Covid Activity Risk Calculator (CovARC)

What makes your solution innovative?

While starting the development process of this project, we identified several different risk calculators that users presently use in different parts of the world to calculate COVID risk and identify their limitations. From our background research, we generated the following table comparing current risk calculators and created CovARC to address the limitations of most existing risk calculators. More details can be found in our preprint, “A COVID-19 Activity Risk Calculator as a Gamified Public Health Intervention” at DOI: 10.13140/RG.2.2.23583.89765.

By addressing the limitations in the previous risk calculators, we could streamline the risk calculator further so that users could use it for daily life activity risk estimation. Our risk calculator also includes all the countries and regions in the world so that the reach of this technology is not limited to a specific country or region. Moreover, the minimalist design of the risk calculator and easy-to-interpret user interface enables people to easily understand measures they can take to ensure safety from COVID when doing a specific activity. 

Furthermore, our risk calculator updates daily, considering all the new COVID cases daily. This makes it easier and faster to interpret if there will be an outbreak in the future and ensures that users can take precautions early to reduce the outbreak's impact. Our solution provides a state-of-the-art system for everyday activity COVID risk calculation, making it an innovative and flexible solution that users could use in most parts of the world.

1. California covid restrictions. https://www.nytimes.com/2020/12/04/briefing/california-covid-restrictions-warner-bros-stimulus.html  (2021).

2. Centers for Disease Control, C. & Prevention. Covid data tracker. https://covid.cdc.gov/covid-data-tracker/#county-view&list_select_map_data_parent=Risk&map-metrics-cv-comm-transmission=community_transmission_level&list_select_map_data_metro=all  (2019).

3. Covid-19 event risk assessment planning tool. https://covid19risk.biosci.gatech.edu/ . Accessed: 2021-10-29.

4. 19 and me: Covid-19 risk score calculator. https://19andme.covid19.mathematica.org/ . Accessed: 2021-10-29.

5. Jin, J. et al. Assessment of individual-and community-level risks for covid-19 mortality in the us and implications for vaccine distribution. medRxiv (2020).

6. Mycovidrisk. https://mycovidrisk.app/ . Accessed: 2021-10-29.

7. Rowe, B., Canosa, A., Drouffe, J. & Mitchell, J. Simple quantitative assessment of the outdoor versus indoor airborne transmission of viruses and covid-19. medRxiv DOI: 10.1101/2020.12.30.20249058 (2021). https://www.medrxiv.org/ content/early/2021/01/04/2020.12.30.20249058.1.full.pdf.

8. Qcovid risk calculator. https://qcovid.org/Home/AcademicLicence?licencedUrl=%2FCalculation . Accessed: 2021-10-29.

9. Covid-19 risk calculator. https://covid-19.forhealth.org/covid-19-transmission-calculator/ . Accessed: 2021-10-29.

10. Covid19 exposure risk calculator. https://covidtracker.fr/covid19-risk-calculator/ . Accessed: 2021-10-29.

11.  Lelieveld, J. et al. Model calculations of aerosol transmission and infection risk of covid-19 in indoor environments. Int. J. Environ. Res. Public Heal.17, DOI: 10.3390/ijerph17218114 (2020).

12.  Bazant, M. Z. & Bush, J. W. M. A guideline to limit indoor airborne transmission of covid-19. Proc. Natl. Acad. Sci. 118,DOI: 10.1073/pnas.2018995118 (2021). https://www.pnas.org/content/118/17/e2018995118.full.pdf .

13.  Covid-19 dashboard. https://www.northwestern.edu/coronavirus-covid-19-updates/university-status/dashboard/ (2021).

14. Gisaid tracking of variants. https://www.gisaid.org/hcov19-variants/ . Accessed: 2021-11-20.

15. for Disease Control, C. & Prevention. Science brief: Community use of masks to control the spread of sars-cov 2. https://www.cdc.gov/coronavirus/2019-ncov/science/science-briefs/masking-science-sars-cov2.html  (2021).

16. Agency, U. E. P. Epa researchers test effectiveness of face masks, disinfection methods against covid-19. https://www.epa.gov/sciencematters/epa-researchers-test-effectiveness-face-masks-disinfection-methods-against-covid-19  (2021).

17. Covid19 activity risk calculator webpage. https://realsciencecommunity.shinyapps.io/riskcalculator/  (2021).

18. Covid-19 trends and impact survey. https://dataforgood.facebook.com/dfg/tools/covid-19-trends-and-impact-survey (2021).

19.  Gardner, L. Covid-19 data repository. https://github.com/CSSEGISandData/COVID-19 (2019).

What are your impact goals for the next year and the next five years, and how will you achieve them?

Over the next year, we plan on carrying out wide-scale testing for CovARC to continually iterate over the user experience. We plan on using the first year to grow a large user base so that we can identify issues users face while using our technology and address these issues immediately to fuse this web application into the user’s life in a much more organic manner. We would also identify other factors that add up to the risk of COVID for the user. Over the next two years, we plan on implementing a location-based system that identifies the county, region, or country from the user’s location and deploying it in the form of a web application and an android and IOS smart application. We will use this opportunity to link Google mobility data to identify if a place where the user is visiting is busy or has a higher number of people to accurately identify the risk of infection. Over the next five years, we plan to ensure that we have scaled in remote areas of Africa, Asia, and South America, previously identified as hotspots for COVID spread. In the long term, we plan on reducing COVID infections by ensuring people are more aware and take safety precautions in case there is a high chance of COVID infection in their areas. We will run randomized control trials to demonstrate the efficacy of CovARC in reducing infection rates on a population level. This strategy can also easily be adapted to other infectious disease public health crises such as the rapidly evolving Monkey Pox outbreak.

How are you measuring your progress toward your impact goals?

Our current version of CovARC accurately determines the risk of infection, hospitalization, and death for over 200 countries, including regions worldwide. Our system is in-line to be validated by wide-scale testing by people in different parts of the world to identify needs and requirements that could make it more polished and fit for deployment over a larger scale. A smartphone application version of this tool would ensure that people can use it anytime, anywhere, even with limited internet availability. Our team consists of people from several different parts of the world, which ensures that we would be able to test across a diverse set of communities to tailor CovARC to the required needs of the masses. Hence, we are en route toward ensuring that we can achieve the goals we have set in the future.

What is your theory of change?

In the past years, we have observed that during the COVID pandemic one of the most critical problems that caused its widespread was the incubation of the virus in densely populated areas, which led to different variants of the virus that were more resistant and highly infectious. At that time there was no channel that could be used to spread information to help people be more cautious and not spread infection. Main sources of information included major news outlets as well as social media websites. Misinformation spread in many communities across the world leading to worse COVID-19 infection rates. To identify and address this issue, we developed CovARC to ensure that accurate personal risk information is spread to the community in an easy-to-understand way so that it could be grasped by everyone in any part of the world. The streamlined UI provides a gamified feel to the tool, which draws the user in to try out different combinations of vaccines, masks, as well as other parameters.  This allows users to educate themselves regarding the safety measures they can take to minimize the risk of infection. As a result of this, people adapt safety measures or simpler techniques to minimize the risk of infection which prevents the spread of COVID in groups of people. This in turn helps to decrease the spread of COVID. Our calculator, and its methodology also serve as a suitable and reliable blueprint for effective disease risk estimation. It shows how to harness information from various data sources in order to create a streamlined model that considers important factors that affect the transmission of airborne diseases such as the use of masks and the number of people that a person comes into close contact with. We also show how an estimation model can be made to consider different variants of a virus. While we developed this calculator over the course of the pandemic, in the future, in the event of another viral outbreak, by referring to this calculator, researchers and scientists can collect relevant data and can create a similar calculator in the early stages of the outbreak in order to educate people before the outbreak has the opportunity to morph into a large scale pandemic. 

Describe the core technology that powers your solution.

One of the core problems that we identified in the current situation with the pandemic was the delivery of information as well as the access of people to information. During our preliminary research with this project, we identified several false data sources as well as inaccuracies in estimation of risk of COVID infection. This lack of misinformation caused confusion among several people causing people to follow two extremities of either trying to be too safe or not taking any safety measure against COVID infection. The lack of reliable infomation was very severe in developing countries where due to the non-preparedness of the information supply system, the medical institutions collapsed as it was unable to accommodate the rising number of cases and treat everyone affected due to COVID. Our teammates in India experienced this acutely during the Delta wave when oxygen supplies ran out in hospitals. We believe that in order to ensure the safety of people, there is a need for reliable information that has been cross-verified by several sources as well as simplification of the process to access the information. As a result, we developed our core technology around data science and predictive modeling techniques that have been implemented over several datasets that we extracted from different sources. This was an essential step we took to ensure data we extract and process is accurate, realistic and has not been tampered with. In case of abnormalities in the data, we implemented different smoothing techniques to cross-check them and make the data accurate. After having this processed data, we created a risk estimator using references from different researches that were carried out to generate a risk factor. This risk factor was generated as a range to take into account the error margin for our risk calculator as well so that all the information provided by us is realistic and based on valid facts. Upon building this core technology to have an accurate estimation of different risks associated with going out of the home to perform a specific activity, we wanted to provide this information in a user-friendly manner. This is where we used web development to package our technology so that it is widely accessible and easily interpretable by users.

Which of the following categories best describes your solution?

A new technology

Please select the technologies currently used in your solution:

• Artificial Intelligence / Machine Learning
• Big Data
• Biotechnology / Bioengineering
• Crowd Sourced Service / Social Networks
• GIS and Geospatial Technology
• Internet of Things
• Software and Mobile Applications

https://realsciencecommunity.shinyapps.io/riskcalculator

Which of the UN Sustainable Development Goals does your solution address?

• 3. Good Health and Well-being
• 4. Quality Education
• 9. Industry, Innovation, and Infrastructure
• 10. Reduced Inequalities
• 15. Life on Land

In which countries do you currently operate?

• Canada
• China
• France
• Germany
• India
• Mexico
• South Africa
• Spain
• Switzerland
• United Kingdom
• United States

In which countries will you be operating within the next year?

• Brazil
• Canada
• China
• France
• Germany
• India
• Mexico
• South Africa
• Spain
• Switzerland
• United Kingdom
• United States

Who collects the primary health care data for your solution?

We obtain our data from GISAID variants database, JHU, and Oxford COVID datasets as well as Facebook’s COVID-19 survey. We extract the data regularly, update it using Github actions, and use the processed and filtered data to estimate the risk along with other inputs provided by the user, which are specifically based on the form that users fill when trying to find different risks associated with COVID.

What type of organization is your solution team?

Nonprofit

How many people work on your solution team?

7

How long have you been working on your solution?

1.5

What is your approach to incorporating diversity, equity, and inclusivity into your work?

Our team lead, Dr. Christin Glorioso, who is Head of Research has always taken up leadership by communicating to diverse partners and teammates to give better direction to projects. Open feedback creates a more welcoming and open environment, this also helps to put diversity policies in place. The Global Health Research Collective community includes people working together from different medical and technology backgrounds belonging to different countries. This creates a culture that values difference and builds things for a better medical future. 

What is your business model?

We are considering two business models for CovARC: grants/joint partners and freemium. Practicing in MIT Solve will open doors for research grants using which we can work on better infrastructure for our prototype and help us gain consumers. We are associated with The Global Health Research Collective, a non-profit organization. The organization's primary goal is to bring COVID-related awareness to consumers and make places safe rather than monetization. Our current focus is on building and sustaining the product. We plan to beta-test the product to gain consumers by attracting a vast target audience. Additionally, finding joint partners with public/private health agencies or governments and private entities like restaurants will help us provide initial grants to build/maintain infrastructure for CovARC to reach 200+ countries worldwide.

Do you primarily provide products or services directly to individuals, to other organizations, or to the government?

What is your plan for becoming financially sustainable?

As mentioned previously, we are associated with The Global Health Research Collective, a non-profit organization. Our focus is to bring covid-related awareness to consumers by building a sustainable version of our product CovArc rather than monetizing it for profit. We are participating in MIT Solve to get attention to our product. The grant will help us build a robust infrastructure for CovARC for data management, model update, website, and others. We intend to participate in more competitions/challenges or find a joint partner who will be able to sponsor us.

Share some examples of how your plan to achieve financial sustainability has been successful so far.

Currently, we are participating in competitions, for example, MIT Solve for potential possible grants for CovARC.  Dr. Glorioso, the founder of the non-profit The Global Health Research Collective is also a 2022 NIA Healthy Aging Start-Up Challenge finalist wherein she is representing her startup NeuroAge Therapeutics. As a team, we will continue participating in similar challenges for financial support and user awareness.