USA Winter 2021 CoVID-19 Resurgence Post-Christmas Update

We have successfully modeled every USA CoVID-19 wave using: N(t){approx}max[N/o exp{+(t/[t/R(1+/s t)])exp(-{delta}/ot)}] , where N(t) is the total number of new CoVID-19 cases above a prior baseline, and t/R sets the doubling time t/dbl=t/R(ln2). The new parameters {/s;{delta}/o} measure mitigation efforts among the uninfected population, with {/s>0} being associated with Social Distancing and vaccinations; while {{delta}/o>0} is associated with mask-wearing, which gives a faster (d/dt)N(t) post-peak drop-off. The predicted pandemic wave end is when N(t) no longer increases. Using data from 11/15/21-12/30/21, our prior medrxiv.org preprint{*} showed this initial Omicron CoVID-19 wave had values that matched the initial stage of the prior USA Winter 2020 resurgence {t/R{approx}8.05 days; /s{approx}0.011/day}, when practically no one was vaccinated. In addition, this initial Winter 2021 wave showed virtually no mask-wearing {{delta}/o{approx}(0.001 x 10^-3)/day}, making it capable of infecting virtually everyone. These parameter values indicated that the Omicron variant was likely evading the vaccines in people who thought they were protected. As a result, stopping the Omicron CoVID-19 spread must once again rely on enhanced Social Distancing and mask-wearing, just like the initial pandemic wave in March 2020. Analyzing the USA follow-on data from 12/25/21-1/31/22 shows that people did exactly that after the Christmas Holiday season, resulting in the following model parameters and values: N/o[12/25/21]=3,121,000 ; N[t=1/31/22]{approx}26,870,400 ; N[t=3/21/22]{approx}50,522,800 ; t/R=7.636 days ; t/dbl=5.293 days ; /s=0.03168/day ; {delta}/o=(0.96 x 10^-3)/day ; for this wave by itself, with all prior waves subtracted out as a baseline. Combining all the USA CoVID-19 waves gives these updated totals: N/tot(t=[1/31/22]){approx}77,122,000 vs N/data{approx}75,399,650 ; N/tot(t=[3/21/22]){approx}101,476,500; N/tot(t=[6/10/22]){approx}111,531,800 assuming no future CoVID-19 Resurgence (with 4 Figures). {*}(10.1101_2021.10.15.21265078)

meters f S ; og measure mitigation e¤orts among the uninfected population, with f S > 0g being associated with Social Distancing and vaccinations; while f o > 0g is associated with mask-wearing, which gives a faster d dt N (t) post-peak drop-o¤ . The predicted pandemic wave end is when N (t) no longer increases.
Using data from 11/15/21-12/30/21, our prior medrxiv.org preprint showed this initial Omicron CoVID-19 wave had values that matched the initial stage of the prior USA Winter 2020 resurgence ftR 8:05 days ; S 0:011 = dayg, when practically no one was vaccinated. In addition, this initial Winter 2021 wave showed virtually no mask-wearing f o 0:001 10 3 = dayg, making it capable of infecting virtually everyone. These parameter values indicated that the Omicron variant was likely evading the vaccines in people who thought they were protected.
As a result, stopping the Omicron CoVID-19 spread must once again rely on enhanced Social Distancing and mask-wearing, just like the initial pandemic wave in March 2020. Analyzing the USA follow-on data from 12/25/21-1/31/22 shows that people did exactly that after the Christmas Holiday season, resulting in the following model parameters and values: No 1 . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review)

Introduction
Each USA CoVID-19 wave 1 7 , from the pandemic start (3/21/20) to the present day (1/31/22), has been successfully modeled using this basic N (t) function for the total number of new CoVID-19 cases above a prior baseline: 1] with t R setting the pandemic doubling time t dbl = t R (ln 2), as in standard SEIR (Susceptible, Exposed, Infected, Recovered or Removed) epidemiology models. The new Eq. [1.1] parameters model mitigation e¤orts among the uninfected population, with f S > 0g associated with Social Distancing and vaccinations; and f o > 0g associated with mask-wearing, which gives a faster d dt N (t) post-peak drop-o¤ . The predicted pandemic wave ends when N (t) no longer increases.
Given a total population of N ALL , the uninfected population U (t) is: [1.2] Using Eq. [1.1] assumes N (t) << N ALL , so that pandemic saturation e¤ects can be ignored. Also, SEIR models do not generally include what the U (t) uninfected population is doing in response to the pandemic. In contrast, Eq. [1.1] was developed as a non-local extension of SEIR models, to account for how the uninfected population, as a whole, is mitigating the pandemic spread.
Each new USA CoVID-19 wave starts with a sharp rise in the total number N (t) of new cases, while the t = 0 point is chosen to be when the resurgence is …rst easily identi…ed, with N (t = 0) = N o being the number of cases above baseline at that time. Since Eq. [1.1] is empirically based, it does not predict when each new CoVID-19 wave will start, or what biological and social circumstances are causing the new wave. But once the CoVID-19 wave becomes established, Eq. [1.1] appears to successfully predict its time evolution.
Since the same few parameters in Eq. [1.1] have successfully modeled the time evolution of each USA CoVID-19 wave 1 7 , this result shows that the response of the U (t) uninfected population has been similar for each wave, even if di¤erent dominating factors were driving the CoVID-19 resurgences.
All CoVID-19 data used here came from the open-source bing.com CoVID-Tracker 8 database. The initial stage of the USA Winter 2021 CoVID-19 Resurgence started when the Omicron CoVID-19 variant became ascendant. Our prior medrxiv.org preprint 7 covering data from 11/15/21-12/30/21 showed that this stage was characterized by: [1.3c] These values are similar to the USA Winter 2020 CoVID-19 Resurgence, which only had a fully-vaccinated rate of~0:3%. Since the USA now has a signi…cantly vaccinated population, it makes it likely that the Omicron CoVID-19 variant is evading the vaccines.
While the prior 2020 Winter Resurgence had a signi…cant amount of maskwearing [ o (2020) 1:748 10 3 = day], the initial part of the 2021 Winter Resurgence was associated with virtually no mask-wearing: CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

(which was not certified by peer review)
The copyright holder for this preprint this version posted February 6, 2022. This result similar to the initial stage of the USA Summer 2021 wave 5 . That commonality shows that resurgences may be driven by people letting their guard down with respect to Social Distancing and mask-wearing. As this initial Winter 2021 CoVID-19 Resurgence occurred between Thanksgiving and Christmas, festivities likely contributed to this CoVID-19 surge.
However, right after the Christmas Holiday, when the number of new cases reached~3; 120; 000 cases above baseline, the uninfected population began practicing enhanced Social Distancing and mask-wearing. This change is similar to what occurred during the latter portion of the USA Summer 2021 CoVID-19 wave 5 , and it is modeled here in this update.

Post-Christmas USA Winter 2021 Resurgence
Using the USA Summer 2021 CoVID-19 Resurgence as a baseline, it showed that the USA Winter 2021 CoVID-19 Resurgence started around 11/15/21. The dots in Figure 1 show the total number of new CoVID-19 cases above the Summer 2021 USA CoVID-19 baseline 5 6 . The Figure 1 continuous line shows the original CoVID-19 projections for this initial stage of the USA Winter 2021 CoVID-19 Resurgence 7 , using data from 11/15/21-12/30/21. Figure 2 includes follow-on data after this initial USA Winter 2021 CoVID-19 Resurgence, with data and models updates for 12/25/21-1/31/22, covering the post-Christmas CoVID-19 surge. Almost immediately after the Christmas Holiday, the uninfected population returned to enhanced Social Distancing and mask-wearing, creating a distinct change in the N (t) function after 12/25/21.
Modeling the 12/25/21-1/31/22 period of the USA Winter 2021 wave in Figure 2 shows that this CoVID-19 wave can subside prior to infection of the entire USA population. This latter portion has these model parameters: [2.1e] The N o (12=25=21) = 3; 121; 000 starting point for the behavior change in N (t) is similar to the prior Summer 2021 Resurgence, which also showed a behavior change in N (t) at N o (8=13=21) = 3; 200; 000. This commonality shows that the uninfected population altered their behavior at similar points, which is likely when some hospitals became overwhelmed.
3 . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

(which was not certified by peer review)
The copyright holder for this preprint this version posted February 6, 2022. ; Figure 3 shows the total number of CoVID-19 cases, N tot (t), resulting from combining all waves of the CoVID-19 pandemic, from March 2020 through January 2022. Whenever the pandemic appeared to be beaten down, people became more complacent, allowing new CoVID-19 variants to spread, and the pandemic rose up again, almost with every season.
The daily number of new cases dN tot (t) = dt in Figure 3 has peaks for the initial Spring 2020 pandemic; a Summer 2020 resurgence; the long Winter 2020 Resurgence; a small uptick in Spring 2021; the Summer 2021 Resurgence; and now the Winter 2021 Resurgence. Figure 4 presents a tabulated summary of all the model parameters that were derived for each CoVID-19 wave. It shows these overall features: (a) The t dbl = t R (ln 2) doubling times for several CoVID-19 waves vary only from f5:3 5:6 daysg.
(b) The S Social Distancing and vaccination parameter for this CoVID-19 wave is one of the largest values, except for the early 2020 pandemic start.
(c) Given a fast-rising CoVID-19 pandemic Resurgence, the uninfected population generally takes notice of the severity of a new CoVID-19 wave when the new infections reach a level of~3; 000; 000 above its baseline.
(d) The mask-wearing parameter, o , models the width and duration of the post-peak tail. Increased mask-wearing remains one the most powerful factors for hastening the CoVID-19 pandemic end.

Summary
Since our CoVID-19 modeling has been successful at predicting the time evolution of each USA CoVID-19 wave 1 7 , using the same few parameters: is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

(which was not certified by peer review)
The copyright holder for this preprint this version posted February 6, 2022. ; Just after the Christmas Holiday, the uninfected population responded to this CoVID-19 surge with enhanced Social Distancing and mask-wearing.  CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review)