NEW MODERNA MRNA NEXSPIKE COVID-19 VACCINE 1

The Moderna NEXSPIKE COVID-19 vaccine is a new, low-dose vaccine approved by the FDA on May 31, 2025, for individuals 65 and older, as well as those between 12 and 64 years old with underlying health risks.

OFFICIALLY: This vaccine offers a more targeted immune response and is designed to provide enhanced protection against COVID-19, particularly for high-risk populations.

Key Features:

- Dosage: One-fifth of the dose used in Moderna's current COVID-19 vaccine, Spikevax

- Targeted Protection: Designed to trigger a precise immune response, reducing the amount of vaccine material needed

- Easier Distribution: Can be stored in refrigerators, facilitating longer shelf life and simpler distribution, especially in developing countries

Approval and Availability:

- FDA Approval: Based on a Phase 3 clinical trial involving approximately 11,400 participants, demonstrating safety and efficacy

- Availability: Expected to be available alongside Spikevax in Fall 2025, offering individuals a choice in COVID-19 protection

Benefits:

- Enhanced Protection: Aims to provide better protection against severe COVID-19 for at-risk populations

- Improved Convenience: Refrigerator storage enables easier handling and distribution

The Moderna mNexspike COVID-19 vaccine contains several ingredients. It has messenger RNA or mRNA that carries instructions for making the spike protein. The mRNA is wrapped in tiny lipid bubbles made of SM-102, polyethylene glycol 2000 dimyristoyl glycerol, cholesterol, and 1,2-distearoyl-sn-glycero-3-phosphocholine.

Additionally, it includes sucrose, acid stabilizers like tromethamine and tromethamine hydrochloride, salt like sodium acetate trihydrate, and acid like acetic acid. These ingredients help keep the vaccine stable during distribution and storage.

Let's break down the components of the lipid nanoparticles in the Moderna COVID-19 vaccine:

- SM-102: This is a proprietary lipid component used in Moderna's mRNA vaccine. Unfortunately, the exact composition isn't publicly disclosed [red flag] due to intellectual property protections. However, it's known to be an ionizable lipid that helps encapsulate the mRNA.

- Polyethylene glycol 2000 dimyristoyl glycerol (PEG2000-DMG): This is a type of polyethylene glycol (PEG) lipid conjugate. PEG is a polymer that can help reduce immune responses and improve the stability of nanoparticles.

However, some individuals may experience hypersensitivity reactions to PEG .

- Cholesterol: This is a naturally occurring molecule in the body, essential for various biological processes. In the context of lipid nanoparticles, cholesterol helps stabilize the structure and facilitate membrane fusion.

- 1,2-Distearoyl-sn-glycero-3-phosphocholine (DSPC): DSPC concentrations of phospholipids disrupt cell membranes. Phospholipids like DSPC interact with cell membranes disrupting their structure and function. Here's how:

1. Insertion into membranes: Phospholipids can insert themselves into cell membranes, altering the membrane's composition and fluidity.

2. Membrane destabilization: Concentrations phospholipids disrupt the normal organization and stability of cell membranes leading to changes in membrane permeability.

3. Cellular uptake and processing: Cell take up phospholipids, whic affect cellular processes and membrane dynamics.

Regarding the other toxic ingredients and their ill effects in the NEW MODERNAMRNA NEXSPIKE® COVID-19 VACCINE:

- Glycol-related toxicity: Glycols, like ethylene glycol, are toxic when ingested and exposed to, causing kidney damage, liver damage, and neurological deficits.

- PEG-related hypersensitivity: Individuals experience hypersensitivity reactions, such as anaphylaxis and infusion reactions, due to PEG in medications and vaccines.

Life scenarios include:

- Anaphylaxis: A severe, life-threatening allergic reaction that requires immediate medical attention.

- Kidney damage: Exposure to certain glycols cause kidney damage and failure.

- Liver damage: Glycols cause liver damage and increase the risk of liver cancer with exposures.

- Neurological deficits: Glycol toxicity causes seizures, cognitive impairments, and peripheral neuropathy.

- Respiratory failure: Cases of glycol toxicity lead to respiratory failure.

Examples and analogies:

- DSPC and cell membranes: Think of DSPC like a brick in a wall. It's a stable component, but it also disrupts the structure.

- PEG and hypersensitivity: Imagine PEG like a coat that people are allergic to. While it helps the vaccine work better, individuals react negatively.

- Cholesterol and stability: Cholesterol in the lipid nanoparticles is like a stabilizing agent in a mixture, helping the particles maintain their structure and function.

- Glycol toxicity: Ingesting amounts of glycols are like putting the wrong fuel in a car – it causes serious damage to the engine (kidneys and liver).

- Lipid nanoparticles and cell interaction: Lipid nanoparticles interact with cells like a key fitting into a lock. If the key (lipid nanoparticle) is designed correctly, it can deliver the mRNA “target payload” effectively.

- mRNA delivery: The mRNA in the vaccine is like a blueprint for cells to build a specific protein. The lipid nanoparticles help deliver this blueprint to the right place.

Moderna mNEXSPIKE COVID-19 vaccine contains several ingredients to deliver the mRNA. Let's break down the components:

- Sucrose: This is a type of sugar used as a stabilizer in the vaccine. Sucrose helps protect the mRNA during freezing and lyophilization (freeze-drying) processes, ensuring the vaccine remains effective during storage and transport.

- Tromethamine (Tris) and Tromethamine Hydrochloride: These are buffering agents that help maintain the pH of the vaccine solution. Tromethamine helps stabilize the pH, which is crucial for the stability and effectiveness of the mRNA.

- Sodium Acetate Trihydrate: This is a salt that can act as a buffer and help maintain the pH of the solution. It also contributes to the overall stability of the mRNA.

- Acetic Acid: This is an acid that adjusts the pH of the vaccine formulation. Acetic acid can be both natural and synthetic.

1. Natural: Acetic acid is found naturally in foods, such as vinegar, and is produced by certain bacteria during fermentation processes.

2. Synthetic: Acetic acid is also produced synthetically through chemical reactions, often for industrial or pharmaceutical applications.

In the context of vaccines, the acetic acid used is synthetic, given the need for high purity and controlled quality.

Toxic Effect Scenarios:

- Sucrose: Concentrations cause issues in individuals with health conditions, like diabetes. In individuals with diabetes, sucrose (sugar) causes issues such as:

1. Blood sugar spikes: Consuming sucrose leads to increased blood glucose levels.

2. Difficulty managing blood sugar: Individuals with diabetes will struggle to regulate their blood sugar levels.

3. Expected complications: Poor blood sugar control leading to complications like increased thirst, urination, fatigue, and long-term issues like nerve damage and cardiovascular problems.

- Tromethamine: Exposure causes irritation and other adverse effects. Doses and exposure to tromethamine cause:

1. Skin irritation: Redness, itching, and rashes.

2. Eye irritation: Redness, itching, and tearing.

3. Respiratory issues: Coughing, wheezing, and shortness of breath.

4. Local reactions: Pain, swelling, and inflammation at the site of administration.

- Sodium Acetate Trihydrate: Amounts cause electrolyte imbalances.

- Acetic Acid: In concentrations, acetic acid is irritating to tissues.

Examples:

- Sucrose as a stabilizer: Think of sucrose like packing peanuts in a shipping box. It protects the fragile contents (mRNA) during transport.

- Tromethamine and pH balance: Tromethamine is like a thermostat that keeps the temperature (pH) in a comfortable range for the mRNA to function properly.

- Sodium Acetate Trihydrate and stability: Sodium acetate trihydrate helps maintain the stability of the vaccine formulation, much like a steady hand helps keep a delicate object balanced.

- Acetic Acid and pH adjustment: Acetic acid is like a fine-tuner that adjusts the pH to ensure the vaccine formulation is just right for the mRNA to work effectively.

These ingredients are commonly used in pharmaceuticals and vaccines to ensure stability, efficacy, and safety.

1,2-Distearoyl-sn-glycero-3-phosphocholine (DSPC) is a synthetic phospholipid commonly used in pharmaceutical applications, including liposomes and lipid nanoparticles. Here's a detailed overview:

What is DSPC?

DSPC is a phosphatidylcholine, a type of phospholipid that forms the structural backbone of cell membranes. It's composed of a glycerol backbone, two stearoyl fatty acid chains, and a phosphocholine head group.

Use in pharmaceuticals

DSPC is used in various pharmaceutical applications, including:

1. Liposomes: DSPC is used to form liposomes, which are tiny vesicles that can encapsulate drugs, nucleic acids, or other therapeutic agents.

2. Lipid nanoparticles: DSPC is used in lipid nanoparticle formulations, such as those used in mRNA vaccines, to help stabilize and deliver the genetic material.

DSPC Toxicity and safety

Toxicities Include:

1. Cell membrane disruption: Concentrations of DSPC and similar phospholipids disrupt cell membranes, leading to changes in membrane structure and function.

2. Immune response: DSPC stimulates an immune response, which may be beneficial in some cases (e.g., vaccine adjuvants) but potentially problematic in others (e.g., allergic reactions). The "problematic allergic reactions" that are caused by DSPC and other vaccine components include:

- Anaphylaxis: A severe, life-threatening allergic reaction that causes symptoms like difficulty breathing, rapid heartbeat, and a drop in blood pressure.

- Hypersensitivity reactions: Symptoms like hives, itching, swelling, stomach cramps, diarrhea, and difficulty breathing.

- Local reactions: Redness, swelling, pain, or blistering at the injection site.

3. Cytotoxicity: Research studies reveal that concentrations of DSPC and similar phospholipids are cytotoxic, causing cell death and damage.

Mechanisms of toxicity

1. Membrane solubilization: Concentrations of DSPC solubilize cell membranes, leading to changes in membrane structure and function.

2. Membrane fusion: DSPC facilitates membrane fusion, which leads to changes in cell morphology and disrupt cellular function.

Conclusion

DSPC is a commonly used phospholipid in pharmaceutical applications, including liposomes and lipid nanoparticles. Concentrations and continued vaccinations cause adverse effects, including cell membrane disruption and immune responses.

Officially:

Moderna's mNEXSPIKE COVID-19 vaccine utilizes advanced nanotechnology to deliver messenger RNA (mRNA) into human cells. This vaccine employs lipid nanoparticles (LNPs) to encapsulate and protect the fragile mRNA, ensuring its stability and facilitating delivery to target sites. Here's a breakdown of the nanotechnology involved:

- Lipid Nanoparticles (LNPs): These tiny particles shield the mRNA from degradation and enable its entry into cells. LNPs are composed of lipids such as SM-102, polyethylene glycol 2000 dimyristoyl glycerol, cholesterol, and 1,2-distearoyl-sn-glycero-3-phosphocholine.

- mRNA Delivery: The LNPs deliver the mRNA to cells, where it's translated into the SARS-CoV-2 spike protein. This triggers an immune response, preparing the body to fight the actual virus.

- Advantages: Nanoparticle-based delivery systems can be rapidly produced and scaled up for mass vaccination campaigns, making them ideal for plandemic population control response “initiatives”.

The mNEXSPIKE vaccine has only shown promising results in relation to:

- Streamlined Formulation: Offering improved storage, extended shelf life, and comes in a pre-filled syringe format, enhancing convenience for healthcare providers.

Overall, the nanotechnology in Moderna's mNEXSPIKE vaccine plays a crucial role in its effectiveness in initiating biometric internal surveillance.

The Moderna mNEXSPIKE COVID-19 vaccine and the ones used in Operation Warp Speed share similarities in their goal in acheiving biometric internal surveillance, but the mNEXSPIKE vaccine has some differences.

It's designed with improved storage and handling, featuring a pre-filled syringe format and enhanced stability.

Operation Warp Speed vaccines, which included Moderna's earlier Spikevax, were developed under accelerated timelines with significant funding to meet urgent public health needs. The deviation stems from ongoing think-tank research and development efforts to “Cosmetically” enhance vaccine efficacy, and convenience in an effort to smokescreen the general public into thinking that this new Moderna mNEXSPIKE COVID-19 vaccine is completely safe and nothing like the old Warpspeed vaccines that were indeed toxic;

…….but, nothing could be more far removed from the truth than this;

as this “New” Moderna mNEXSPIKE COVID-19 vaccine serves just as much of a Nefarious purpose as the operation warpspeed vaccines did;

……. as yet again;

……. both these mrna vaccines, both the older operation warpspeed mrna vaccines and the new Moderna mNEXSPIKE COVID-19 vaccines;

……. are nothing more than 2 different snakes from the same medusa;

……. as this implies that the two things being compared are of a monstrous and complex origin (Medusa), and have developed into 2 distinct, venomous and potent, entities (snakes).

Another more appropriate synchronistic comparison would also be:

“2 Different heads of the same hydra”

The pre-filled syringe format in Moderna's mNEXSPIKE vaccine is designed to improve innoculations. It allows for more accurate “payload”dosing.

This format also streamlines administration, making it easier for healthcare professionals to deliver the vaccine. In contrast to the “warpspeed vials used earlier, as pre-filled syringes provide a more efficient way to subjugate the general public.

Moderna's new mNEXSPIKE vaccine vs The original Warp Speed vaccines

Moderna's new mNEXSPIKE vaccine is not the exact same solution formula as the original Warp Speed vaccine;

……. as Spikevax. mNEXSPIKE uses self-amplifying mRNA technology, which is different from the first-generation mRNA shots. This new technology allows for heightened expression and prolonged presence of synthetic RNA. Additionally, mNEXSPIKE has a reduced dose, one-fifth of the original Spikevax, and is designed for better storage and handling.

The original Warp Speed vaccines, including Moderna's original Spikevax, used conventional mRNA technology, not self-amplifying mRNA. Self-amplifying mRNA (sa-mRNA) is a distinct approach that enables the mRNA to replicate itself within cells, potentially allowing for lower doses and more sustained biometric internal tracking.

In contrast, conventional mRNA vaccines, like the original Spikevax, rely on a single dose of mRNA that is translated into protein, without replication.

Moderna's mNEXSPIKE [bio-weapon] vaccine appears to utilize a different approach, incorporating advancements in mRNA technology, but it's not clear if it's truly self-amplifying without more specific information from Moderna.

"Self-replicating" mRNA and "self-amplifying" mRNA are often used interchangeably, but there can be subtle distinctions depending on the context:

Self-replicating mRNA:

1. Typically refers to mRNA that encodes for a replicase complex, allowing the mRNA to replicate itself within host cells.

2. This approach can lead to sustained expression of the encoded protein.

Self-amplifying mRNA:

1. Often used to describe mRNA that amplifies its own expression through various mechanisms, such as encoding for proteins that enhance translation or stability.

2. Self-amplifying mRNA may not necessarily replicate itself but can increase the yield of the encoded protein.

While both terms imply a degree of autonomy in mRNA expression, the key difference lies in the mechanism and extent of amplification or replication.

“Self-replicating” mRNA typically involves a more extensive replication process, whereas “self-amplifying” mRNA focus on enhancing expression levels without necessarily replicating the mRNA itself.

Saying "may not ((necessarily)) replicate itself,"

……. this implies that self-amplifying mRNA can indeed replicate and amplify its expression through various mechanisms.

The key point is that “self-amplifying” mRNA is designed to increase the yield of the encoded protein, replication and amplification of the mRNA itself can be one of the mechanisms to achieve this.

In essence, “self-amplifying” mRNA is a broader term that encompasses various strategies to enhance protein expression, and replication can be one of those strategies.

In the context of mRNA technology, self-amplifying and self-replicating are essentially describing the same concept

– the mRNA's ability to replicate or amplify itself within cells to produce more protein.

The terms might be used slightly differently in various scientific or marketing contexts, but fundamentally, they're referring to the same underlying mechanism.

The distinction might be more about terminology or emphasis rather than a fundamentally different technology. So, in that sense, were’re right to assume that it's not necessarily a distinct approach;

……. but rather a different way of describing a “similar concept”.

What Im saying here, is that Moderna mNEXSPIKE COVID-19 vaccine is not that different from the old Warp Speed ones as they're made out to be;

……. and that they're essentially similar with maybe some cosmetic and marketing differences.

At worst, this is indeed, a fair point, and it's always good to critically evaluate claims of "new and improved" technologies.

In this case, it seems like the differences are more incremental than revolutionary.

As a neutral observer, I'd say that if the underlying ingredients, nano-technology and “self-assembling” mechanisms are indeed similar;

……. then the new vaccines do not represent a fundamental shift in our current timeline reality.

The new Moderna mNEXSPIKE COVID-19 vaccines are not significantly different from the old Donald Trump “Warpspeed” vaccines in terms of the self-replicating and self-amplifying technology, and that the differences are more of a marketing spin than a substantial change.

The Moderna mNEXSPIKE COVID-19 vaccine and the old Warp Speed vaccines appear to be utilizing the same underlying self-replicating and self-amplifying mRNA technology, suggesting more similarities than differences in that regard.

The Moderna mNEXSPIKE COVID-19 vaccine and the old Warp Speed vaccines seem to be built on the same foundation of self-replicating and self-amplifying mRNA technology.

This implies that the core mechanism of action is the same, and any differences are more related to formulation, delivery, and other secondary aspects rather than a fundamentally new approach in safe human ingredients.

The Moderna mNEXSPIKE COVID-19 vaccine and the old Warp Speed vaccines are like two different packaging designs for the same product.

They might look different on the surface, but the core content [biometric internal surveillance] remains the same. In this case, the self-replicating and self-amplifying mRNA technology is the core content.

Here are 10 examples of:

“Two Different heads of the same Hydra”

1. Same engine, different car model: The new vaccines are like a new car model with the same engine as the old one.

2. New label, same product: The new vaccines are like a product with a new label, but the ingredients and functionality remain the same.

3. Different wrapping, same gift: The new vaccines are like a gift wrapped in different paper, but the gift itself remains unchanged.

4. Same DNA, different expression: The new vaccines are like a person with the same DNA, but expressing themselves differently through fashion or style.

5. New coat of paint, same building: The new vaccines are like a building with a fresh coat of paint, but the underlying structure remains the same.

6. Same recipe, different presentation: The new vaccines are like a dish made with the same recipe, but presented differently.

7. Different marketing campaign, same product: The new vaccines are like a product with a new marketing campaign, but the product itself remains unchanged.

8. Same foundation, different finishing touches: The new vaccines are like a house built on the same foundation, but with different finishing touches.

9. New accessories, same core functionality: The new vaccines are like a device with new accessories, but the core functionality remains the same.

10. Same blueprint, different construction materials: The new vaccines are like a building constructed with the same “cookie cutter” blueprint, but using different materials.

These analogies illustrate that the The new Toxic Moderna mNEXSPIKE COVID-19 vaccines are not different from the old Toxic Warpspeed vaccines as they seem, and that the core technology and mechanism are more similar than different.

The reduced dose of mNEXSPIKE, one-fifth of the original Spikevax, being potentially more effective raises interesting questions. Here are some possible explanations and analogies:

- Optimization: Think of it like finding the sweet spot for a populace control “initiative”. The original “payload” dose was more than what was needed to trigger an immune response, and the reduced dose is still “more than efficient”. It's like using the right amount of fuel for a car – too little won't get you far, but too much is problematic.

- Dose-response curve: Imagine a bell-shaped curve where the x-axis represents the dose, and the y-axis represents the immune response. The original dose might have been on the higher end of the curve, while the reduced dose hits the peak more precisely. This means the reduced dose could be more “biometrically” effective due to a more optimal stimulation of the immune system.

- Resource utilization: Consider a scenario where a smaller, more targeted dose allows the body to allocate resources more efficiently. It's like a precision-guided graphene oxide missile versus a graphene oxide shotgun approach – the smaller doses are more effective because it's more targeted.

Also like: A surgical strike versus a carpet bombing.

This analogy highlights the difference between a precise, targeted approach (surgical strike) and a broader, less precise one (carpet bombing). In the context of resource utilization, the surgical strike represents Moderna’s mNEXSPIKE COVID-19 vaccine’s smaller, more targeted dose, while the carpet bombing represents the larger, less targeted dose warp speed’s sloppy vaccine doses.

Just like how a surgical strike aims to minimize collateral damage, a targeted dose helps the body allocate resources more efficiently, reducing suspicion. In contrast, carpet bombing causes unnecessary damage, just like a larger dose leads to more obvious and tracable adverse effects.

Regarding the original Warp Speed COVID injectables' dosage quantities and Grievous Bodily Harm:

Over-formulation: If the original dose was indeed higher than necessary, it's possible that some individuals might have experienced more side effects or adverse reactions due to the excess. This could be likened to over-medicating – more isn't always better;

……. especially when theres graphene oxide involved.

Trial and error: Vaccine development often involves trial and error. The original warpspeed doses had been chosen based on ZERO “ Long Term Effects Testings” at the time, and subsequent outcries from “Silenced” doctors and researchers, ultimately led to the reduced dose in The Moderna mNEXSPIKE COVID-19 vaccine. This obviously implies negligence on Modernas part rather than an evolution of understanding as Moderna would have you think.

Different populations: It's also possible that the original dose was suitable for a broader “unvaccinated population” at that point in time, but the reduced dose is more calibrated to specific groups or needs like those in the general public who have recently been or currently are “Vaxxed to the Max” and are ready to receive the “Final Solution Vaccine”. This would be like adjusting medication dosages for different age groups, health conditions and or generations.

These points highlight the complexities of vaccine development and dosing. The reduced dose in The Moderna mNEXSPIKE COVID-19 vaccine might indeed be more effective due to various covert factors, and it's not necessarily a direct commentary on the original Warp Speed COVID injectables.

Ths statement suggests that the

Moderna mNEXSPIKE COVID-19

vaccine's reduced dose might be

more effective due to various

underlying covert factors, and this

doesn't directly reflect on the

original COVID vaccines

developed under Operation

Warpspeed.

In simpler terms: The new Moderna vaccine has a smaller dose, which might make it more effective. This doesn't necessarily mean

the original warpspeed COVID vaccines

are any less devastating.

The difference in effectiveness

might be due to various

factors, such as improved

modern technology and or a re-calibration of the targeted dosing “pay-loads” in the nanotechnology.

The reduced dose of the newer mNEXSPIKE mrna covid-19 injectable can be seen as an exercise in optimization, proving "indictment" n relation to the original Warp Speed COVID injectables;

....... as this cosmetic "optimization" upgrade indeed proves that the original Project Warpspeed covid-19 injectables, 300 million of them, dispersed out to the general public administrated by Genocidal Technocrat supporter Donald Trump during his project warpspeed tenure, were indeed:

1. A raw and unrefined mrna formulation, pushed on the public in a hastening manner with zero long-term affect testings

2. A Targeted approach: targeting the elderly and children with scam-demics of fear to entice the population into inoculations to reach the "targeted goal"

3. An Advancement in Bio-weapon technology: the "Final Soulution" involving nanotech research along with biometric internal surveillance development and population control “initiatives”

....... which in return leads the way to more "efficient sounding" population control "initiatives" in vaccine design, ultimately leading the way to other future “scripted” timelines to come, such as right here, right now with Moderna's new mNEXSPIKE® COVID-19 Vaccine aka The Deathspike Vax.

The core differences between the old Donald Trump administrated covid-19 injectables and the new mNEXSPIKE® COVID-19 Vaccine aka The Deathspike Vax;

....... are mainly in the delivery mechanism and are indeed, only related "cosmetic" changed aspects only;

....... then the fundamental toxic nature of the vaccine has not changed significantly not one single bit as where theres smoke, theres fire.

The analogy of the "same toxic tentacle from the same Operation Warpspeed kraken"

....... suggests that the underlying toxic concerns and issues associated with the original Warp Speed COVID-19 injectables is most definitely still present in Modernas new mNEXSPIKE vaccine.

EXAMPLE: The sports car analogy works well to illustrate the point at hand.

Just as sports car manufacturers have similar underlying mechanics in every car they produce, despite "cosmetic changes"

....... the new Moderna mNEXSPIKE vaccine has an exact fundamental nature to the old warpspeed C-19 injectable's;

.......with changes only in delivery and formulation.

This highlights that despite updates and "rebranding";

....... the core characteristics and concerns about the mrna covid-19 injectable vaccines most definitely remain the same.

It's an accurate way to think about the relationship between the old donald trump warpspeed covid-19 vaccines and the new moderna mNEXSPIKE vaccines.

The concerns about Moderna's new mNEXSPIKE vaccine stem from the fact that it uses similar mRNA technology as the original Warp Speed COVID-19 vaccines. Some potential issues with mRNA vaccines include:

- Toxicity from Lipid Nanoparticles: The tiny particles used to deliver genetic material into cells can cause serious side effects, especially with repeated injections.

- Immune System Damage: The spike protein produced by the vaccine triggers a dramatic immune response, weakening the immune system and increasing the risk of infections and cancer.

- Cardiac Risks: Myocarditis and pericarditis are common serious side effects associated with mRNA vaccines, particularly in young men.

- Undeclared Contents and Contaminants: Vaccines contain undeclared genetic sequences, such as plasmid DNA, which raise serious concerns about long-term safety and efficacy.

The "where there's smoke, there's fire" analogy suggests that if there are concerns about the original COVID vaccines, similar issues are to be expected with Moderna's new mNEXSPIKE vaccine since it uses similar mRNA technology.

The conversation about the similarities and differences between the Warp Speed COVID injectables and the Moderna mNEXSPIKE vaccine could be likened to the nutshell game in the sense that:

The core issue or concern might be getting shuffled around, obscured, and hidden beneath the surface-level changes and cheap rebranding.

Just as the nutshell game involves sleight of hand to misdirect the player;

....... the updates to the covid-19 mrna injectables from Moderna are intended to "distract" from and "downplay" the underlying toxic similarities;

....... in the hopes that the general public will drop their guard yet again;

....... and run, out of fear, to the nearest local retail pharmacy;

....... only to stand in line to receive yet another free Population Control "Initiative" in the form of a Toxic Mrna Vaccine.

Regarding smoke screening techniques, the moderna mNEXSPIKE vaccine is seen as highlighting how the changes to the vaccine are used to create a diversion and obfuscate the fact that the fundamental nature of the new moderna mNEXSPIKE vaccine remains the same.

Smoke screening implies creating a cloud of misinformation and confusion to obscure the truth;

....... and the updates to the vaccine are seen as a way to create a narrative that the new moderna mNEXSPIKE vaccine is significantly different or improved when, in fact, the core toxic concerns remain the same.

Again, the new moderna mNEXSPIKE vaccines, being similar to the Warp Speed COVID injectables;

....... also share similar risks and problems;

....... particularly when given the reported medical side effects associated with the original warpspeed era vaccines.

The delivery method change absolutely did not address the underlying toxic issues;

....... which are a cause for caution and skepticism about the new vaccines.

Research suggests links between the COVID-19 vaccines and multiple adverse effects leading to premature death.

For instance, myocarditis has been associated with mRNA vaccines, particularly in young males, where the immune system's response might be overly vigorous from spike proteins, like a strong storm overwhelming a ship's defenses.

Blood clots have been linked to adenovirus-vector vaccines, where the covid-19 injectable vaccines trigger an immune response that seriously increases clotting, similar to a river's flow being disrupted, leading to unexpected blockages.

Guillain-Barré Syndrome has also been reported, due to the vaccine triggering an autoimmune response, like the body's immune system mistakenly attacking its own nerves.

Guillain-Barré Syndrome (GBS) is a rare autoimmune disorder where the immune system mistakenly attacks the nerves, leading to muscle weakness, numbness, and life-threatening complications.

GBS has been reported following covid-19 vaccination.

Symptoms can range from mild to severe and include:

- Muscle weakness or paralysis

- Numbness or tingling

- Difficulty walking or balance problems

- Pain or aching

Treatment typically involves hospitalization, supportive care, and immunoglobulin therapy and plasmapheresis.

Each of these conditions involves complex interactions between the toxic covid-19 vaccines and the general publics immune responses.

Here's more information on the links between COVID-19 vaccines and the adverse effects listed earlier:

1. Blood clots (thrombosis): Research reveals that COVID-19 vaccines, particularly adenovirus-vector vaccines like the AstraZeneca vaccine etc, increase the risk of fatal blood clots.

This is due to the vaccine triggering an immune response that activates platelets, leading to clot formations to fight off the graphene oxide inside the biological human body amongst other toxicities.

Think of it like a complex dance between the vaccine and the body's immune system, where the wrong steps can lead to unexpected outcomes.

2. Myocarditis (inflammation of the heart muscle): Myocarditis is linked to mRNA vaccines, as the vaccine triggers an exaggerated immune response, leading to inflammation of the heart muscle.

This is likened to a strong storm that overwhelms the heart's defenses.

3. Guillain-Barré Syndrome (autoimmune disorder affecting the nerves): There have been reports of Guillain-Barré Syndrome (GBS) following COVID-19 vaccination. The covid-19 vaccine triggers an autoimmune response, where the body's immune system mistakenly attacks its own nerves. This is compared to a misdirected letter, where the immune system receives incorrect instructions.

4. Anaphylaxis (severe allergic reaction): Anaphylaxis is a rare but severe allergic reaction that can occur with any mrna vaccine, including all COVID-19 vaccines. This is due to an overreaction of the immune system to a specific component of the vaccine. Anaphylaxis is like a fire alarm blaring in the body, signaling a severe and life-threatening emergency that demands swift action to prevent serious consequences. Just as a fire requires immediate attention to prevent spreading, anaphylaxis needs prompt treatment to mitigate its effects.

5. Thrombocytopenia (low platelet count): COVID-19 vaccines are associated with thrombocytopenia, a condition characterized by low platelet counts. This occurs due to the vaccine triggering an immune response that affects platelet production and destruction. This is likened to a disruption in the body's platelet factory, leading to shortages.

6. Cerebral venous sinus thrombosis (blood clots in the brain): Similar to blood clots elsewhere in the body, cerebral venous sinus thrombosis (CVST) has been linked to COVID-19 vaccines, particularly adenovirus-vector vaccines. This is due to the vaccine triggering an immune response that increases clotting, leading to blockages in the brain's venous sinuses. Think of it like a critical roadblock in the brain's vascular network.

Adenovirus-vector vaccines use a weakened adenovirus to deliver genetic material from a pathogen, like SARS-CoV-2, to cells. This triggers an immune response. Examples include:

1. AstraZeneca's COVID-19 vaccine (ChAdOx1 nCoV-19)

2. Johnson & Johnson's COVID-19 vaccine (Ad26.COV2.S)

These vaccines like the others, have been associated with “common” side effects, such as blood clots and thrombocytopenia.

PVS

#Moderna

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