Military Technology

So thinking of this, Wu Hao looked at the CEOs present and said with a smile: "After the successful development of this specific drug for Helicobacter pylori infection in the stomach, it also opened up our thinking. Since this super phage can deal with the large intestine pylori infection in the stomach, so can we use this super phage to cultivate other harmful bacteria that invade the human body."

After throwing a question to everyone, Wu Hao paused and then answered.

There are many kinds of diseases caused by bacteria in our daily life, such as respiratory tract infections.

Bacteria are spread through respiratory droplets or direct contact and may cause various respiratory infections, such as pneumonia caused by Streptococcus pneumoniae, bronchitis caused by Haemophilus influenzae, and pulmonary tuberculosis caused by Mycobacterium tuberculosis.

There are also urinary tract infections, which are also bacterial infections that we often encounter in our daily lives.

Bacteria enter the bladder through the urethral opening, causing urinary system infections such as cystitis, urethritis, etc. Patients may experience symptoms such as frequent urination, urgency, and painful urination.

Then there are skin and soft tissue infections. Bacteria enter human tissues through skin damage, causing skin and soft tissue infections, such as boils, carbuncles, cellulitis, etc.

Finally, there is central nervous system infection, which although uncommon, is very dangerous.

Bacteria enter the brain through blood spread or direct spread, causing central nervous system infections such as meningitis and brain abscess. Patients may experience symptoms such as fever, headache, drowsiness, and confusion.

In addition, there are also the bacterial infection diseases of the digestive tract that we mentioned earlier, such as food poisoning caused by Salmonella, diarrhea caused by E. coli and gastric diseases caused by Helicobacter pylori infection in the stomach, etc. .

There are even many very rare bacterial infections, such as cholera, salmonella infection, Lyme disease caused by spirochete bacteria, gonorrhea caused by Neisseria gonorrhoeae, etc. "

At this point, Wu Hao paused and then continued.

Once we are infected with these bacterial infectious diseases, we must use a large amount of antibiotics for treatment to kill or inhibit the bacteria.

For example, our common penicillins, cephalosporins, aminoglycosides, tetracyclines, etc. are all antibiotics.

However, we know that antibiotics cannot be abused. In many foreign countries, the use of antibiotics is very strict.

As for our country, the restrictions in this regard are relatively loose. As a result, our sensitivity to antibiotics is declining.

In addition, excessive use of antibiotics can lead to a variety of serious consequences. For example, long-term use of antibiotics can stimulate the body to produce antibodies, which can easily induce allergic reactions when used again. In severe cases, it may even lead to anaphylactic shock.

Secondly, excessive use of these antibiotics can cause toxic reactions in organs such as the liver and kidneys, damage body functions, and may change tissue structure, increase ototoxicity, nephrotoxicity, and liver toxicity, leading to multiple organ damage.

Additionally, long-term antibiotic use may lead to superinfection. While antibiotics kill sensitive bacteria, they may also cause insensitive bacteria, especially fungi, to multiply and cause new infections.

What's more serious is that if you don't follow the doctor's advice and use antibiotics in sufficient amounts, the antibiotic dose may not be enough to completely kill the bacteria. The remaining bacteria will cause the disease to relapse, and may even lead to drug resistance. This means that the next time antibiotics are needed, the same medicine may no longer be effective.

Therefore, many experts and organizations have expressed concerns about this situation and even issued warnings.

Because once bacterial resistance to antibiotics increases, it means that there will be no new antibiotics to kill these bacteria. This also means that diseases caused by these drug-resistant bacteria will be untreatable.

This is not alarmist, but a serious fact that we face. "

After listening to Wu Hao's story, the atmosphere at the scene became solemn. Every boss had a solemn look on his face, and his expression became serious.

Wu Hao looked around and saw that everyone's expressions were serious and focused, so he continued: "It is very difficult to change this situation at present. This cannot be achieved by a few regulations or popular publicity.

Because now our people, including the entire environment, have developed to this point. It is a fact that bacterial resistance has increased. Using less or no medicine will not solve the problem at all.

Therefore, how to solve the problem of bacterial resistance has become a topic of joint research among our domestic experts. "

At this point, Wu Hao paused, then raised his tone and said: "The super phage we have developed and cultivated has natural advantages in the field of treating bacterial infections.

First of all, super phages are extremely specific and can accurately identify and attack specific pathogenic bacteria without destroying the normal flora.

This characteristic allows superphages to avoid disturbing the normal microbial community during treatment and reduce side effects during treatment.

For example, super phages that specifically phagocytose E. coli will not phagocytose and destroy other bacteria. Find Shuyuan www.zhaoshuyuan.com We have developed a super phage specifically designed to engulf Helicobacter pylori in the stomach. It will not engulf other bacteria.

Therefore, this superphage is very safe and will not harm the bacteria outside its target.

In addition, because this super phage uses bacteria to deal with bacteria, it does not contain any chemicals and will not have toxic side effects on the human body. Therefore, this super phage has almost no side effects, so it can be used with confidence.

Secondly, the proliferation ability of super phages is very powerful. Under appropriate conditions, superphages can replicate rapidly and produce a large number of progeny, thereby achieving efficient killing of pathogenic bacteria.

This highly efficient killing ability gives superphage a significant advantage in treating serious bacterial infections. It can clear pathogenic bacteria in the body faster and shorten the treatment cycle.

In the past, many serious bacterial infections required long-term treatment with large amounts of antibiotics, which were not always effective.

Now using this specially cultivated super phage, it can quickly replicate and reproduce under appropriate conditions, thereby accelerating the cleaning of bacteria, achieving the goal of inhibiting or even killing bacteria as quickly as possible, and accelerating the recovery of diseases. "

"What are the appropriate conditions?" Mr. Zhang, who was very curious about knowledge, interjected at this time and asked.

Wu Hao smiled and replied: "Actually, it depends on whether it has rich food. The so-called food refers to the number of infected bacteria in the body.

If there are more bacteria, the super phages will eat more and have enough nutrients, so more of them will divide naturally. If there are fewer bacteria, it will have fewer nutrients and will naturally divide less.

The absence of bacteria means that it has lost nutrients and will starve to death. "