Team:Vilnius-Lithuania/Public Engagement
Education and public engagement
It seemed like the most pressing problem for our human practices team to tackle. As we delved deeper into the issue, it became evident that vaccine hesitancy is only the tip of an iceberg. After a brief analysis, it appeared that the Lithuanian media has been advocating baseless skepticism towards GMO's, vaccines, and other controversial science subjects for many years. People do not take science seriously and these views are both manifested and fueled through the media. Naturally, we raised a question – what is the cause of the miscommunication and disagreement? What is the main source of science skepticism?
HP MODEL
It is essential not to merge various forms of science skepticism into one, so we decided to focus on the subject that is important for the ethics of synthetic biology - the acceptance of GMOs. After many meetings and brainstorming sessions, we had generated numerous hypotheses about various factors that influence a person's perception of GMOs. However, we still had to come up with a way to test and illustrate their level of influence and interdependence. Our mathematician came up with an idea to create/write a mathematical model that includes the influential factors and describes the correlation between them and the person's outlook on GMOs.
First, we constructed hypotheses on the factors influencing a person's attitude towards GMOs and carried out a survey. Our questionnaire items related to the following aspects: the level of biological knowledge, interest in new technologies or science fields, religiousness, the reliance on scientists' opinion, the preferred source of information (e.g., television, media, scientific articles), and social influence (the view on GMOs of friends, family, teachers). The survey consists of 50 questions and is divided into three parts. The first section of the questionnaire collects the respondent’s personal information – their age, sex, education, occupation, the field of studies/work, and religious beliefs. The second part includes factual questions meant to test biological knowledge – the respondent has to mark given statements as true or false. The final section consists of interpretive opinion-based questions about genetical engineering, GMO's implementation, and reliance on scientists, other sources of information.
We performed an ordinal regression analysis of the collected data from over 1000 responses to select factors of significant statistical importance.
Next, we formed an equation demonstrating the relationship between the estimates of a person's knowledge, their characteristics (e.g., age, gender), social influence, and their GMO acceptance.
Such kind of mathematical model allows estimating the correlation of particular characteristics or opinions of a person with their overall attitude towards GMOs.
The outcome of the research confirmed some of our primary hypotheses. As we assumed, the tendency of a person to accept GMO correlates with their level of trust in scientists and increases if their occupation is related to life sciences. Also, we observed a strong social aspect of the formation of a person’s opinion on GMOs. Not only is there a strong influence of the former biology teacher’s stance on genetic engineering, but also the analysis revealed the unforeseen impact of the opinion of the closest friend. This might be connected to another unexpected result - the correlation between the acceptance of GMOs and the level of education about genetic engineering is relatively low. GMO skepticism is based on subjective beliefs rather than biological knowledge. Individual interests play an important role, too. Technology and science enthusiasts are more likely to be pro-GMO than those who have no interest in new technologies or science fields. The observations became the basis of some of our activities.
Here you can find the graphs, the R code and the questionnaire available for downloading.
Gender:
Your occupation:
Do you believe in God:
Evaluate your level of interest in new technologies
Evaluate your level of trust in scientists' opinion
Evaluate level of influence:
Of your friend's opinion about GMOs
Of your former biology teacher's opinion about GMOs
Calculate
The quest for restoring trust and interest in science, along with the results of the model, inspired all of our following Education & Public engagement activities.
(Anti)Vaccination – public or individual choice?
To reach a bigger audience, we teamed up with the Society of Innovative Medicine to arrange a series of events, focused on highlighting the importance of science in our everyday life, called "Homo Scientificus". Firstly, we wanted to start a conversation on vaccines. Our main goal was to start a respectful dialogue between the opposing groups - pro- and anti-vaxxers - rather than deepen the separating gap.
For our first discussion of “Homo Scientificus”, we invited four professionals – a Professor of immunology Aurelija Žvirblienė, a pediatrics Professor Vytautas Usonis, and two representatives from the Ministry of Health of the Republic of Lithuania – to give reliable information on vaccination and talk about the measures that were being taken to manage the national measles outbreak.
However, we encountered a problem – all of our participants are openly pro-vaccine, as no representative of the opposing opinion had responded to our invitation. Therefore, there was a risk for the choice of participants to seem negatively selective or even offensive.To prevent the potential misjudgment and ensure inclusivity, two weeks before the event, we developed a form for the general public to send us questions and concerns over vaccination anonymously and shared that form in various anti-vaxxer groups and forums. Understanding where the different opinions stem from is the key to reaching a collective solution.
Based on the huge number of people gathered at the discussion and the positive feedback we received afterwards, we had successfully reached the goal of creating an opportunity for people of opposite opinions to get valid and respectful explanations to their questions.
Photos from (Anti)Vaccination – public or individual choice?
The future of humanity in space. Earth 2.0.
The next discussion of the "Homo Scientificus" series encompassed the future of science. We invited five professionals representing different fields – a neurobiologist, biochemist Prof. Osvaldas Rukšėnas, engineer of biomechanics Gintaras Jonaitis, astrophysicist, futurist Gediminas Beresnevičius, philosopher Jonas Čiurlionis, and physicist Jonas Jurkevičius – to exchange views about the prospects of humanity, the progress of scientific technologies and the opportunities the advance brings. The participants discussed the preparation and ethics behind actions that would be necessary for humans to inhabit space, with a particular focus on genetic engineering and technological innovations.
They emphasized the possible shifts of power, the demand for interdisciplinary solutions, and a philosophical approach to the future of science and humankind. Although the topic might seem niche, the response we got from the participants and the audience proved that most people are eager to learn about the newest, cutting-edge technologies and science innovations, like synthetic biology. We got much positive feedback from science enthusiasts and even professionals with requests of providing more information about synthetic biology, our project, and iGEM.
Photos from The future of humanity in space. Earth 2.0.
BioHackathon'19: Lab App
For the second year in the row, our team organized an international programming contest of life sciences – "BioHackathon'19: Lab App". This type of event is a brilliant way to engage IT specialists to learn about life sciences and use their experience to solve complex issues related to biology.
Hackathon is the only tool that covers 70% of the innovation journey. It starts with discovery, idea generation, and ends with idea conceptualization. The general idea of the hackathon is for a team to create any minimum viable IT product during the 48 hours of coding. During our BioHackathon, each team, including ours, had to develop an app that could tackle the broader issues of the following themes: biosafety and security of data, synthetic biology, lab efficiency, life sciences education.
We invited the Minister of Economy of the Republic of Lithuania, Mr. Virginijus Sinkevičius, to welcome the participants and open our coding fest. The speech was followed by inspirational presentations of Mrs. Eglė Karčiauskė from Startup Lithuania and Mr. Ignas Šlapkauskas from Lithuania Innovation Center. Throughout the BioHackathon, thirteen professional IT, Life Sciences, and Project Management mentors have kindly consulted and guided the participating teams.
BioHackathon was an excellent opportunity to introduce life sciences to people from the IT sector. Participants of different ages and IT or biology knowledge levels exchanged their experience in the context of their collaboration. In total, twelve teams from Lithuania and three iGEM teams from Sweden (iGEM team Stockholm), Germany (iGEM team Marburg), and Denmark (iGEM team Copenhagen) participated in our BioHackathon.
Many different projects were created during the BioHackathon. Team "Unity" created an educational game for pupils to learn life sciences - a laboratory where you need to complete different orders. Another team created an AI-based software to count bacterial colonies. However, the first place winner team "Artificia" created a search engine "Lase" enabled to look for the scientists according to their field of expertise. We have used this tool for finding scientists who can consult our team on BphP1 characteristics. Read more about it here.
In order to organize this event, we have implemented good practices from the "BioHackathon's Guidebook" prepared by the Vilnius - Lithuania iGEM team 2018. With the help of everyday feedback from participants and mentors as well as our own experience, we have prepared a new Guidebook version for iGEM teams with new insights and analysis after the event. You can find it here and use it for your own Hackathon.
Download BioHackathon’s Guidebook 2019
Also, the BioHackathon solved another problem that is visible in our university - the separation of international students. Usually, the activities that are targeted at students are held in Lithuanian which creates a language barrier for the foreigners. We decided to take action in integrating them into the local academic community of IT and life sciences and invited international students to participate in our hackathon. We received plenty of positive feedback from the international participants proving that we had reached our goal of connecting IT and biology specialist from different countries and cultures.
"It is my fifth hackathon, and I think this one was the best organized. Starting from the kind support during the event, good atmosphere, and prizes to very thoughtful organizational decisions."
"My first project in the Life sciences and it was a great opportunity to learn more about biology. I am glad that I was able to contribute with my coding skills to develop the project."
"You are our future, and you are worth investing in" - Minister of Economy and Innovation of the Republic of Lithuania Virginijus Sinkevičius.
Photos from BioHackathon’19:LabApp
Storytelling
The great success of the discussions and the BioHackathon, along with the results of the survey, revealed a surprising detail that we failed to observe. Contrary to our initial expectations, many people without scientific expertise have a genuine interest in science and trust scientists' opinions. However, only a few manage to satisfy their curiosity The main barrier to the engagement of non-experts is the lack of communication skills of scientists. Numerous scientific findings of significant importance are left unexplained to the public. The lack of communication results in the academic community appearing snobbish or superior. The absence of connection between scientists and the public lowers the level of trust people have in science. Lithuanian universities do not provide communication skills training, and science students must rely on their own initiative to gain experience in presenting research or ideas. Not only does this hinder the transmission of scientific knowledge to society, but it also narrows the ability of scientists to present their research or products to entrepreneurs and investors successfully.
To break the walls of closed academic circles and initiate the wider broadcast of scientific ideas, we decided to turn to the students and scientists working at the Life Sciences Center of Vilnius University and came up with a way to improve their public speaking skills.
Sometimes, all that is needed for a great idea to be born is a well-timed Facebook notification. At the time, a professional storyteller Mrs. Milda Varnauskaite was working with exchange students at Vilnius University . As followers of Vilnius University’s social media profile, we were informed about Milda’s Open Stage Storytelling event. That’s when the “aha! moment” happened – we decided to arrange a storytelling workshop with Milda for scientists and science students. Luckily, Milda accepted our proposition to collaborate and adapted her workshop program to bring focus on conveying complex scientific ideas and narratives in an engaging, comprehensible manner.
After sharing the invitation to the workshop, we were flooded by requests to participate. This proved our hypothesis that a demand for public speaking training indeed exists among scientists. However, the workshop allowed a maximum amount of twelve participants. One of our team members, Elzė, participated in the workshop, too, to practice public speaking before our presentation at the Giant Jamboree. The workshop took place for three days, with 14 hours of hands-on work in total. During the first two days, the participants focused on the structure and proper delivery of a story through various exercises and examples given by Milda. The last day comprised creating and perfecting individual stories. We closed the three-day workshop with the grand finale – the Open Stage Storytelling event. The participants of the workshop got the chance to practice their new skills and get real-time feedback from the audience. During the event, they told stories about their work and about the everyday life of a scientist. Two storytellers even included iGEM in their stories! The cozy, warm atmosphere of the story night gathered together individuals of different interests – from theater to science – and created an environment for mutual learning and understanding.
Photos from storytelling workshop and Open Stage Storytelling evening
Education for pupils and teachers
The results of the HP model revealed a distinct factor of a person’s stance against GMO’s – their biology teacher’s negative opinion. That seems justifiable – most people first encounter the idea of GMO’s at school and the way GMO’s are presented strongly influences their later opinion. In Lithuania, genetic engineering is not included in the educational program; very little information is provided in the books and other teaching material. Therefore, it becomes difficult for the teachers to eliminate their personal bias when talking discussing the topic. To vindicate genetic engineering in the minds of biology teachers, we first had to ensure their thorough understanding of the matter. We had the intention of informing the teachers rather than to challenge their opinion on GMOs.
For this purpose, we collaborated with dr. Paulius Lukas Tamošiūnas - an expert on teaching methodologies in the life science field. We joined one of the seminars he organized for a group of biology teachers. There, we presented the techniques, tools, and products of synthetic biology, as well as the principles, advantages, and precautions taken to avoid the risks of genetically modified organisms. The teachers got the chance to do a PCR and find out more about the method that is quotidian in synthetic biology.
Photo from the workshop for biology teachers
The seminar became an opportunity for us to create valuable relations with teachers and get invited to present synthetic biology and iGEM in schools. We visited schools and high-school students’ organizations and gave lectures for all age groups - from first graders to seniors. The pupils showed genuine enthusiasm for learning about genetic engineering and GMOs.
Photos from schools
Photos from summer camp
After representing iGEM and synthetic biology in the international exhibition "Studies 2019" we got a cooperation proposal.The Lithuanian centre of non-formal youth education offers a broad spectrum of training and education services. In a variety of events organized by this institution, our team got invited to be a part of the "XXI Kids science fair" and European Union Contest for Young Scientists events. In these contests, pupils from the first to the last grade prepare poster presentations for their scientific projects. After the presentation session, our team introduced iGEM, organized quiz on synthetic biology, and discussed with the pupils and teachers about the main parts of scientific project methodology.
Photos from "XXI Kids science fair"
Photos from "Studies 2019" fair
Photos from the Lithuanian School Student Union Spring Forum
Photos from European Union Contest for Young Scientists event
BioBricks
All work and no play makes Jack a dull boy, so, along with important meetings with our sponsors and in-depth discussions, we decided to play around a little. What's better for an iGEM'er to play with than LEGO bricks? To introduce the public to the concept of synthetic biology and awaken people's curiosity, we got together with skilled carpenters of the Technarium. Technarium is an open, community-operated space in Vilnius, Lithuania, where people with technology-related interests work together.
The team of Technarium helped us to make two bright wooden LEGO bricks - BioBricks. One of the blocks had a spray-painted hashtag on its side. We held a photo contest on Instagram and Facebook, and the participants with the most original pictures won an iGEM-related present. The other BioBrick had an engraved QR code, which took to our website, where we explain the principles of synthetic biology and iGEM.
