Confirmed cases of coronavirus disease 2019 (COVID-19) exceed those of severe acute respiratory syndrome (SARS), and, at time of publication, now stand at over 73,435 confirmed cases and over 2000 deaths globally, nearly all in China. By comparison, SARS killed 774 people in 2003, again mostly in China, the epicentre of both outbreaks. Both COVID-19 and SARS spread across continents, infect animals and humans, and use similar mechanics to enter and infect the cell. On the frontline, tactical response to COVID-19 is similar to that of SARS but one major difference exists: in the 17 years since SARS, a powerful new tool has emerged that could potentially be instrumental in keeping this virus within reasonable limits—namely, artificial intelligence (AI). Few would argue that AI is causing a paradigm shift in health care and there might be value in the application of AI to the current COVID-19 outbreak, for example, in predicting the location of the next outbreak. This application is effectively what the Canadian company, Blue Dot, has attempted to do and as such was widely reported as the first organisation to reveal news of the outbreak in late December. Various other applications of AI that have emerged in response to the latest epidemic include BenevolentAI and Imperial College London, which report that a drug approved for rheumatoid arthritis, baricitinib, might be effective against the virus, while Insilico Medicine based in Hong Kong recently announced that its AI algorithms had designed six new molecules that could halt viral replication. But to what extent is AI really at the point where it can deliver effective insights and solutions in a timely, widescale fashion to help halt the current epidemic? As Executive Director of the Communicable Diseases Cluster, WHO, David Heymann led the international response to SARS. He explains that AI or no AI, several key factors are required for a successful public health response to an outbreak of a new infection. These factors include understanding of transmissibility and risk populations; establishing the natural history of infection, including incubation period and mortality rate; identifying and characterising the causative organism; and, in some instances, epidemiological modelling to suggest effective prevention and control measures. This information can be collected from those working at outbreak sites virtually linked with WHO. This strategy worked for SARS and is, again, a major source of information for COVID-19, he stresses. Collectively these data can be used to train and prime the AI application for its dedicated task. “We can't replace the human brain at this point, nor the epidemiologist or virologist with anything that can analyse and rapidly do what is necessary at the onset of an outbreak. We still need to prime that AI with information from study of the evidence and link this to events in the outbreak,” Heymann highlights. Taking a balanced view of where AI sits in the current armamentarium to tackle COVID-19, Heymann adds “By monitoring social media, newsfeeds, or airline ticketing systems for example, we can tell if there's something wrong that requires further exploration. All these things together are very important.” However, Heymann cautions that the source of the data needed to inform AI in this outbreak, “won't necessarily come from China because it hasn't been able to get hold of the data it needs because of the disorder and panic. This virus has spread to 24 other countries and these countries have set up extremely good systems of contact-tracing and patient isolation. This is where our information will come from.” Peter Hotez (Baylor College of Medicine, Houston, TX, USA) asserts that AI can make a major contribution to the current outbreak and can be used to predict how the COVID-19 outbreak might be affected by seasonality. “Historically in the Northern hemisphere, upper respiratory coronaviruses peak in the winter months and then decline. AI might help predict how warmer weather, come April and May, might have a beneficial effect on the spread.” Such an application could really help stabilise financial markets right now in Asia, he remarks. “People think the apocalypse is coming but a statement reflecting that this epidemic is going to diminish substantially as we move into spring might provide some reassurance, and AI can play a role here.” Echoing Heymann, Hotez also reflects that effective AI needs high quality input data and says in no uncertain terms that, “it's a case of garbage in, garbage out”. Describing previous work collating disease-related data in sub-Saharan Africa, he points out that there are “gaping doughnut” holes with little or no data that are not due to an absence of disease, but because there is no surveillance. The same applies to COVID-19. “Flights are going into Africa, for example, into Ethiopia from China all the time and who knows what's happening there,” he notes. In declaring the situation a public health emergency of international concern, WHO Director-General, Tedros Adhanom Ghebreyesus, reflected on the impact in less developed countries, “… we don't know what type of damage the virus could do if it were to spread to a country with a weaker health system”. Moritz Kraemer, a spatial epidemiologist (University of Oxford, Oxford, UK) is involved with tracking the spread of COVID-19 as represented on the web-based platform, Healthmap, which visually represents global disease outbreaks according to location, time, and infectious disease agent. “In sub-Saharan Africa, our model predicted that the main entry points would be in South Africa, Ethiopia, and Nigeria, which are high population centres. But it is dependent on where, in China, the outbreak is focussed because the number of flights to parts of Africa varies by Chinese city,” Kraemer points out. “In most AI applications, we consider the question and ask what are the best data available to answer it?” Kraemer says. One of the multiple data streams relevant to pathogens spread is accurate case reporting for COVID-19. Kraemer receives news reports and twice daily government reports that provide datasets on how many cases exist in any one specific location (eg, in Wuhan city). “This is a baseline for us.. Before Chinese New Year we looked at how many people left Wuhan over a day, and this information comes from search engines including Baidu. WeChat, a messaging, social media and mobile payment app, provides data on travel around Wuhan,” he explains. “Machine learning models use these data to predict the most likely location of where novel coronavirus might arrive next and this might inform where and how to run border checks.” A study by Kaiyuan Sun and colleagues published today in The Lancet Digital Health testifies to the strength of monitoring news reports and social media to help reconstruct the progression of an outbreak and to provide detailed patient-level data in the context of a health emergency. Not only is China central to the outbreak, but the country is also playing a large role in using AI to help manage the COVID-19 outbreak. Infervision, a Beijing-based AI company uses its algorithm to spot COVID-19 on images of the lung as distinct from other respiratory infections. Velislava Petrova is a virologist (University of Cambridge, Cambridge, UK), who is currently working at UNAIDS, Geneva, on the latest and most effective AI applications. “We are trying to find a more sustainable way to control the impact of the novel coronavirus rather than having to shut down borders, businesses and similar,” she says. Petrova highlights that Infervision's AI application minimises the burden of these processes by expediting the diagnoses and monitoring of COVID-19. “As more and more scans are done then the algorithm learns and improves accuracy together with the virus.” “The value of AI comes into play by reducing the burden on clinicians in a scenario such as the current COVID-19 outbreak,” Petrova explains. Reflecting on a rapidly growing concern in the current outbreak that regards the infection of health-care professionals, Kuan Chen, founder of Infervision, points out that the Infervision AI application can help protect staff. The death of medical doctor, Li Wenliang, on Feb 7, 2020, who was reprimanded by Chinese authorities for warning about the virus, highlights the plight of clinicians on the frontline. “An article in JAMA states that human-to-human hospital-associated transmission accounted for 41% of all cases in a study of patients at Zhongnan Hospital of Wuhan University,” Chen notes. “We also know that more than 1000 hospital staff in the city of Wuhan have been confirmed infected.” This is where Infervision's AI application could help. From a lung CT scan, the AI is designed to quickly detect lesions of possible coronavirus pneumonia, to measure its volume, shape, and density, and to compare changes of multiple lung lesions from the image, which all provide a quantitative report to assist doctors making fast judgement. “While a manual read of a CT scan can take up to 15 minutes, AI can finish reading the image in 10 seconds.” Application of this technology in COVID-19 has not yet been published in a peer-reviewed journal. Chen adds that in Wuhan, where there are far too many cases to test and PCR-based diagnosis takes too long (sometimes over a week), CT imaging with AI could serve as a surrogate for doctors when fast judgement is needed. “Doctors no longer need to engage in the lengthy process of manually reading images one by one to identify high risk cases, while coronavirus-probable patients wait around the hospital posing a severe risk of infecting other patients and hospital staff.” It is still too early to tell if—and to what extent—AI will have an impact on the COVID-19 outbreak. The numbers of confirmed cases and deaths rise daily and so too does the supply of data. One thing is certain, “AI is relevant to this outbreak and in the future it will become even more so,” says Moritz. Heymann is more conservative and remarks that, “AI is one part of the final understanding”. Time will tell. For more on the mechanism of viral infection of coronaviruses see DOI:10.1128/JVI.00127-20 For more on Blue Dot AI prediction of outbreak locations see https://www.wired.com/story/how-ai-tracking-coronavirus-outbreak/ For more on AI driven design of new drugs against COIVD-19 see https://insilico.com/ncov-sprint For more on the potential for international dissemination of COVID-19 see https://academic.oup.com/jtm/advance-article/doi/10.1093/jtm/taaa008/5704418 For more on countries at the highest importation risk of COVID-19 see non-peer-reviewed study here https://www.medrxiv.org/content/10.1101/2020.02.05.20020792v1) © 2020 Kuan Chen/Infervision 2020 Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.
