COVID-19 VOCs – Especially Delta Variant – More Virulent Than Original Strain

COVID Variant Concept

A large study from Ontario confirms that SARS-CoV-2 variants of concern (VOCs), especially the Delta variant, are more virulent than the native strain of the virus, increasing people’s risk of hospitalization, admission to the intensive care unit (ICU) and death due to COVID-19. The research is published in the CMAJ (Canadian Medical Association Journal).

The study included 212 326 cases of COVID-19 reported between February 7 and June 26, 2021, in Ontario, Canada’s largest province with a population of almost 14.8 million. Variants of concern include those with the N501Y mutation such as Alpha, Beta and Gamma as well as Delta, which have replaced the original SARS-CoV-2 strain. Of the total cases, 22.4% were non-VOC, 76.7% were infections with N501Y mutations, and 2.8% were probable Delta.

By April 2021, the Delta variant was present in Ontario and was the dominant strain by July 2021.

“The emergence of novel SARS-CoV-2 VOCs has slowed progress against the pandemic in 3 distinct ways, namely by increasing transmissibility and the virus’ reproduction number, by increasing immune escape and diminishing vaccine effectiveness, and by increasing the virulence of SARS-CoV-2 infection,” write coauthors Drs. David Fisman and Ashley Tuite, Dalla Lana School of Public Health, University of Toronto, Toronto, Ontario.

Some findings:

  • People infected with VOCs were significantly younger and less likely to have comorbidities than those with non-VOC infections
  • Infections with VOCs were more common in the Greater Toronto and Hamilton Area, Ontario’s largest metropolitan area
  • Delta variants were significantly less common in Ottawa, Ontario’s second largest metropolitan area
  • With Alpha, Beta and Gamma VOC infections, risks of hospitalization were 52% higher, admission to ICU was 89% higher and death was 51% higher; with Delta infections, risks were 108%, 235% and 133% higher, respectively

Even after adjusting for age, sex, comorbidities and other factors, the increased risk of adverse outcomes persisted.

The researchers also looked at the effect of vaccination, which blunted the severity of VOCs by reducing the risk of severe disease and death in partially and fully vaccinated people.

“The effects reported here represent a substantial degree of protection against death conferred by vaccines (about 80%–90%), even when they fail to prevent infection. Such direct protective effects may help reduce the health impacts of ongoing SARS-CoV-2 transmission in Ontario, even if herd immunity proves elusive, given the high reproduction numbers of VOCs,” write the authors.

The research findings add to studies from England, Scotland and Singapore indicating the Delta variant increases risk of emergency department use, hospitalization and severe outcomes.

“The increasing virulence of SARS-CoV-2 VOCs will lead to a considerably larger, and more deadly, pandemic than would have occurred in the absence of the emergence of VOCs,” write the authors.

In a related editorial, Dr. Kirsten Patrick, Interim Editor-in-Chief, CMAJ, urges Canada’s leaders to use all available tools to control the spread of SARS-CoV-2 as a second COVID-19 pandemic winter approaches.

“Canada is battling a different pandemic from the one it faced in early 2020. The virus has become smarter and more dangerous, which means that we need to be smarter too. Canada’s governments can keep people safe by enacting policies that wisely combine all the measures that have been shown to be effective,” writes Dr. Patrick.

Effective measures include boosting SARS-CoV-2 vaccination rates in Canada by extending vaccine mandates and passports and prohibiting anti-vaccination rallies near health care and educational facilities; prioritizing the approval of safe vaccines for children; working with other countries to ensure vaccine delivery globally; and continuing to use established public health tools to identify, track and control outbreaks.

“We must collectively learn from past mistakes and make sure to use all the tools at our disposal to avoid future lockdowns and prevent further devastation to our health care infrastructure,” she concludes.

Reference: “Evaluation of the relative virulence of novel SARS-CoV-2 variants: a retrospective cohort study in Ontario, Canada” by David N. Fisman and Ashleigh R. Tuite, 4 October 2021, Canadian Medical Association Journal.
DOI: 10.1503/cmaj.211248

1 Comment on "COVID-19 VOCs – Especially Delta Variant – More Virulent Than Original Strain"

  1. Howard Jeffrey Bender, Ph.D. | October 11, 2021 at 11:13 am | Reply

    While increased virulence could be the reason the Delta variant is more deadly, that could also be caused by different kinds of spikes that avoid the vaccines and our immune system could do the same thing.

    All the coronaviruses and all their variants have different protein spikes, with Delta having one that’s more efficient at getting around the vaccines. But the real problem is in the virus itself, not its protein shell, and why the most dangerous (MERS, SARS, and Covid-19) are so infectious. My independent research has found multiple one-in-a-million nucleotide sequence matches between all the coronaviruses and the human genome. Those sequences are the same as some of the loops of human tRNA. Using those loops and their amino acid code matches, viruses may be able to fool the nucleus membrane in cells to allow the virus to enter and associate with the human DNA, creating more opportunities for further infection. Our immune system may be compromised and may no longer be able to stop the virus and other diseases from attacking organs throughout the body. Vaccines that attack the virus protein shells while ignoring their contents are doomed to failure from the Darwin effect, but recognizing these loops suggests a possible approach to successful coronavirus vaccines. Only the infection process is considered in my work, not the innate virulence of the virus. For more info, check out this YouTube, Coronavirus – Using Your DNA Against You.

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