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Humanity was hit with two biological weapons: a manufactured SARS CoV two virus created in collaboration with UNC Chapel Hill and Wuhan, which exposed the entire population to the spike protein, and mRNA injections, which installed about 7x more spike into people per injection. It is believed that those who received the injections can shed spike protein onto others, particularly when freshly vaccinated and producing high levels of spike protein. This shedding is believed to occur via exosomes, either through breath or bodily fluids.

There are various theories that still need to be further investigated. The Wuhan snake origin lab, the meteorite Ron, and the mix with HIV are all being discussed on social media. It's interesting to see how this phenomenon unfolds.

The primary mode of transmission of SARS Coronavirus 2 is through aerosols, which are small water droplets and droplet nuclei. These aerosols can be inhaled and spread the virus. Scientific studies have shown that low-cost masks, like surgical masks, have pore sizes that range from 80 to 500 microns, while the virus is only 1 micron in diameter. This means that the largest droplet coated with the virus can pass through the mask. Even when wearing multiple masks, the moisture from breathing still fogs up glasses, indicating that aerosols can escape. This highlights the importance of understanding the limitations of masks in preventing the spread of the virus.

COVID spreads quickly in crowds, especially as winter approaches and people spend more time indoors with less ventilation. Seeing friends, colleagues, and family also increases the risk of transmission.

I can clarify the virus name and its transmission. The virus spreads through droplets or respiratory transmission, not through the air in a military sense. As for information from China, I don't have any details about environmental samples or animal testing at the marketplace.

Outbreaks are primarily caused by symptomatic individuals, not asymptomatic carriers. While there may be occasional instances where asymptomatic individuals can transmit the disease, they do not play a significant role in driving epidemics.

Professor David Moranz discusses the concept of viral-bacterial co-pathogenesis and its relevance to sepsis, septic shock, and death from bacterial disease, using early 20th-century pandemics as a lens. Key points: - The idea that sepsis, septic shock, and death can be downstream events prompts examination of upstream events and progression to prevent outcomes. - Co-pathogenesis, involving simultaneous infection with a virus and a bacterium, was recognized in the early 1900s. Ellis Island health officers noted higher mortality in children with viral infections like measles when co-infected with bacteria such as streptococci or diphtheria. - During World War I, crowded army camps experienced massive measles outbreaks and secondary bacterial pneumonia deaths. A notable study tracked soldiers with measles: those who were colonized with group A beta-hemolytic streptococcus (Strep pyogenes) had all complications and deaths among colonized individuals, while non-colonized soldiers fared better. - With influenza in 1918, pathology from the Armed Forces Institute of Pathology showed that death was associated with severe bacterial pneumonia in all 58 autopsies studied. Across 173 autopsy studies from 15 countries (over 8,000 individuals), 95% had pneumopathogens cultured from the lungs; 80.4% of pleural effusions contained pneumopathogens; 70% of those with pre-death blood cultures had one or more positive cultures. - The principal pneumopathogens identified were Streptococcus pneumoniae (pneumococcus), Streptococcus pyogenes (Group A beta-hemolytic strep), and Staphylococcus, though other pathogens occurred as well, including meningococcus in some outbreaks of fatal influenza-associated pneumonia. - Pathology commonly showed bronchopneumonia, with viral lesions characterized by infection of apical cells of the bronchiolar and bronchial epithelium. The virus disrupts the protective epithelial layer, enabling bacteria to colonize the basal layer and cause pneumonia. This is why bronchopneumonia was prevalent in both measles- and influenza-associated deaths. - The proximate cause of death often involved hypoxia from damaged pulmonary tissue or alveolar edema; sepsis and multi-organ failure were also cited in some cases, alongside heart or renal failure in others. - Notable interpretation by contemporaries: French physician quote that influenza condemns secondary infections; William McCallum remarked he never autopsied a flu death without finding bacteria. He viewed these events as epidemics of severe bacterial pneumonia precipitated by the two viruses. - In modern research, experimental models (mostly mice, sometimes primates) show that adding influenza (or similar viruses) to a bacterial infection like pneumococcus results in markedly worse pathology and faster death, illustrating the continuing relevance of viral-bacterial co-pathogenesis. The talk links historical observations to current inquiry, describing how colonization by pneumopathogens in crowded settings, followed by a cytolytic viral infection that damages the respiratory epithelium, creates conditions for severe bacterial pneumonia and respiratory compromise.

COVID-19 is excreted in the stool of all patients with respiratory infections because it travels through the blood vessels to the gut. The virus clears in the upper respiratory system first, then in the gut. According to Speaker 1, in the majority of people, COVID starts in the gut first, with diarrhea leading to the inhalation of evaporated virus. Therefore, catching the virus on an airplane is more likely to occur from the airplane toilet rather than from a coughing passenger. Speaker 1 has analyzed the stools of thousands of COVID patients and claims there is a distinct smell to COVID, similar to C. Diff. Speaker 1 claims to be able to identify the smell of COVID in airport bathrooms and can diagnose C. Diff in patients simply by smelling it.

Medical masks alone cannot protect against the new coronavirus. They should be combined with hand hygiene and other preventive measures. The World Health Organization (WHO) recommends wearing masks only if you have cough, fever, or difficulty breathing, and when seeking medical care. If you are healthy but caring for an infected person, wear a mask when in the same room. Masks do not need to be worn by those without symptoms as there is no evidence of protection. Properly discard used masks and clean hands with alcohol hand rub or soap and water. For more information, visit the WHO website at who.int. Thank you.

The existence of the virus is questioned due to the initial PCR test methodology being based on a computer model virus, not a purified isolate from real patients. China did not have a pure isolate, so they used elements of a genetic code to create a computer model sequence. This sequence became the basis for the PCR test. The WHO document states that the diagnosis of SARS CoV-2 should not rely on isolating the virus. The virus has never been purified, and the disease is based on generic symptoms that could be anything.

If COVID-19 is mainly spread through aerosols, it would be difficult to avoid getting infected. However, the speaker believes that the virus is primarily transmitted through close contact with larger particles. This is reassuring because it means that measures like face shields, eye protection, and surgical masks can provide some level of protection. If aerosols are the main mode of transmission, it would have significant practical implications, such as the need to reconsider public transport, reopening buildings, and even going to supermarkets.

We are addressing real and critical threats related to a novel coronavirus called CAPS, which is similar to the viruses that caused the SARS epidemic and MERS outbreaks. We need to be prepared for a fast-moving and highly lethal pandemic of a respiratory pathogen. This disease is more transmissible than SARS or MERS and as contagious as influenza. The virus can be easily transmitted through the air, making everyone susceptible. Asymptomatic individuals can also spread the virus, leading to a severe pandemic that affects people worldwide. Many countries will be affected simultaneously.

Speaker 0 argues that the only way to disrupt a virus and reduce its ability to advance so the immune system can finish it off is to use a nasal spray and gargle. He asserts that if a respiratory virus hits, nasal sprays and gargles have the best track record, and that anything can work as long as it’s used twice daily. His preferred option is ClearXLEAR nasal spray with the companion gargle, but he also mentions iodine-based options such as Immune Mist or NeoMed Betadine, as well as hypertonic saline and colloidal silver. He emphasizes that the routine must be performed twice a day. Speaker 0 further explains the infection timeline: you inhale a virus on an airplane, and it resides in your nose for about seven days, where it replicates without you realizing it. It then drains to the throat, leading to a sore throat, and only then do you recognize you have something. By that point, you’re seven days behind the infection. Therefore, the only way to disrupt the virus and reduce its burden enough for the immune system to finish it off is to use a nasal spray and gargle, and he insists that doing this twice daily is super important. He states that he has interviewed people on his show who never had COVID and have remained free of respiratory illnesses for extended periods—five, ten, fifteen years, even one man for twenty years. He asserts that this practice could be a game changer if many people adopted it. Speaker 1 asks whether there is anything society can do to prevent the next outbreak and what people can do to prepare their bodies to fight off future infections. Speaker 0 reiterates his stance that an airborne viral respiratory illness is likely to be the next major threat and that a twice-daily nasal spray and gargle routine is critical for disruption of the virus, enabling the immune system to finish it off. He maintains that if many people adopt this approach, it could be a game changer.

If a highly infectious virus kills over 10 million people in the coming decades, it will likely be due to an airborne pandemic. Without prior preparation, millions could be affected. Future administrations will inevitably face pandemic challenges, making prevention and preparedness a top priority. As Trump becomes president, his response to the first major epidemic may reflect his impulsive and fact-averse tendencies. Another pandemic is almost certain. Welcome to Event 201, which addresses a potential severe pandemic involving a new coronavirus. The idea of a novel avian virus outbreak in China is plausible, and we could potentially develop vaccines quickly using RNA sequencing and self-administration methods.

A public health emergency of international concern is an extraordinary event that poses a public health risk to other countries through the international spread of disease, potentially requiring a coordinated global response. It's serious, sudden, unusual, unexpected, and has implications beyond a single nation's borders, possibly needing immediate international action. A pandemic is when a new virus affects the world's population. Declaring a public health emergency of international concern is the highest alarm level by the World Health Organization, meant to coordinate immediate action before an event escalates into a pandemic. In the case of COVID-19, we faced both a public health emergency of international concern and a pandemic.

If a highly infectious virus is to cause over 10 million deaths in the coming decades, it is likely due to a pandemic. Without proper preparedness, a new airborne outbreak could significantly impact millions. Future administrations will inevitably face challenges similar to those of their predecessors, making pandemic prevention a top priority. The current administration will confront its first major epidemic, potentially influenced by impulsive and fact-averse attitudes. The likelihood of another severe pandemic is high, as seen with the emergence of a new coronavirus. There is a possibility of a novel avian virus outbreak, which could lead to rapid vaccine development and self-administration.

China has now reportedly produced a new macrolide-resistant form of mycoplasma, a bacteria that causes walking pneumonia. This variant is spreading and has overwhelmed hospitals in Beijing and other areas. It exhibits a mutation in the 23s RNA, making it immune to common treatments. The bacteria also produces a toxin that causes lung inflammation. Treatment options are limited, as certain medications cannot be used on pregnant women, children, or those with heart issues. This poses a significant concern, especially since the infection cycle is long and it is affecting children the most. The situation may lead to overwhelming hospital systems and potential quarantines.

In the future, there might be a deadly airborne disease. To effectively handle it, we need a global infrastructure that enables us to detect, isolate, and respond to it swiftly. This infrastructure should be in place not only in our country but worldwide. By investing in this infrastructure, we can be better prepared to tackle future outbreaks, such as a new strain of flu similar to the Spanish flu, that may emerge in the next five or ten years.

Indoor transmission of the virus is a concern, as infected individuals release aerosols that can fill a room. Masks are crucial for protection indoors, at least in the medium term. Over-the-counter options are not very effective in preventing virus transmission. However, masks alone may not be sufficient, as the virus can also infect through the eyes. It is important to clarify that masks do work and should be worn. Society needs to embrace mask-wearing, similar to addressing climate change.

COVID-19 is believed to be a man-made pandemic, specifically the SARS-CoV-2 virus created in the Wuhan Institute of Virology through a US-Chinese collaboration. The virus was engineered with the goal of developing a vaccine.

For the majority of people who contract this virus, it will result in a mild to moderate illness, including older individuals. The risk is higher for older people, but it does not mean they are likely to pass away. Most people, regardless of age, will survive the virus, even those in their eighties. The majority of cases can be managed at home, and not everyone will need testing. It is important to emphasize that the disease is generally mild for most individuals. Older people are at higher risk, but they will still experience a mild to moderate illness in the majority of cases. Recovery is expected for the majority of people, regardless of age.

If you are unvaccinated, the virus will find you, especially the delta variant. It spreads aggressively among unvaccinated communities. The virus targets those who are not fully vaccinated, regardless of location. It seeks out older individuals who have not received their third dose. Ultimately, it will find nearly everyone, as seen in cases where only one or two doses were received.

It is not dangerous to briefly encounter a jogger, smoker, or someone in a supermarket in terms of getting infected with Covid-19. Unlike other viruses like measles, which are highly contagious, with the coronaviruses we are dealing with now, it takes at least five to fifteen minutes of close proximity to directly infect someone. This timeframe may be even shorter for individuals with a very sensitive immune system. Simply passing by someone cannot lead to infection as the exposure to the virus is too minimal to initiate an infection.