On March 30, 2026, Ezekiel conducted a remote viewing session with an unexpected outcome. He discovered evidence of a global plan to trigger a pandemic through a virus that paralyzes the digestive system. We have previously reported on the protocol of this remote viewing session. Having followed up on the matter, we investigated how plausible this scenario could be.

What is Paralytic Ileus?

Paralytic ileus — also known as functional bowel obstruction — is a serious medical condition characterized by the loss of intestinal motility due to paralysis of the smooth muscles in the gastrointestinal tract. Unlike mechanical ileus, where there is a physical blockage (e.g., adhesions or tumors), paralytic ileus occurs without any anatomical obstruction. Instead, it results from impaired peristalsis—the wave-like contractions that normally move intestinal contents through the digestive system.

This condition leads to a complete halt in the passage of food and stool, despite an otherwise unobstructed bowel lumen. The absence of normal gut sounds during physical examination is one of its hallmark signs—often described as “silent abdomen” or “dead silence.”

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Key Features & Symptoms

The onset of paralytic ileus is often insidious but rapidly progresses to severe symptoms:

• Distended, tense abdomen (meteorismus)
• Absence of bowel sounds on auscultation
• Complete cessation of stool and flatus passage
• Nausea and repeated vomiting
• Abdominal pain or discomfort

These clinical signs signal a critical disruption in normal gastrointestinal function.

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Causes of Paralytic Ileus

Paralytic ileus arises from various underlying conditions that impair neuromuscular activity in the gut. Common causes include:

• Postoperative state (especially after abdominal surgery)
• Abdominal infections such as peritonitis or pancreatitis
• Electrolyte imbalances, particularly hypokalemia (low potassium levels)
• Medications: opioids, anticholinergics, certain anesthetics, and some antidepressants
• Severe systemic illness (e.g., sepsis, heart failure, renal failure)

Inflammation or surgical trauma can disrupt the autonomic nervous system’s control over bowel motility, leading to this functional obstruction.

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Diagnosis

Prompt diagnosis is essential. Physicians rely on imaging studies:

• Abdominal X-ray: Shows dilated loops of small and large intestine with air-fluid levels, but no evidence of mechanical blockage.
• Computed Tomography (CT) scan: The gold standard for ruling out structural causes and confirming the functional nature of ileus.

Clinical examination findings—especially absent bowel sounds—are crucial in guiding diagnostic decisions.

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Treatment & Management

Paralytic ileus requires immediate medical attention. Treatment is primarily conservative:

• NPO status (nothing by mouth) to rest the gut
• Placement of a nasogastric tube (NGT) to decompress the stomach and relieve vomiting and bloating
• Intravenous fluids and electrolyte replacement, especially potassium correction if deficient
• Discontinuation or adjustment of causative medications
• Close monitoring for signs of complications like dehydration, sepsis, or bowel ischemia

In severe cases, patients may require hospitalization in intensive care units.

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Why Is This Condition So Serious?

Untreated paralytic ileus can lead to life-threatening complications:

• Severe abdominal distension
• Bowel perforation due to increased pressure
• Sepsis from bacterial translocation across a damaged intestinal barrier
• Respiratory compromise (due to diaphragmatic elevation from bloating)

Early recognition and intervention are vital for recovery.

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Global Impact: What If 45 Million People Were Affected?

In 2022, Covid-19 reached peak global infection rates with approximately 45 million confirmed cases worldwide within a single month — one of the highest monthly surges during the pandemic. While this number refers to infections, not direct causes of paralytic ileus, it highlights how quickly infectious diseases can overwhelm healthcare systems.

However, paralytic ileus itself affects significantly fewer individuals annually—estimated at around 1–2 million cases per year globally (mostly postoperative). But its impact is high due to:

• High mortality risk if not managed timely
• Increased hospital stays and ICU admissions
• Economic burden from prolonged treatments

The comparison with the 45-million-case peak of Covid-19 illustrates a key medical truth:

Even smaller numbers of serious conditions like paralytic ileus can have massive health system impacts when they occur in vulnerable populations.

Moreover, during global outbreaks or pandemics (e.g., severe acute respiratory syndrome), stress on the body often increases risks for secondary complications such as ileus. For example:

• Critically ill patients with sepsis are at high risk of developing paralytic ileus
• Intubated ICU patients frequently develop ileus due to immobility and medications

Thus, while 45 million infected during a single month sounds far larger than the number suffering from paralytic ileus, the real danger lies in how often this condition occurs among critically ill or postoperative patients — many of whom are already at high risk.

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Conclusion

Paralytic ileus is not just a rare complication—it’s a frequent and dangerous consequence of surgery, systemic illness, and medication use. Though far fewer people suffer from it than during the peak of Covid-19 in 2022 (45 million cases), its severity demands immediate medical attention.

When thousands of patients face surgical procedures or are hospitalized with systemic disease each day, even a small incidence rate translates into significant clinical burden worldwide — especially as aging populations and rising rates of abdominal surgery continue to grow.

Bottom line: While the number 45 million may seem vastly greater than that of paralytic ileus cases, we must remember: a single undiagnosed case can lead to death; therefore, every early detection saves lives.

Direct and Indirect Mechanisms of Viral-Induced Bowel Paralysis

Viruses can lead to intestinal paralysis through various direct and indirect mechanisms:

Severe Gastroenteritis: Common gastrointestinal pathogens such as norovirus and rotavirus often cause severe inflammation of the intestinal mucosa. This intense inflammatory response disrupts the neuromuscular control of the gut, potentially leading to a complete cessation of peristalsis.

Electrolyte Imbalances: Significant fluid and electrolyte loss—due to persistent vomiting or diarrhea—can result in hypokalemia (low potassium levels). Potassium is essential for normal muscle function; its deficiency causes intestinal muscles to become weak and unresponsive, effectively “shutting down” motility.

Systemic Infections (e.g., COVID-19): Studies indicate that severe cases of SARS-CoV-2 infection can trigger paralytic ileus. The underlying mechanisms may include systemic inflammation affecting ACE2 receptors in the gut, as well as microcirculatory disturbances such as microthromboses, which impair blood flow and nerve function.

Peritonitis (Abdominal Inflammation): When a viral infection progresses to cause widespread abdominal inflammation, the bowel often responds with reflexive paralysis—a protective mechanism to reduce movement in an inflamed cavity.

Herpes Viruses: There is growing evidence that certain herpesviruses can directly damage enteric nerves. This nerve injury may lead to chronic constipation or acute episodes of intestinal dysfunction and paralysis.

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Important Warning Signs
If any of the following symptoms occur during a viral infection, immediate medical attention is essential:

• Severe abdominal bloating without passing gas.
• Sudden absence of bowel sounds (referred to as “silent abdomen”).
• Forceful vomiting of gastric or intestinal contents.

Early recognition and prompt intervention are critical in preventing complications such as bowel obstruction or perforation.

Theoretically, it is possible to genetically engineer a virus like SARS-CoV-2 so that it specifically targets certain organs—such as the gastrointestinal tract—through genetic modification. In scientific terminology, this process is known as altering viral tropism, which refers to a virus’s ability to infect specific cells or tissues.

According to the National Institutes of Health (NIH, .gov), SARS-CoV-2 naturally targets the gut in many patients:

• Receptors: The virus uses the ACE2 protein as its main entry point into human cells. Notably, ACE2 receptors are present at higher concentrations in the small intestine than in lung tissue.
• Symptoms: Approximately 30% of infected individuals experience gastrointestinal symptoms such as diarrhea or nausea, indicating direct intestinal involvement.
• Variant differences: Studies have shown that different variants—such as Delta versus Omicron—differ significantly in their ability to infect and replicate within the gut.

Potential for Laboratory Modification:

In scientific research—particularly in gain-of-function studies—scientists can deliberately modify viruses:

• Spike protein optimization: Researchers may alter the spike protein so it binds even more efficiently to ACE2 receptors in the intestinal epithelium than to those in lung tissue.
• Enhanced resistance and transmission: Modifications could make the virus more resistant to gastric acid, potentially increasing its ability to spread via fecal-oral routes—especially relevant for communities with poor sanitation.
• Selective cultivation using organoids: Scientists can grow viruses in human intestinal organoids (lab-grown mini-digestive tissues) to selectively breed strains that replicate rapidly and efficiently in gut tissue.

As published in Nature (2023, Nature), such experiments are not speculative but actively conducted under strict biosafety conditions to study viral adaptation mechanisms. These studies contribute to predicting future pandemics by modeling how viruses evolve, as well as developing targeted therapies for gastrointestinal complications during infection.

According to Deutschlandfunk (radiostation in Germany), it is crucial to emphasize that the deliberate misuse of these technologies to create biological weapons—such as a virus engineered to preferentially target specific organs—is strictly prohibited under international law. The Biological Weapons Convention (BWC) explicitly bans such activities, and responsible scientists worldwide adhere to ethical guidelines and biosafety protocols.

While this research serves vital public health goals, it underscores the need for transparency, rigorous oversight, and global cooperation to prevent potential misuse while harnessing scientific advances for medicine and pandemic preparedness.

Viral Transmission by Mosquitoes and Horseflies: How Insects Spread Diseases

Mosquitoes and horseflies play a significant role in the transmission of viral diseases—though their impact differs greatly between humans and animals. While mosquitoes are among the most dangerous vectors of human viral infections worldwide, horseflies (also known as biting flies) primarily contribute to the spread of specific animal diseases.

1. Transmission by Mosquitoes – Arboviruses
   Mosquitoes are the primary global carriers of viruses belonging to a group called arboviruses (arthropod-borne viruses). These infections represent one of the most significant public health challenges in tropical and subtropical regions.

Key Arboviruses:

Dengue virus
Zika virus
Yellow fever virus
Chikungunya virus
West Nile virus
Transmission Mechanism:

The process begins when a female mosquito bites an infected human or animal. The virus enters the mosquito’s body and multiplies in its tissues—particularly in the salivary glands. During the next blood meal, the virus is injected into the new host through the mosquito’s saliva, allowing it to enter the bloodstream efficiently.

Major Vector Species:

Aedes albopictus (Asian tiger mosquito) – known for spreading dengue and chikungunya
Aedes aegypti (Yellow fever mosquito) – primary vector of dengue, Zika, and chikungunya
These species thrive in urban environments, making outbreaks more likely in densely populated areas with stagnant water sources.

2. Transmission by Horseflies (Biting Flies)
   Horseflies are less significant as vectors for human diseases but play a critical role in the spread of certain animal pathogens.

Transmission Mechanism: Mechanical Transmission

Unlike mosquitoes, horseflies do not support viral replication within their bodies. Instead, they transmit viruses through mechanical transmission: when the fly bites an infected animal, traces of blood containing virus particles stick to its mouthparts (proboscis). When it feeds on another healthy host shortly afterward, the virus can be transferred mechanically.

Key Example: Equine Infectious Anemia (EIA)

Caused by a retrovirus (Equine infectious anaemia virus)
Transmitted primarily by horseflies and other biting flies
Leads to severe anemia, fever, weight loss, and even death in horses
Due to the mechanical transmission risk, EIA is considered a major concern in equine medicine worldwide
Summary of Key Differences
Feature Mosquitoes (Stegomyia / Aedes) Horseflies (Gasterophilus / Tabanidae)
Transmission Type Biological (virus replicates inside the insect) Mechanical (virus adheres to mouthparts)
Major Viruses Dengue, Zika, West Nile, Chikungunya, Yellow fever Equine Infectious Anemia (EIA)
Relevance in Humans Very High – global health threat Low – mainly affects animals; rare human cases
Risk of Outbreak High due to widespread distribution and efficient transmission Moderate risk in animal populations
Conclusion
Mosquitoes are the dominant vectors for a wide range of dangerous viruses affecting humans globally, with significant implications for public health. In contrast, horseflies play a much smaller role in human disease but remain highly relevant in veterinary medicine—especially regarding equine viral diseases like EIA.

Efforts to control outbreaks must focus not only on reducing mosquito populations through insecticides and habitat management but also on protecting animals from biting flies through stable hygiene practices and protective measures. Understanding the differences between biological and mechanical transmission is essential for developing effective prevention strategies against both human and animal health threats.

In short: Viruses are efficiently transmitted by mosquitoes, while horseflies primarily contribute to disease spread in animals—especially horses—with limited risk to humans.

Overall, the scenario that Ezekiel Vacuo was able to follow through using remote viewing on March 30, 2026, appears highly realistic. Ezekiel Vacuo is regarded as one of Europe’s most renowned and skilled remote viewers in retrospective remote viewing. We can only await with anticipation whether this scenario will prove true within the next five years.

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Filed under: Biology,Remote Viewing - @ April 16, 2026 8:54 am

Tags: ezekiel project, ezekiel vacuo, pandemic