Tag Archives: viral evolution

Updates on the SARS-CoV-2 Outbreak

SHUTTING DOWN THESE UPDATES: The SARS-CoV-2 outbreak has continued to grow and expand its reach. I’m not able to keep up with any semblance of an update at this point, so I will shut this thread down. If things change, and I can contribute, as I’ve done with my lab health plan, I’ll do so in separate posts.

For those wanting summaries of events on a more-or-less daily basis, I recommend the writeups from the University of Minnesota’s Center for Infectious Disease Research and Policy (CIDRAP). For those wanting up-to-the-minute reports of developments, I’ve found  @BNODesk and COVID19 (@V2019N) on Twitter to be reliable.  Others I follow closely on Twitter for synthesis, analysis, and perspective include Helen Branswell (@HelenBranswell), Marc Lipsitch (@mlipsitch), and Carl Zimmer (@carlzimmer). Neil Ferguson (@neil_ferguson) rarely tweets, but provides another expert voice.  Trevor Bedford (@trvrb) provides authoritative analysis of the genomic changes in the virus, which are useful for understanding the dynamics of the global spread. As he’s located in Seattle, he’s also a good person to follow for developments concerning the outbreak in that region.


To make new information on this viral story easier to find, I’m adding updates with the most recent at the top.

As a reminder, I’m neither an epidemiologist nor a public-health expert, but I study microbial populations from a basic-science perspective. So I have a pretty good sense of what the experts are saying, what is reliable within the stated limits of uncertainty and assumptions, and so on. However, keep in mind that this is a rapidly developing situation, so the “facts” (data and interpretations) may change quickly.

UPDATE 7:55 pm (Feb 29): So much news today that I feel unable to provide even a short summary, including an apparent cluster of cases involving patients and staff at a nursing home in the state of Washington. Fortunately, others have provided summaries of today’s coronavirus news, including this clear and authorative writeup from CIDRAP. I would encourage individuals, families, businesses, local governments, and other groups to begin thoughtfully preparing for the possibility of infections in your own communities, if you haven’t already done so. I’ve posted the planning document for my own lab group.

UPDATE 11:00 & 11:30 pm (Feb 28): Second, third, and now fourth cases of infections in the US without travel history or known conacts with infected people–the second such case in California, and the first each in Oregon and Washington. The Washington case is a teenager, and the infected person in Oregon works at a school, adding yet additional worrisome elements. New cases and fatalities continue to rise dramatically in South Korea, Italy, and Iran. Several dozen other countries now also have cases. Markets in turmoil, leadership unfocused and/or in denial here in the US and some other places as well.  Here’s a 25-minute podcast interview with Harvard infectious-disease epidemiologist Marc Lipsitch about why he thinks it’s likely now that perhaps half of all adults will be infected at some point (but not all at the same time), and how to think about your own preparations. It’s well worth listening to the whole interview, whether you’re a scientist or not. (There are a few slightly technical bits, but none that go on for long–the interview stays focused on the big picture.) Lipsitch is very clear and soft spoken, despite the troubling implications of this new disease.

UPDATE 10:00 pm (Feb 27):  The big news reported here in the US is an infection in northern California with no international travel nor, apprently, known contacts with anyone infected, suggesting a case of community transmission. Of interest, and possible concern, that viral isolate’s genome differs by only a single mutation from another California isolate. Could that have come from a repatriated and quarantined individual?  If that proves to be the case–and I repeat, if-– then it suggests there was some “leak” in the quarantine.  Meanwhile, individuals involved in those repatriations may not have received appropriate gear and/or instructions to protect themselvesCalifornia health officials are monitoring thousands of individuals, but lack necessary kits to test for infections. Elsewhere in the world, Japanese schools are told to close for the next month. French and German authorities announce that epidemics are underway in those countries, while new cases continue to mount in South Korea, Italy, and Iran.

UPDATE 9:30 pm (Feb 26):  South Korea reported another 334 cases just today, bringing the total there to almost 1600 from just 31 a week ago.  And Italy reported 52 new cases, bringing its total to 128.  Here’s an image of an empty scientific meeting in Trieste, Italy — the meeting was cancelled, but the lectures were made available online. How many more cancellations of social, scientific, and business gatherings might we see in the weeks and months ahead?  Meanwhile, several countries reported their first SARS-CoV-2 cases today, including Brazil, following an individual’s travel from Italy … and with Carnival getting underway, that’s a potentially worrisome development there. Germany’s Ministry of Health has now found 18 cases, and officials warn of an epidemic potentially starting there.  A new case in California, someone with no relevant travel history, is a concern in the US because it suggests community spread.

UPDATE 9:00 pm (Feb 25):  South Korea cases up to 1,146 cases, up from just 31 less than a week ago. In Iran, who knows many cases of COVID-19, but the deputy health minister has it.

UPDATE 8:00 pm (Feb 24):  Five countries in Middle East report first cases, while Iran’s cases are up to 61, with 12 fatalities.  Italy’s cases up to 227, including 6 deaths.

UPDATE 7:10 am (Feb 24): Over 60 new cases reported today in Italy, with total now over 200 and 5 deaths to date. Official report from Iran states 12 deaths, but a lawmaker there says the actual number is much higher. South Korea total cases now reported as 833, with 7 deaths.

UPDATE 9:00 pm (Feb 23): Cases in South Korea continue to grow, now at 763 from just 31 several days ago.  Given the delay between infections and deaths (a few weeks, for those unfortunate minority of cases), the deaths in Italy indicate a larger outbreak that has grew undetected. Same for Iran, but we’re less likely to get reliable data from there.

EXPERT PERSPECTIVE 11:55 pm (Feb 22):  What countermeasures can we take to reduce the harm and disruption caused by this outbreak-turned-pandemic?  Read this excellent thread from epidemiologist Marc Lipsitch about short-term and long-term strategies for dealing with the expanding SARS-CoV-2 outbreak and the COVID-19 disease that it causes. Full of ideas, advice, evidence, and concern for our individual and collective well-being.

UPDATES 9:30 pm (Feb 22): Where to start? How about South Korea, from 31 cases a few days ago to more than 500 (with 4 deaths) today. Or maybe Japan, where a quarantine officer at an airport has contracted the infection.  Then there’s Italy, with dozens of new cases today and many of those seriously ill, 11 towns in “lockdown” mode, and no clear understanding of how the outbreak began in that country.  And what’s up with Iran, which has an outbreak of unknown scope, and which has apparently exported cases to other countries including Canada and Iraq, which suggests the outbreak in Iran is large.  And the US? It’s hard to tell.  Have we been diligent and successful in limiting, identifying, and isolating potential infected persons?  Or have we been slow and too limited in testing?

PERSPECTIVE 9:10 pm (Feb 22): It pains me to write this, but I think there can be no doubt now that we are in the midst of pandemic caused by the SARS-CoV-2 coronavirus. No, it does not mean the end of the world, nor pervasive death, nor anything like that. But it does mean this infection has spread to, and continues to spread in, multiple countries on multiple continents. And with its spread will come substantial illness in some or many communities, some deaths, pressure on health-care systems, personal inconvenience, economic disruption, and discomforting uncertainty.  Stay strong, everyone. Respect and help your neighbors, while also practicing basic hygiene like handwashing, tracking the news in your own country and community, and so on.

STATUS 9:00 pm (Feb 22): I’ve been preoccupied today with an analysis of mutations in the SARS-CoV-2 genome. It’s undoubtedly a small side story, at best, but it interests me scientifically.  Also, I am “splitting” this web page into two parts with this page providing occasional updates to scope of this–yes, I will now call it what it has become–pandemic. I’ve added a separate post that provides occasional links to, and discussion of, Expert Analyses of the SARS-CoV-2 Coronavirus Outbreak.

UPDATE 10:10 am (Feb 22):  A large jump in SARS-CoV-2 infections reported in Italy, up to 54 from just 21 yesterday. Also, a second death was reported there.

UPDATE 10:15 pm (Feb 21): Another big jump in cases in South Korea.  The 142 new cases bring the total to 346 — it was just 31 three days ago.

UPDATE 11:30 am (Feb 21):  A new cluster of six youngish (~40 years old) cases, this one in Italy, and most of them are in serious condition. This cluster is possibly linked to another cluster elsewhere in Italy. About 250 contacts have been placed in isolation and will be tested for the SARS-CoV-2 coronavirus.

UPDATE 9:40 am (Feb 21):  Two prisons in China now reporting hundreds of cases.

UPDATE 9:30 am (Feb 21): Iran is reporting multiple cases in several cities: “The spread of the coronavirus started in Qom and with attention to people’s travels has now reached several cities in the country, including Tehran, Babol, Arak, Isfahan, Rasht, and other cities. And it is possible that it exists in all cities in Iran,” according to an official of Iran’s Health Ministry. Meanwhile, Lebanon has reported its first case–a traveler from Iran.

UPDATE 8:50 am (Feb 21): Now more than 200 cases in South Korea. Helen Branswell has posted a graph of the sudden rise of COVID-19 in that country.

UPDATE 10:50 pm (Feb 20):  Yet more cases reported from South Korea. The total is now 156. Many, but not all of them, are part of a large cluster associated with a church group.

UPDATE 9:45 am (Feb 20): Yikes again, Helen Branswell of statnews just reported that South Korea has had another jump to 104 in confirmed cases, up from just 31 two days ago. Not clear to me whether these are symtomatic cases of the disease COVID-19, or confirmed infections with the SARS-CoV-2 coronavirus.  And if I read this report correctly, there are another 1,860 suspected cases awaiting test results, although many previous suspected cases have returned negative results.

UPDATE 9:35 pm (Feb 19):  Yikes, this new report has South Korea’s cases up to 82, from just 51 yesterday and 31 before that.

UPDATE 6:20 pm (Feb 19): The latest concersn are jumps in the number of reported cases in some countries, including ones that hadn’t previously reported SARS-CoV-2 infections. South Korea reported a big jump from 31 to 51 cases, including a cluster of 16 cases in one city. This demonstrated the potential, at least for outbreaks to take hold outside of China. Meanwhile, Iran has few travelers from China, and was not known to have any cases. But two cases were reported today in Iran, and both patients have died. The Iranian health ministry is trying understand how those individuals became infected. And in Japan, the number of cases has more than doubled in a week, with 74 documented cases. And that doesn’t include the 600+ cases on the cruiseship Diamond Princess, now docked near Tokyo. Many of the other passengers are now being released from quarantine. But given the ever-increasing number of positive tests that were discovered, have new asymptomatic and/or presymptomatic infections been released into Japan and beyond? All of these reports are concerning not because they represent a large number of cases–the number of cases in all other countries combined remains far smaller than the number in Wuhan alone. Rather, the concern is that these represent and/or may seed new outbreaks that will be increasingly hard to trace and contain, as in the possible scenerios discussed by Trevor Bedford (see Expert Perspective posted at 4:30 pm on Feb 8), Richard Neher (see Model of Global Spread posted at 8:45 pm on Feb 9), Marc Lipsitch (see Expert Perspective posted at 1:15 pm on Feb 14), Neil Ferguson (see Expert Perspective posted at 8:00 pm on Feb 16), and other experts.

UPDATE 11:45 am (Feb 18):  Today’s report from Japan brings another 88 cases of SARS-CoV-2 infections on the quarantined Diamond Princess cruise ship. That brings the total number of infections detected so far to 542.

EXPERT ANALYSIS 9:50 am (Feb 18):  Adam Kucharski explains why estimating the case fataility rate for COVID-19 is complicated, and why the rate can appear to increase when the outbreak is slowing down.

EXCELLENT RESOURCE 7:30 pm (Feb 17):  The Center for Infectious Disease Research And Policy (CIDRAP) at the University of Minnesota has a superb (almost) daily summary of news about COV-19 and the SARS-CoV-2 virus.  Here’s the summary for today, and here’s the webpage linking to all the summaries — bookmark it!  (h/t @mlipsitch)

UPDATE 4:30 pm (Feb 17): Some readers may recall debate (and confusion) about whether the most closely related viral sequences to the SARS-CoV-2 outbreak had come from pangolins (scaly anteaters) instead of from a bat. [See the update titled “Waiting for more info but …” posted on Feb 7.]  The genome sequences of several SARS-like viruses sampled from pangolins have been shared by scientists from Beijing and Hong Kong. Trevor Bedford has included these sequences in his latest phylogenetic analysis to assess relatedness. As Bedford explains, “these pangolin viruses are closely related to the COVID19 epidemic, but [they are an] outgroup relative to bat/Yunnan/RaTG13/2013.” In other words, the isolate sampled from a bat in Yunnan in 2013 remains the closest relative seen thus far to the SARS-CoV-2 that caused the outbreak in Wuhan. Bedford points out, though, that “additional sampling may reveal a direct intermediate” from bats, pangolins, or some other animal. (Bedford posted another thread that elaborates on the difference between this latest work and some of the confusing earlier reports, for which no data has been made public to date.)

UPDATE 12:10 pm (Feb 17):  CDC has updated their test results for SARS-CoV-2 in the US. The latest report shows 15 postive and 392 negative tests, with 60 other cases pending. These data mean that the most recent 45 tests (since the update on Feb 14) have all been negative. There are a number of people with confirmed infections who have been evacuated from the Diamond Princess cruise ship, who are returning to quarantine in the US. It’s unclear whether they will be counted in futue CDC reports.

UPDATE 11:00 am (Feb 17): As much as it’s been a disaster for the affected individuals, the continuing outbreak aboard the Diamond Princess is providing valuable information on the distribution of the severity of outcomes for infected individuals. About a quarter of those tested so far have been infected.  Of those whose tests indicate they are infected, about 40% are asymptomatic (or, perhaps, presymptomatic). Of the 60% with symptoms, about 7.5% (= 19/254) are in critical condition. Of course, we need to keep in mind the demographics of the passengers, most of whom are older than the overall population. The large crew population, which is generally younger, should provide a valuable contrast for epidemiologists. (h/t @drkuehnert)

MODEL WITH SEASONAL VARIATION IN TRANSMISSION 10:30 am (Feb 17):  Richard Neher, Emma Hodcroft, and co-authors have posted a paper (not yet reviewed by other experts) where they analyze the possible effects of seasonality on the extent of the SARS-CoV-2 outbreak. Their model assumes that the virus, owing to its transmissibility and the global mobility of people, will eventually become established globally. (That’s not certain at this time, but many experts think it is likely.) They begin by noting that four other coronaviruses that circulate in the human population (typically causing symptoms similar to the common cold) are more prevalent in the winter and early spring. The good news from their model is that this seasonal variation in transmission should slow the spread of the new coronavirus in the coming months. The bad news, though, is that SARS-CoV-2 infections are likely to reach a peak next winter (2020/2021). At least that provides more time for health-care systems to prepare. They also emphasize that health officials and others should not assume the virus is under control based on diminishing case counts, because seasonality (along with quarantines and other social-distancing efforts) may give a false impression that the virus has been brought under control. Hodcroft has a nicely illustrated and explained Twiiter thread that summarizes this work. A few hours later, Neher posted another excellent thread on this work.

UPDATE 10:00 am (Feb 17):  Japan officials reported that another 99 cases of SARS-CoV-2 infections on the Diamond Princess cruise ship, docked near Toyko. That brings the total number of infections to 454, out of about 3700 passengers and crew in total.  Yesterday, more than 300 Americans who had been on the ship were flown from Japan and will be further quarantined in the US.  For those left onboard the ship, their quarantine was supposed to end this Wednesday … but given the ever-growing number of infections, that seems unlikely.

EXPERT PERSPECTIVE 8:00 pm (Feb 16): Neil Ferguson is an epidemiologist who models the dynamics of infectious diseases. In a technical, yet sobering, interview he works through estimates of various quantities relevant to the SARS-CoV-2 outbreak. He takes great care to acknowledge the uncertainties around his estimates. Here’s my effort to summarize what I understand him to say.

  1. The large number of cases on the Diamond Princess cruise ship shows how easily the virus spreads.
  2. The number of cases in Wuhan (city) and Hubei (province) appears to be plateauing, as predicted given the stringent quarantine imposed weeks ago.
  3. It’s hard to know what’s happening elsewhere in China because they only test people with travel history to Wuhan and Hubei, which would miss community transmissions and thus under-estimate the extent of the outbreak elsewhere.
  4. There are anecdotal reports of surges in pneumonia cases in other cities in China, consistent with under-testing and under-reporting of the new coronavirus.
  5. Regarding the severity of this disease, it’s difficult to say in part because different surveillance methods pick up different categories of severity.
  6. In China, only the most severe cases are routinely tested for the virus. Ferguson’s team estimates that about 18% of the severe cases in the Wuhan epicenter may die.
  7. That does not mean, however, that 18% of the people infected die because many have mild or even no symptoms, and they are not tested. Ferguson’s team estimates that only about 5% of infected people are actually tested in Wuhan. So combining this fraction with the severe cases, one would estimate an overall mortality rate across all infections (mild and severe) of roughly 1%.
  8. Another comparison group includes the ~300 cases of international travelers, where there have been 2 deaths (as of the time of this inetrview). However, there is a delay of ~3 weeks between diagnosis and death in the severe cases, and so that fraction needs to be adjusted to account for this delay. When accounting for this delay, Ferguson estimates that the mortality rate will eventually prove to be between 2% and 5% in this group. Once again, however, these cases are focused on travelers who already showed observable signs of illness when they entered a country, so this rate will also be higher than for other infections.
  9. To adjust for this bias in detection as a function of severity, one needs to estimate the fraction of all travelers from the affected areas who are infected. To estimate this infection prevalence, Ferguson uses data obtained from the evacuation flights, where travelers who returned to their home countries were systematically quarantined and tested for the coronavirus, whether or not they showed symptoms. From these data, Ferguson estimates there were 3 to 4 times more infections than discovered when screening travelers. This means two things. First, the mortality rate estimated from travelers who show symptoms is once again too high by several fold,  If all infections were taken into account, the overall death rate is something on the order of 1%. Second, it means that many countries probably have SARS-Cov-2 transmissions occurring undetected in some communities.
  10. Given all of the statistical noise in the data, Ferguson says that the uncertainty around these estimates of 1% mortality is about 4-fold in each direction. So bottom line, he thinks the true mortality rate lies between about 0.25% (1 in 400) and 4% (1 in 25).
  11. The lower value would be similar to the pandemic influenza years of 1957 and 1968, while the high end would be more comparable to the 1918 pandemic.
  12. The potential scope of the pandemic in terms of how many people will be infected is also difficult to predict. Going from past experience with influenza pandemics, Ferguson suggests that roughly half of the population might be infected in the first year, when one includes both those people who become ill and those with mild or no symptoms.
  13. Despite these uncertainties, Ferguson explains that such numbers are valuable for countries and their health-care systems to formulate appropriate plans to deal with this “serious threat.” 

NEW INFO 7:00 pm, updated at 10:05 pm based on corrected info from Dr. Gottlieb (Feb 16):  Scott Gottlieb, an MD and former commissioner of the FDA, makes an interesting comparison between the number of cases of COVID-19 in the US versus Japan and Singapore. Japan has 4 times as many known cases as the US, despite having only twice as many travelers from China. (Note: Gottlieb is not including those on the cruiseship quarantined near Tokyo.) Singapore has 5 times as many cases as the US, with about the same number of Chinese visitors. Both Japan and Singpaore have some community transmission involving unknown contacts. Taken at face value, these comparisons “might suggest there are undiagnosed cases in U.S.

UPDATE 3:45 pm (Feb 15):  The Diamond Princess is not the only cruiseship with a troubling story. The Westerdam was turned away from several Asian ports over concerns of the new SARS-CoV-2 coronavirus. However, it was allowed to dock in a Cambodian port yesterday, and 2257 passengers and crew were allowed to disembark after some health screening. A group of 145 of the ship’s passengers then flew to Malaysia — and one, an elderly American woman, had symptoms when she landed. She has reportedly tested positive for the virus, while her husband did not.

NEW INFO 3:15 pm (Feb 15):  Epidemiologist Michael Mina summarizes an important study from a team of medical scientists in Wuhan. (The linked paper is a preprint, and it has not been fully vetted by other scientists. However, it passed muster with an expert in the field, which suggests to me that it provides valuable information.)  Over 8000 people identified as contacts of people with COVID-19 were tested for the SARS-CoV-2 virus that causes that disease. More than one-third of the contacts tested positive for the viral infection, reinforcing the contagiousness of this disease. Fortunately, however, most of the infected contacts had only mild symptoms and were not sick enough to require medical care — at least not when they were tested. Presumably, the contacts have been quarantined and their health will be tracked.

INTERESTING READ 2:05 pm (Feb 15):  An interesting news story from UC-Berkeley about why bats seem to carry many viruses that cause problems when humans acquire those infections.

NEW INFO 1:00 pm (Feb 15):  The US readies coronavirus quarantine facilities at 15 military bases around the country

MONEY LAUNDERING 12:40 pm (Feb 15): “Money from key virus-hit areas [in China] will be sanitized with ultraviolet rays or heated and locked up for at least 14 days, before it is distributed again,” according to Fan Yifei, deputy governor of the People’s Bank of China.

UPDATE 11:00 am (Feb 15):  First COVID-19 death reported in Europe, as an 80-year-old Chinese tourist dies in France of the new coronavirus after 3 weeks in hospital.

UPDATE 9:35 am (Feb 15):  A second suspected case of COVID-19 reported in Africa, this one in eSwatini (Swaziland), near South Africa. Yesterday a case was confirmed in Egypt. Both cases followed international travel.

UPDATE 9:20 am (Feb 15):  From Helen Branswell, Singpore now has 72 confirmed cases of COVID-19. Despite diligent epidemiological tracking, however, it remains unclear how 8 cases became infected with the SARS-CoV-2 that causes the disease COVID-19.

UPDATE 8:30 am (Feb 15): Another 67 cases of SARS-CoV-2 infections have tested positive onboard the Diamond Princess cruiseship quarantined near Tokyo. That brings the total to 285. Also, the CDC announced that it will evacuate all US healthy citizens from the ship and bring them to military bases in the US, where they will undergo further quarantine. Those who have already tested postive and/or who have symptoms may have to remain quarantined in Japan for a while longer.

MODEL WITH VARIABLE TRANSMISSION 10:45 pm (Feb 14): Kyra Grantz, Jessica Metcalf, and Justin Lessler tackle an apparent dilemma in the epidemiological data on the spread of the coronavirus SARS-CoV-2. On the one hand, the value of R0 appears to be greater than 2 based on data from China, meaning that each infected person, on average, infects 2 or more people. On the other hand, most infected travelers do not seem to have set off significant transmission chains outside of China (although there certainly have been some secondary infections). How can these patterns be reconciled? In short, the resolution may lie in the variability between infected persons–or the settings when they are most infectious–in their propensity to infect others. So, for example, if most infected people start to feel a bit sick and stay home, but a few still feel well enough to go to a conference, then the average number of transmissions over all cases might be 2, but the variation in the number of transmissions could be quite high. In that case, most introductions of an infected traveler into a new community may lead nowhere (and appear inconsistent with a high rate of spread), but the occasional introduction could lead to a much larger (and potentially hard to contain) outbreak. In this scenario, it becomes harder to control the spread of an epidemic unless one can systematically identify the situations where such “super-spreading” events tend to occur; if one can identify and prevent those situations, however, then control of the outbreak may be more feasible. Lessler clearly explains and illustrates the ideas in a Twitter thread

NEW INFO 8:30 pm (Feb 14):  First confirmed case of COVID-19 (name of the syndrome caused by the new coronavirus) in Africa. The case was a traveler diagnosed in Egypt.

NEW INFO 8:20 pm (Feb 14):  The CDC will begin testing people with flu-like symptoms for the SARS-CoV-2 in five cities (Chicago, Los Angeles, New York, San Francisco, and Seattle), according to Scott Gottlieb, former FDA commissioner. This information won’t halt any outbreak that gets underway, but it will indicate when and where the virus gains a footfold in the US, and at what prevalence among people with flu-like illness. 

UPDATE 3:15 pm (Feb 14):  The latest update from CDC on testing for the coronavirus SARS-CoV-2 in the US is now showing 15 postive tests and 347 negative tests, with 81 cases pending. That’s 3 new positive cases and 29 negative results since the last update that I reported on Feb 10. 

UPDATE 3:00 pm (Feb 14): Epidemiologist Marc Lipsitch and colleagues estimate that fewer than half of COVID-19 cases are being detected in travelers, based on data from Singapore. This implies that there are more cases than known. It also implies that the average case severity is lower, because the less severe cases are more likely to escape detection. That said, however, those less severe cases may transmit the coronavirus, leading to more infections–including severe cases–in the long run. 

IN-DEPTH ANALYSES 1:30 pm (Feb 14): Computational biologist Joshua Weitz shared with me the link to a special event featuring 3 short talks on the SARS-CoV-2 outbreak that was organized this past Monday by the Center for Microbial Dynamics and Infection at Georgia Tech. The first speaker was Trevor Bedford, who leads the Nextstrain project that uses changes over time in microbial genome sequences, including the SARS-CoV-2 coronavirus, to understand the origin, transmission, and evolution of various pathogens. The second speaker was Weitz, who spoke about how experts use data to estimate the strength, speed, and final size of disease outbreaks in general, and the ongoing coronavirus outbreak in particular. He provided a separate link to his very clear slides. Importantly, Weitz explains some some of the uncertainties associated with these estimates, and some implications of these uncertainties for understanding the future of this outbreak. The third speaker was Phil Santangelo, who spoke on potential strategies used in antiviral drug design.

EXPERT PERSPECTIVE 1:15 pm (Feb 14): Infectious-disease epidemiologist Marc Lipsitch is quoted in the Wall Street Journal as saying It is likely we’ll see a global pandemic … If a pandemic happens, 40% to 70% of people world-wide are likely to be infected in the coming year.” In an informative Twitter thread, Lipsitch elaborates on why he thinks this pandemic scenario is likely, and what factors might prevent a pandemic from unfolding (including control measures, especially in countries with strong healthcare systems). He closes by saying that “Predictions can be wrong and I very much hope this is, but better to be prepared.”

NEW INFO 12:45 pm (Feb 14): In another worrisome development, Japan is experiencing a “stealth outbreak” with several cases of the coronavirus infection in people without any travel history to China, and some without any known links to others who have had this infection. These findings led infectious-disease modeler Richard Neher to tweet that “Reports like this make me doubt that containment of SARSCoV2 is likely.” You can read more about Neher’s concerns in the “Model of Global Spread” post below (8:45 pm on Feb 9). 

NOT SHIPSHAPE 11:40 pm (Feb 13): The situation on the cruiseship Diamond Princess continues to worsen. The passengers and crew are quarantined onboard the ship, which is docked near Tokyo. A passenger who was onboard the ship from January 20-25 was subsequently found to be infected in Hong Kong. Now a total of 218 passengers and crew have been found to be infected, with the totals increasing by over 40 since the previous report just two days ago. Given a difficult situation that seems to have been handled poorly, one can only hope that at least some valuable epidemiological evidence will come from the cases. It would be nice, for example, to have multiple viral genomes sequenced from each of the infected individuals, along with information about the people’s onboard contacts, dining, proximity of cabins, ventilation, etc. Similarly, given the relatively large (but still manageable) number of cases, this outbreak might provide better information on the distribution of severity in a country, Japan, with a strong (and not overwhelmed) medical system.

AN UNKNOWN 11:30 pm (Feb 13): Despite speculation that the SARS-CoV-2 outbreak will be limited by seasonality, that remains unknown. One of many important unknowns at present.  (h/t @mlipsitch)

STATUS 11:00 pm (Feb 13): Sorry for the lack of any updates over the previous two days. My work-related travel made it impossible. I did manage to retweet a few stories when I had breaks, but I wasn’t really able to synthesize things in my own mind.  This was mostly a reflection of my travel, but perhaps it’s also an indication that we have entered a period of considerable uncertainty when it comes to this viral epidemic. Before the quarantines in Wuhan and other Chinese cities, we had frequent numbers that allowed estimates of R0 and other quantities. Undoubtedly the quarantines helped reduce the rate of spread, but they also made it harder to interpret the more recent data.  Also, there are uncertainities associated with testing capacity, false negatives (failure to detect the virus in some infected people), and even changing criteria for diagnosing COVID-19. Some combination of these factors presumably explains the huge jump in cases reported yesterday–almost 15,000 newly confirmed cases in Hubei province, or about 10 times as many as the previous day. There also remains a lot of uncertainty about the distribution of the severity of the infection. That’s in part a reflection of the fact that the distribution of the severeity is very broad, with many infections producing mild symptoms (or none at all) and others requiring prolonged hospitalization, often under intensive care.

NEW NAME 2 pm (Feb 11): The coronavirus formerly known as nCoV2019 has been renamed COVID-19.  Correction: COVID-19 is the new name of the disease, not the virus itself. AND the virus is now named SARS-CoV-2 (for severe acute respiratory syndrome coronavirus 2).

UPDATE 11:10 pm (Feb 10): Several nCoV2019 genomes have been sequenced from Japan and Vietnam, and the data added to the @nextstrain phylogenetic tree. This tree shows the ancestry of the virus, based on the mutations that accumulate in different lineages. The new viral sequences from Japan and Vietnam fall in the large, growing cluster that includes most of the international travel-related cases.

UPDATE 10:35 pm (Feb 10):  Latest update from the CDC on testing for nCoV2019 in “people under investigation” (PUI) in the United States. They are currently reporting only 12 postive tests (same as last report), and now with 318 negative tests. So all 93 tests since the last update have been negative. However, there is a report tonight of another positive test, this one in San Diego for a person on one of the quarantined evacuation flights out of China, This person first tested negative, but was retested and found to have the nCoV2019 infection.

NEW INFO 8:30 am (Feb 10):  Two nCoV2019 viral genomes were isolated by the Chinese CDC from environmental samples at the Huanan Seafood Market in Wuhan, and they have been sequenced. The @nextstrain team analyzed the sequences, and they cluster with other early sequences isolated from infected people. This result strongly bolsters the supposition that this market was the source of the initial outbreak. Despite “seafood” in the market’s name, many other animals were sold there. Trevor Bedford suggests that the high level of viral contamination detected there might have been associated with butchering an infected animal, which seems quite plausible. In any case, the virus has subsequently been spreading from person to person.

MODEL OF GLOBAL SPREAD 8:45 pm (Feb 9): Biophysicist Richard Neher updates his graphical presentation of the increase in nCoV2019 cases in Hubei and elsewhere in China. The good news is that the rate of increase is declining. That’s expected given the extreme quarantine measures taken in Wuhan and other cities. However, it’s also clear that many smaller outbreaks have been seeded elsewhere in China and other countries. Some of these outbreaks will be contained with expertise and diligence, but others will likely escape notice until they become too large to contain. With travel, these outbreaks can seed new outbreaks, and so on, as discussed and illustrated by Trevor Bedford. (See the Expert Perspective posted below at 4:30 pm on Feb 8.) Neher has run simulations to get a handle on this scenario, using his educated guesses for the relevant parameters. In brief, he assumes there are many such outbreaks already underway, but running 2 or 3 months behind the Wuhan outbreak. With increased awareness among the public and health-care workers, many of these outbreaks will grow more slowly than Wuhan did and be contained. And even those that grow large will, like Wuhan, slow down once they become very large due to quarantines and other social distancing.  Nevertheless, Neher finds it’s quite possible to envision total global cases in several months that dwarf those seen in Hubei by 100-fold, even while it looks as though (as it does now) that the rate of increase is declining. I’ve posted a screen shot of this scenario below.

Nerer global scenario 09-Feb-2020

CONCERN NOTED 4:00 pm (Feb 9): Responding to news of several unlinked cases of nCoV2019 in Singapore, infectious-disease epidemiologist Mark Lipsitch notes that they “are expert at contact tracing [but this situation] increases level of concern that similar transmission may be occurring under the radar elsewhere. And deflates the notion that tropics not vulnerable.”

THINKING OUT LOUD 10:30 am (Feb 9): Following my comment on Twitter that draws attention to the large, globally emerging clade in the nCoV2019 sequence data (as I also explained in the Update just below), Dr. Emma Hodcroft commented that “it might be worth exploring a different root for the tree, given this cluster. Certainly notable!” That led me to recall that epidemiological data now indicates that, despite most of the early cases being associated with the Wuhan Seafood Market, there were a few even earlier cases that did not have any connections to that market. Therefore, the earliest sequenced viruses (which include several identical Wuhan islates and offshoots from those) likely derive from the market-associated outbreak. This large, emerging, globally spreading cluster of nCoV2019 sequences may well derive from the incipient outbreak that pre-dated the market-associated outbreak. Updated (see the New Info at 8:30 am Feb 10): With the new finding that environmentally isolated viral genome sequences from the market in Wuhan closely match many of the early cases, it now seems likely that the market was indeed the source of the oubreak. That said, I think the large, globally emerging clade discussed here bears watching and in-depth epidemiological investigation.

UPDATE 9:45 am (Feb 9): The @nextstrain team has just added several more genome sequences from nCoV2019 isolates to their analysis pipeline. There had been a period without new sequence data from China, so the only new data were coming from overseas cases. This update adds several more recent (but still January) sequences from China and Taiwan. What strikes me is the large cluster that emerges down at the bottom of the image (copied below), with cases now in mainland China, Taiwan, Korea, the US, Australia, England, and Belgium. And those in China include 1 sequence from Wuhan (WH04/20202) at base of this clade to two of the sequences just added (from Yunnan and Sichaun).

nCoV2019 nextstrain 09-Feb-2020

EXPERT PERSPECTIVE 4:30 pm (Feb 8): A short, and excellent, thread from infectious disease epidemiologist Trevor Bedford explaining why the next several months are so critical for the potential for global spread of nCoV2019. In essence, the Wuhan outbreak seeded new outbreaks in China and elsewhere. We now know that the Wuhan outbreak was not contained until it became huge. (See, for example, my simple estimate from 27 January that there were already on the order of 100,000 infected people in Wuhan). Not all of these infections led to “cases” in the sense of hospitalized patients or even those that saw a doctor. That’s because most infected people have only mild symptoms, but it appears that these mild infections can still contribute to the virus’s spread. (See updates below from Feb 4, regarding such cases in Germany and Hong Kong. There are probably many more such cases.) Importantly, all of the newly seeded outbreaks have to be much better contained to keep things in control. Bedford nicely shows this basic idea in his hand-drawn picture, which I’ve reproduced here.Seeded outbreaks from Bedford

UPDATE 10:20 pm (Feb 7):  Latest update from the CDC on testing for nCoV2019 in “people under investigation” (PUI) in the United States. Currently reporting 12 postive tests, with 225 negative tests, and 100 cases pending. So ~5% of cumulative tests have proven positive to date, similar to CDC’s recent reports. As noted two days ago, CDC will also now allow states to perform these tests. No states have reported test results to date, to my knowledge. Will states report test results directly, or via these CDC summaries?

CONCERN NOTED 12:45 pm (Feb 7):  Epidemiologist Maia Majumder expresses concern about nCoV2019 cases onboard cruise ships, including one quarantined off Japan, which now has 41 new cases (making a total of 61).  She points out that “cruise ships are notorious for infectious disease activity. A confined space with shared water, sanitation, and hygiene infrastructure; predominant activity in community spaces; and a plethora of buffets … will do that.”

NEW INFO 12:30 pnm (Feb 7): JAMA Network report on “Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus–Infected Pneumonia in Wuhan.”   Summary of findings reads as follows:  “In this single-center case series involving 138 patients with NCIP, 26% of patients required admission to the intensive care unit and 4.3% died. Presumed human-to-human hospital-associated transmission of 2019-nCoV was suspected in 41% of patients.”

NEW INFO 11:10 am (Feb 7): Helen Branswell reports that Maria Van Kerkhove, an epidemiologist with the World Health Organization, has analyzed data from 17,000 cases of nCoV2019 infections and found that “82% of cases are mild, 15% are severe and 3% are critical.” (Link to the verbal report here.) Numbers are presumably still based only on the cases that make it into the Chinese medical reporting system–without any serological testing of the population at large. So hopefully the percentages of severe and critical infections (versus cases) will turn out to be much lower. On the other hand, more undiagnosed cases mean more opportunities for long transmission chains in the community. The quarantines in hard-hit Chinese cities, and social distancing elsewhere, should reduce the number of such chains. But are they enough to halt the spread?

NEW INFO 11:00 am (Feb 7):  STAT news reporting that US hospitals are preparing for a possible spike in coronavirus cases. “Much of that work revolves around hospitals planning for what [Dr. Paul] Biddinger [medical director of emergency preparedness at Massachusetts General Hospital] called the ‘four S’s’ of a surge in patients amid an outbreak: supplies, staff, space, and the system that governs all of them.”

WAITING FOR MORE INFO BUT … 10:45 to 11:45 am (Feb 7): Reports circulating on Twitter that a  coronavirus isolated from a pangolin is an even closer genomic match to the Wuhan virus nCoV2019 than the closely related isolate from a bat. I await expert analysis and confirmation (or refutation) from Trevor Bedford and others. Pangolins are also called scaly anteaters. They are sometimes used in traditional Chinese medicine and their meat is considered a delicacy by someExpert Richard Neher weighs in. He says if the claim is based on the same pangolin-derived virus isolate that was discussed previously, then its genome sequence is certainly more distant to the outbreak isolates than one from a bat. However, infectious disease epidemiologist Tara Smith counters that the previously discussed virus isolate from a pangolin came  from another country, and there should be forthcoming new genome sequences from coronaviral isolates from pangolins recently obtained in China. In other words, this issue of the animal source still appears unsettled. Nature also has a news story about this, but nothing yet published in terms of data.

NEW INFO 11:00 pm (Feb 6):  Using expectations based on travel patterns from Wuhan to other countries, Marc Lipsitch and colleagues from Harvard’s School of Public Health suggest that Indonesia, Thailand, and perhaps Cambodia are “missing” nCoV2019 cases. This pattern means that the virus might be escaping notice, allowing more opportunities for it to gain a foothold in those countries.

EXPERT PERSPECTIVE 8:35 pm (Feb 6): Tom Inglesby is the Director of the Johns Hopkins University Center for Health Security. He has a must-read twitter thread calling on the US and international political, medical, and public-health communities to undertake coordinated action to prepare for a possible pandemic. Some of the points Dr. Inglesby makes (with my emphasis in bold):

  • Continued efforts are being made toward containing and ending the nCoV outbreak before it leads to widespread community transmission in countries around the world. However what we know about this virus /epidemic suggests this goal is likely not attainable”
  • “… extent of nCoV in China w/daily rise in numbers; high connectedness of China to rest of world; high r(0) of virus; spread of cases before containment started; cases in other countries that seem only explainable by community transmission – all suggest nCoV not containable.”
  • “Domestically — Is there community transmission in US? Given the thousands of passengers arriving daily from China in last 2 months prior to the recent travel restrictions, and given how transmissible nCov is seems possible, if not likely, there is already US transmission.”
  • Need plan of action for ramping up preparedness of US hospitals to care for high numbers of ARDS [acute respiratory distress syndrome] patients. Training & protecting HCWs [health care workers]. Assessment and management of PPE [personal protective equipment] supply. Understand vent supply in private sector and SNS [social netork services]. Screening and triage practices.”

NEW INFO 8:00 pm (Feb 6):  Extremely concerning news that 3 of 5 confirmed nCoV2019 cases in France are in intensive care, including a couple in their early 30s. While it appears that many cases (around the world) are not much worse than a cold, some others become extremely serious, even for healthy young adults. Why? No one knows.

NEW INFO 1:00 pm (Feb 6):  Kaiyuan Sun and colleagues estimate relative risk of nCoV2019 as a function of age. Strikingly lower risk for kids and youngest adults. h/t Richard Neher.

NEWS 11:00 am (Feb 6):  One of the first doctors to recognize the nCoV2019 outbreak, and reprimanded by police in Wuhan for trying to inform the medical community about this new danger, has himself died from the virus.  RIP, Doctor Li Wenliang.

NEWS 3:00 pm (Feb 5): Wisconsin has reported its first confirmed case of nCoV2019. Interestingly, it involves someone who was infected in Beijing, but not Wuhan or the Hubei province.

NEWS 12:30 pm (Feb 5): The US FDA has granted permission to the various state public-health laboratories to test for the new coronavirus, nCoV2019. Previously, only the CDC could perform the tests. State labs will also send samples to the CDC for confirmation tests.

UPDATE 11:05 am (Feb 4): It’s now reported by expert Helen Branswell that the traveler from Wuhan who infected co-workers in Germany was not entirely asymptomatic, contrary to the Lancet paper. [See New Info from 5:00 pm on Jan 29 below for discussion of that paper.] Still, her symptoms were not obvious to others, and with the potential for hidden transmission chains, that seems pretty important. Moreover, that same paper reported that first German who was infected had a very high viral load in his sputum even after he seemed to have recovered, again suggesting the potential for hidden transmissions.

NEWS 10:30 am (Feb 4): Several new cases in Hong Kong do not have recent travel history to mainland China, nor other obvious connections to travelers. According to Chuang Shuk-kwan, head of the Centre for Health Protection’s communicable disease branch: “It is highly probably the four cases were infected locally, so there could be invisible chains of infection happening within communities … We do not rule out a large spread [of the virus] in the future.”

NEWS 10:20 am (Feb 4): There are some reports of travel-related nCoV2019 cases that do not involve travel to or from China. According to this tweet, a Korean may have been infected in Thailand, and a Malaysian in Singapore.

UPDATE 9:45 am (Feb 4): Richard Neher updates his informative graphs showing growth in cumulative numbers of nCoV2019 cases reported in Hubei (province where Wuhan is located) and elsewhere in China, as well as reported death rates and international travel cases. As Neher notes, there’s much we still don’t know well at all, such as the mortality rate. [See the Update from 6:20 pm on Feb 1 below for some of the complicated issues surrounding even a seemingly simple concept like the death rate.] While it is now clear that many cases are mild, there are also many cases that have not caused death (at least yet), but where the patients are critically ill. To my mind, a huge unknown is whether we will see other hotspots of this coronavirus in China (see News just below) and elsewhere, especially in areas with less developed medical systems and public-health infrastructure, in the weeks and months ahead.

NEWS 11:00 pm (Feb 3):  China closes off another large city, Wenzhou, according to The Straits Times. An east coast city with 9 million residents, Wenzhou is some distance from Wuhan. Only one resident per household can leave home every second day to shop for necessities. Schools are closed until March, and most businesses are shut for two weeks.

UPDATE 10:30 pm (Feb 3):  CDC updated its test results for “people under invesigation” (PUI) — that is, possible cases of nCoV2019 infection. The cumulative totals include 11 positives and 167 negatives, for an overall proportion of 6.2% positive tests. That’s up a bit from the previous report at 5%, although I think the new data includes two secondary infections of spouses.  So not much change. The backlog of pending cases is currently 82, down from 121 in the previous report. With the travel restrictions in place, I would guess that the number of new PUI cases would continue to decline … at least for a while. But we now enter a period of great uncertainty, as the outbreak spreads in China and into other countries.  From the NY Times:

  • “It’s very, very transmissible, and it almost certainly is going to be a pandemic,” said Dr. Anthony S. Fauci, director of the National Institute of Allergy and Infectious Disease. “But will it be catastrophic? I don’t know.”
  • It is “increasingly unlikely that the virus can be contained,” said Dr. Thomas R. Frieden, a former director of the Centers for Disease Control and Prevention who now runs Resolve to Save Lives, a nonprofit devoted to fighting epidemics. “It is therefore likely that it will spread, as flu and other organisms do, but we still don’t know how far, wide or deadly it will be.”

UPDATE 6:20 pm (Feb 1):  Epidemiologist Maia Majumder (@maiamajumder) provides a clear and concise explanation of the different ways of measuring and describing the “deadliness” of infectious diseases. As importantly, she explains why the different estimates change over time. In the case of the population mortality rate, that will tend to increase as an outbreak grows in size, before eventually reversing course once an outbreak has been brought under control. By contrast, the case fatality rate (CFR) reflects the fraction of diagnosed infections that cause death. This latter rate is subject to an early spike because the earliest cases are often the most severe. Also, increased awareness and testing of less severe cases tends to increase over time. Both of these factors mean the CFR typically declines as an outbreak progresses. On the other hand, many serious cases (as reported for nCoV2019 by Chinese health authorities) have not yet resolved. In short, the CFR remains poorly understood at this time. Then, too, there are some people who get an infection, including the nCoV2019 virus, but with no or minimal symptoms, and so they are not diagnosed, These subclinical cases can be discovered later on when populations are surveyed serologically, allowing a further, lower estimate of the fraction of total infections (those discovered later as well as those discovered clinically) that cause death. Dr. Majumder also reminds us that different subpopulations (such as those with chronic diseases) may face different risks.

COMMENT 1:15 pm (Feb 1): There’s plenty of reasons to be worried about this nCoV2019 outbreak, especially if you’re in the most affected areas of China. Hopefully, journalists, scientists, clinicians, and everyone else on social media can communicate and amplify the relevant facts and uncertainties, and avoid sloppy thinking and conspiracy theories.

UPDATE 1:10 pm (Feb 1):  Boom. Trevor Bedford demolishes the claim that the nCoV2019 genome contains bits of HIV sequence, and thereby destroys the conspiracy theory that this corona virus was a bioengineered strain.

UPDATE 12:20 pm (Feb 1): Using his knowledge as an infectious disease specialist combined with common sense, Adam Lauring dismantles the assertion that people might become reinfected with nCoV2019. That’s not to say it’s impossible, but it’s extremely unlikely given such closely related strains (just a few mutations different), and there’s no way of testing that yet. Perhaps something was lost in translation, and the original work only meant to say that nCoV2019 infections increased one’s risk of other secondary infections?

NEW INFO 11:20 am (Feb 1): Simple graphs can reveal a lot. Biophysicist Richard Neher plotted the number of nCoV2019 cases in Hubei and the rest of China over time. Note the log-transformed scale, so a linear trend corresponds to exponential growth. Neher notes some slight decline in the rate of increase, which could mean either that the number of new cases is decelerating (which would be good news) or that the testing capacity is limited and becoming saturated (not good news). Daniel Falush weighed in, suggesting that the number of deaths—alas, not subject to testing limits—would be a better indicator, and he thought that would show signs of slowing. So Neher produced a plot of those data. And yikes: There’s no hint of any slowing, with the number of fatalities doubling about every 3 days. Here’s a screen shot of Neher’s plot:

Corona virus fatalities trajectory from Richard Neher

UPDATE 6:30 pm (Jan 31):  CDC has updated data on the numbers of positive, negative, and pending cases for “patients under investigation.” The proportion of positive tests continues to drop, which is good news:  It’s now 6/120 = 5.0% of the tests of potential nCoV2019 cases in the US that have proven to be positive to date, down from 6.8% a few days ago and 13.5% before that. However, the number of pending (unresolved) cases has continued to increase and now stands at 121.

AN IDEA 11:45 am (Jan 31): For biology teachers at multiple levels (including high school, undergrad, and graduate), this on-going corona virus outbreak could provide valuable information and timely data for teaching core concepts like R0, transmission chains, genomes, phylogenies & more. Students could even analyze and/or interpret new incoming data themselves to draw their own inferences. To see what I mean, check out the superb multi-slide presentation of important concepts, data, and inferences based on the first 42 sequenced genomes of the virus produced and made freely available by the @nextstrain team.

NEW ANALYSIS 10:15 am (Jan 31): The ever-clever Trevor Bedford (say that 10 times fast!) has a twitter thread explaining his new analysis for estimating the probability distribution of the number of new mutations in the viral genome per transmission from one person to another. It relies on knowing the time course of infections and transmissions, as well as the mutation rate, but these parameters are reasonably bounded and becoming better estimated over time. One can also do the inverse analysis to estimate the number of intermediate infections in a transmission chain, which could be useful for epidemiological tracking and investigation.

NEW INFO 10:00 am (Jan 31): New clinical and epidemiologically relevant information on secondary infections in Germany reported in New England Journal of Medicine. h/t @HelenBranswell, who highlights that Patient 1 had “recovered” enough to go to work, but when tested had “a high viral load of 10^8 [100,000,000] copies per milliliter in his sputum.” If this situation is common, it would seem to present a new set of serious challenges.

UPDATE 7:00 pm (Jan 30):The number of international-travel cases continues to increase exponentially, as shown in graph produced by Trevor Bedford. Note the logarithmic y-axis, so a straight line corresponds to exponential growth. With more travel restrictions in place, we would expect that to slow down, even if the epidemic within Wuhan, or China more broadly, continues. So Trevor says he will try to track these data as a function of airplane passengers.

NEW INFO 1:20 pm (Jan 30): First case of transmission within US reported by CDC. Involves a husband and wife, so no evidence of any community-wide spread here in the US to date.

UPDATE 1:00 pm (Jan 30): The @nextstrain team has updated their excellent multi-slide presentation of important inferences based on the first 42 sequenced genomes of the virus. These data continue to point to a single recent origin of the outbreak, with rapid expansion from there. As I noted yesterday, there appear to be clusters of travelers that share one or two mutations, presumably derived from the same intermediate source in the chains of transmissions. These cases, if investigated epidemiologically, might provide valuable clues about the transmission dynamics.

NEW INFO 5:00 pm (Jan 29): I’ve mentioned that we know little about the distribution of outcomes with respect to disease severity. The Lancet (a leading medical journal) has just published a paper analyzing 99 of the early cases in Wuhan, China, that were confiirmed as involving the new nCoV2019 corona virus. These cases involved hospitalization, during a period of considerable stress on the health-care system.  Half of these cases involved patients with other underlying chronic diseases. Nonetheless, about 75% of the patients now have a good prognosis, and about a third have been discharged from the hospital. However, many of the others developed “acute respitory distress syndrome” and 11 of the 99 died. Again, these are atypically severe cases. It’s also very interesting that almost half of all the cases involved individuals who worked at the Wuhan seafood market.  However, the earliest cases appear to not involve that market, which makes this association rather curious.  Also, we still don’t know much about the infections that are less severe for individuals, but which are nonetheless very important for understanding the viral transmission dynamics.

NEW INFO 6:10 pm (Jan 29): From Richard Neher via twitter, a report that 4 Germans who tested postitive after contact with a work-place visitor from Wuhan are apparently asymptomatic. It’s unclear from the short tweet whether the Germans never exhbited any symptoms at all, or only very mild ones, but they are now recovered. This finding supports the conclusion that there are many mild infections (good news), but it also implies that the number of infected people–some of whom might transmit the virus–is quite large (bad news), in line with some of the calculations of the number infected.

NEW INFO 5:20 pm (Jan 29): More nCoV2019 viral genomes have been sequenced from around the world and placed in their phylogenetic context by the @nextstrain team.  I’ve copied a screenshot below that shows the latest version, plotted in terms of mutational distance from the earliest Wuhan samples. It’s very interesting that there are clusters of some of the international-travel cases including (about 2/3 of the way down) the French (2 identical isolates), one from the USA, and a Taiwan case. They all share one mutation that none of the other isolates have. That might not seem like much, but with so few mutations in total (over the whole tree), it strongly suggests that these cases all have some secondary (or later) source in common along the viral transmission chain.  And just above that cluster is another cluster of isolates that all share 2 mutations with an interesting mix of international and non-Wuhan Chinese samples. So there might be some useful epidemiological clues in there, if this information can be coupled with careful studies of patient travel and contacts. 

nCoV2019 nextrstrain phylogram

NEW INFO 12:45 pm (Jan 29): Physicist Dirk Brockmann presents an analysis that uses actual worldwide travel data to estimate the relative probabilities (“import risks”) that travelers from Wuhan enter other countries via specific airports. The results align quite well with where new international cases have been turning up.  [h/t to Richard Neher @richardneher via twitter]

NEW INFO 12:15 pm (Jan 29):  I had read some discussions on the web that the nCoV2019 outbreak might be caused by a “recombinant” virus. This, in turn, led to some conspiracy-type speculation about a virus that escaped from a lab. Recombinants can occur naturally, as well as be made in the lab. So I wondered whether there was good evidence for recombination in these viruses and, if so, whether the recombination pre-dated or post-dated the split between the most closely related bat strain and the Wuhan strain nCoV2019. I turned, once again, to expert Trevor Bedford (@trvrb), since this is a phylogenetically based question. He pointed me to in-depth analyses and discussion of these issues among experts.  First, some genetic recombination has occasionally occurred in these viruses in nature. Second, he sees no evidence of “recombination in the ~50 years since the ancestor of nCoV outbreak viruses split from RaTG13” (i.e., the most closely related corona virus in the data base, which derives from a bat in the year 2013).

NEW INFO 11:00 am (Jan 29):  A bit of good news from CDC. Now 5/73 = 6.8% tests of potential nCoV2019 cases in US have been positive to date. It had been 5/37 = 13.5% at last update. That means no new confirmed positive cases in US. As expected given the spreading infection and expanding concern, the number of pending (unresolved) cases has increased.

NEW INFO 2:00 pm (Jan 27):  On Twitter @afferent_input found monthly data on visitors to US from China. Seasonal data suggest number of travelers in this period might be ~2X higher than my crude estimate, which would reduce the inferred infection proportion and numbers relative to my initial estimates. This factor and the other new info posted [just below] might roughly cancel. Again, all of this information is rough and crudely extrapolated. And none of it bears on critical issues of distribution of severity of infections, etc. 

NEW INFO 1:20 pm (Jan 27):   Here’s another interesting (and concerning) bit of data from the CDC. So far, 37 cases have been investigated.  Of these, 5 have been positive, and 32 negative. However, there are 73 more cases with pending test results in just this first week of CDC data. If the % positive holds in these pending cases, that would triple my estimate of proportion & number infected.  That is, the product (5/37) x 73 suggests that an additional 10 or so infected individuals will be identified as having entered the US in this first week. Again, this is a crude estimate with assumptions, and these potential cases are also presumably in isolation, etc.

Links to my first two posts

Jan 29:  Developing News on the Wuhan Corona Virus, nCoV2019

Jan 27:  Quick-and-Dirty Estimate of Number of nCoV2019 Infections in Wuhan



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