HN note: The COVID shots have not saved any lives, but they sure have taken many.
VIDEO: Senate Hearing Shown Evidence Covid Shot Causes 145% Increase In Death (banned.video)
A colleague of mine sent me a copy of a recent opinion piece published in Cell Host and Microbe entitled ‘Rethinking next-generation vaccines for coronaviruses, influenzaviruses, and other respiratory viruses’. This opinion piece by David M. Morens, Jeffery K. Taubenberger and Anthony S. Fauci is not only interesting because of its content but because the senior author is one Anthony Fauci.
I was not the only one to spot this publication and subsequently discovered that Alex Berenson had already pulled out the key findings from the paper and published them on his Substack.
I would recommend reading both the paper itself (which is written in something approaching plain English) and Alex’s excellent Substack, but here I thought I would go through this paper and bring out some of the key points.
So why is this paper so interesting? Given that the senior author is Anthony Fauci isn’t it just going to be a spin piece hailing the unbounded success of the ‘safe and effective’ COVID-19 vaccines? Well, as it turns out, not quite.
Let’s start with this quote from the introductory sections of the paper, which really sets the tone:
During the COVID-19 pandemic, the rapid development and deployment of SARS-CoV-2 vaccines has saved innumerable lives and helped to achieve early partial pandemic control. However, as variant SARS-CoV-2 strains have emerged, deficiencies in these vaccines reminiscent of influenza vaccines have become apparent. The vaccines for these two very different viruses have common characteristics: they elicit incomplete and short-lived protection against evolving virus variants that escape population immunity. (My emphasis)
Once past the obligatory statement of lives saved in the COVID-19 pandemic, Fauci and his colleagues dive straight in with the admission that the vaccines are ‘deficient’ and only ever achieved ‘partial pandemic control’, which seems a slight oxymoronic statement as either you are controlling the pandemic, or you are not and partial controlled means (partially) uncontrolled. Putting this aside, the reason for this ‘partial control’ was because the vaccines were leaky, transient in their effect, and never produced effective levels of immunity in the population because of the evolution of escape variants. Simply put, these vaccines were not very good.
A point the authors kind of make in their next paragraph:
Considering that vaccine development and licensure is a long and complex process requiring years of preclinical and clinical safety and efficacy data, the limitations of influenza and SARS-CoV-2 vaccines remind us that candidate vaccines for most other respiratory viruses have to date been insufficiently protective for consideration of licensure, including candidate vaccines against RSV, a major killer of infants and the elderly, parainfluenzaviruses, endemic coronaviruses, and many other ‘common cold’ viruses that cause significant morbidity and economic loss.
Here, of course, the implication is that the SARS-CoV-2 vaccines would have been sufficiently protective to achieve regulatory approval, but of course they did not go through the “complex process requiring years of preclinical and clinical safety and efficacy data” but were instead fast-tracked through a highly abbreviated development programme, so we’ll never know. Despite this, that authors acknowledge that these vaccines have limitations and highlight the fact that vaccines to other coronaviruses (amongst other things) have failed to satisfy the regulatory authorities that they are effective. The question of whether the COVID-19 vaccines would actually be deemed to be effective in more normal times is one I’ll come back to this at the end of this article.
The authors go further in explaining why vaccines like those developed to prevent diseases caused by respiratory viruses are scientifically unlikely to be effective at controlling these diseases:
Taking all of these factors into account, it is not surprising that none of the predominantly mucosal respiratory viruses have ever been effectively controlled by vaccines. This observation raises a question of fundamental importance: if natural mucosal respiratory virus infections do not elicit complete and long-term protective immunity against reinfection, how can we expect vaccines, especially systemically administered non-replicating vaccines, to do so?
In other words, it appears that we haven’t evolved to develop long-term immunity to pathogens like SARS-CoV-2 and so it was always extremely unlikely that the COVID-19 vaccines were ever going to produce effective long-term protection, especially as they are “systemically administered non-replicating vaccines”. Any transient immunity would wane and so were always going to get reinfected.
The reasons for this lack of “complete and long-term protective immunity against reinfection” are discussed in a section of the paper entitled: ‘Natural infections with mucosal respiratory viruses may not be fully controlled by human immune responses because the human immune system has evolved to tolerate them during very short intervals of mucosal viral replication.’
It turns out we’ve evolved to tolerate some level of respiratory infection (especially in the upper airways) rather than having our immune system going into over-drive all the time. Given the prevalence of respiratory viruses in the environment, it is easy to see why this might be the case because if our immune systems went into action at the first (literal) sniff of a viral infection, we’d be sick all the time.
This local tolerance of respiratory viruses is in contrast to systemic viral infections where we do generate a strong, long-lasting immune response and vaccination can be effective, e.g. measles.
The consequence of driving a systemic immune response to what would normally be a contained, tolerated local infection is unclear, but this is something Alex Berenson discusses in his Substack article:
Many studies in humans and experimental animals, some before sIgA had been recognised, indicate that secretory mucosal immunity is generally more effective than systemic immunity in controlling mucosal respiratory viruses and that tissue-resident memory T cells can be effective in rapidly responding to mucosal infection.
Finally, the authors discuss the numerous pieces of scientific evidence showing that generating a local immune response is the best way of protecting oneself from respiratory infection and that this response can be driven through T-cell immunity. Again, this calls into doubt the effectiveness of systemic vaccination against such respiratory viruses whilst simultaneously acknowledging the role of T-cells in immunity to viruses like SARS-CoV-2… something that was consistently downplayed during the pandemic itself.
Overall, the authors are surprisingly critical of single vaccine approaches:
The implications for vaccinology are clear: preventing viral upper respiratory infection and limiting post-infection viral spread to contiguous respiratory compartments are both critical but may not be easily achieved with single vaccines.
Especially those using systemic administration of agents to induce immunity to respiratory viruses:
Attempting to control mucosal respiratory viruses with systemically administered non-replicating vaccines has thus far been largely unsuccessful, indicating that new approaches are needed.
Based on prior experience of vaccines against diseases like COVID-19, it would seem to be extremely unlikely that a single vaccine would achieve what is required to prevent severe disease. So, one is left with the impression that either we were extremely lucky with the SARS-CoV-2 vaccinations, which bucked this trend, or a conclusion that these vaccinations are not actually very ‘effective’ at “controlling a mucosal respiratory virus”. Interestingly, there is no discussion of this point in the paper, and one might naively believe that it would have been a critical point of interest give the billions of doses of the SARS-CoV-2 vaccines given to people worldwide. Why are these vaccines examples of success, given the fact that they appear to have many of the features of countless other vaccine failures?
Before finishing off with a few thoughts, I thought it worth highlighting this passage:
The observation that repeated infant exposures to RSV reduces severe disease upon subsequent infection, coupled with experimental data, suggest that respiratory vaccine timing and frequency can be important. Indeed, a recent controversial theory posits that the key determinant of immune/vaccine protection is not immune memory and recall but repeated antigenic exposures. This proposal seems to be contradicted by many observable phenomena but is at the same time consistent with the observation that maintenance of memory T cells in the lungs is associated with repeated antigenic exposures.
So, repeated exposure to some viral pathogens may actually be important in maintaining immunity to them and preventing them causing severe disease. This would be consistent with the observations discussed above about the limited form of immunity such exposure gives and speaks to the concept that “a challenged immune system, is a healthy immune system”. Therefore, locking everyone up in their houses for months on end would be predicted to result in a loss of immunity to common respiratory viruses that would normally circulate through the population causing mild disease while reinforcing our immunity to them. As a result, once people were allowed to mix again one would further predict a wave of things like RSV infection causing much more severe disease in what had essentially become a naïve population. Indeed, this is what was seen in places like New Zealand post-lockdown. Not only were the SARS-CoV-2 vaccines unlikely to do what we wanted them to, but lockdowns were always likely to produce predictable viral problems. Worst cold in the world anyone?
This is a very interesting article, not just because of what it has to say about vaccinations to viruses like SARS-CoV-2, but also because of who is saying it. There are many statements in here that I suspect would fall foul of the ‘fact checkers’, not least the discussion about the transient and incomplete immunity produced by the SARS-CoV-2 vaccines and their various deficiencies and the fact that they would seem to be a far cry from what anyone might reasonably deem to be genuinely ‘effective’. One is certainly left with the impression that written by a different author the slant could easily have been something like “SARS-CoV-2 vaccinations are another example of our failure to develop effective vaccines against mucosal respiratory viruses”.
Overall, I’m left with the questions as to whether the SARS-CoV-2 vaccines are really exceptions to the failures to produce suitably effective vaccines against such respiratory viruses or whether in other circumstances they would not be approved for use. Maybe in a pandemic it is necessary to accept vaccines that “elicit incomplete and short-lived protection against evolving virus variants that escape population immunity”? Perhaps one could argue something is better than nothing, but if this is the case why should we keep on taking them after the pandemic is passed, especially if “none of the predominantly mucosal respiratory viruses have ever been effectively controlled by vaccines”?
Because of exceptional circumstances, the SARS-CoV-2 vaccines did not go through the usual “complex process requiring years of preclinical and clinical safety and efficacy data” and were fast-tracked to approval. Many of the missing studies were the long-term safety studies usually required of vaccines before approval and we need to always remember that it is the balance of benefit AND risk that is important in a pharmaceutical treatment, not just whether they have some level of efficacy… something that is especially true for vaccines that will be given to healthy individuals who may never gain any benefit. Unfortunately, vaccine safety and the risks to the patient are one area that Fauci and his colleagues are strangely silent on in this piece.
Finally, having comprehensively highlighted the issues and deficiencies with both the current SARS-CoV-2 vaccines and the challenges of making better ones, what do the authors suggest is the answer to this problem?
With regard to public health usefulness and acceptance, it will be important to consider roles for high dose or frequently boosted vaccine antigens, mixed-sequential vaccines (e.g. prime-boost with different vaccines), and whether these approaches will be accepted by providers, regulators, and the public.
We also need to ask whether there are other vaccine approaches that should be considered, such as sequential seasonal vaccinations and supplemental mucosal vaccines to stimulate specific upper respiratory immunity, or non-specific innate immunity. Such approaches might include prime-boost approaches, for example, mixing elicitation of systemic and mucosal immunity, perhaps with prime systemic vaccination followed by a boost with intranasal vaccination or vice versa.
Their answer is, perhaps unsurprisingly, a lot more vaccinations. I would certainly agree that there needs to be more effective vaccinations, and I am not underplaying the seriousness of some of the diseases caused by these viruses. But if we accept that immunity against respiratory viruses is somehow ‘hardwired’ to be transient, then the imagined approach here seems to be one in which we could spend our lives injecting, taking, and sniffing a stream of pharmaceutical products ad nauseam and ad infinitum. No wonder it is right to ask, “whether these approaches will be accepted by providers, regulators, and the public”?
George Santayana is the pseudonym of a senior executive at a British pharmaceutical company.
Tags: Alex Berenson
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