation, participants were asked to role-play. Each was given a random card with the photo, age and backstory of the person who they were to bring to life. Some found themselves sitting alone, assigned a chair in a homeless shelter. Many were greeted by members of their family, however, the structure of that family was often far from what would be called “typical.” Others were assigned roles as teachers, social workers, employers, retailers and part of other community entities.

At the start of each program, the participants worked to understand their situation, dependencies and resources. The challenge was to make it through one month of paying bills, maintaining a job, caring for family members, staying healthy, etc. As the interconnectedness of the community became clear, so did the unique individual struggles. It is impossible not to feel a bond with one’s character and real stress from the difficulties they are facing with each passing simulated week.

Before joining LUC’s MPH program, Chloe Cavida’s interest in public health grew during her time as a research assistant at UIC. While knowing that pursuing this area of study would help her achieve her goal of bettering those in communities around her, she found the simulation to be enlightening in many ways. Following her participation, Chloe writes:

“I found myself getting frustrated and stressed especially when I didn’t know where to get help and consistently failed to make ends meet. This, unfortunately, isn’t a simulation for many families; it’s reality. I encourage everyone to participate in this simulation to better understand how we—as individuals who wish to serve the community and the individuals who comprise them—can create more awareness among policymakers and community leaders.”

Takeaways from the program included reminders of what our responsibilities are as public health professionals as well as compassionate members of our communities. These include:
  • Commit: Make a promise to yourself that you will take action to improve the lives of those living in poverty.
  • Educate: Learn more about the real struggles and share those stories with your peers and community organizers.
  • Volunteer: Give time or donate your skills to an organization that is helping to advance the lives of those at risk.
  • Write: Share your knowledge of issues with government officials, businesses and the media to communicate their importance.
  •  Socialize: Expand your network and understanding by making friends with people of all socioeconomic backgrounds.
It was apparent at the end of the simulation that all were inspired by the roles they played as well as the confidence they gained in better understanding the issues. This experience will definitely be one that is recalled many times and especially impactful for those pursuing a career in public health.




The Poverty Simulation is designed by the Missouri Association for Community Action (MACA). Additional information is available at www.povertysimulation.net.

The Poverty Simulation Workshop is part of a HRSA Grant #UD7HP26040, called I-CARE-PATH, to integrate interprofessional collaborative education to include all who are interested in health of communities.
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