Treating Respitory Infections By Inhaling Antiseptics
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The treatment of respiratory infections via nose, ear canal or mouth by inhalation, flush or gargle using safe antiseptics, gases or liquids.
Respiratory infections concentrate around the respiratory system including the lungs. Procedure to sterilize affected areas to aid the immune system.
This has been a home remedy for a long time, and involves flushing the sinus with salt water or rinsing the throat and mouth with sale water, or vinegar droplets in the ear for ear infections. The Dead Sea is dead due to its salt concentration, the high PH level of salt water kills pathogens and speeds up recovery. As salt water cannot be ingested into the lungs a similar a high salt concentration gas is proposed to be manufactured for inhalation. Should an antiseptic be possible, sauna is a great setting for the bi-weekly use to pre-emptively treat respiratory infections, if any. Salt water mouth rinse is also effective for gum inflammation. Pay attention that it is the antiseptic that is the active ingredient and pay attention that finding a safe antiseptic that can be inhaled is the challenge, inhaling certain liquids such as alcohol can be fatal. This is an ongoing experimental area of research.
If you have ever had swimmer's ear, caused by bacterial build up in the ear and persists for as long as 2 weeks of constant agony. However, pouring acidic vinegar into the ear for a few minutes along with a gargle will cut that down to about 2 days.
It is easy to discount this approach, although they might be mistaken as to its efficacy.
The various cold weather climate ailments that arrive in winter and leave in summer are temperature sensitive. Many of the hot climates that do not have a flu season now also have respiratory infection due to the use of air-conditioners and air-conditioners that are never disinfected.
A 2009 study from Princeton University found that flu viruses not only survive longer, they spread more easily in low humidity. In one study published in 2018 in the journal Plos One, researchers installed a commercial humidifier in two preschool classrooms, and compared them with two non-humidified classrooms. Over the course of several weeks of one flu season, they found that samples of air and objects the kids touched from the humidified rooms were less likely to be contaminated with the influenza A virus than those from the non-humidified classrooms.
The researchers also tallied up school absences over the study period, and found that fewer kids from the humidified rooms were out sick with flu-like symptoms. But study author Jennifer Reiman, Ph.D., a member of the Citizen Science Faculty at Bard College, says that 2016, the winter the experiment was conducted, was a light flu year, and the overall number of absences due to flu was too low to draw any conclusions about whether humidifying the rooms really led to fewer illnesses.
During the 1918 flu pandemic, a group of English villagers noticed that workers who were exposed to noxious gases saw lower rates of influenza. Because of the correlation, many parents took their children to the nearest industrial plant instead of the doctor. One sanitary officer decided to investigate the claim. He found that the general rate of influenza was 40 percent. At a local tin factory where workers were exposed to nitric acid, it was just 11 percent. If those workers also inhaled gunpowder, the rate was a mere five percent, writes Dr. Jeremy Brown in his book Influenza.
In New Zealand, during the 1918 pandemic one action taken in many towns and cities was to set up inhalation sprayers that dispersed a solution of zinc sulphate. Most sprayers were set up in public buildings. They were made even more accessible in Christchurch after someone observed that the compressed-air braking units on trams ‘could be adapted to operate a sprayer by reconnecting a few hoses'. Eventually 14 trams were converted and ‘stationed on loops at the end of all major routes, handily placed to serve the outlying districts'. Some local authorities regularly disinfected streets and public buildings during the pandemic.
A paper published on February 5, 1898, titled "A Report of the Treatment of Pulmonary Tuberculosis by the Inhalation of Antiseptic Vapours" by Johnson, George W, involves using inhalation vapours that are antiseptic to kill the virus in the respiratory system. Just like the tin factory observation but safer for humans.
An anti-septic is identified, determine how much vapour is safe to inhale. Perhaps one or more anti-septics in combination and other methods found to be sensitive for the respiratory virii.
https://academic.oup.com/jid/advance-article/doi/10.1093/infdis/jiad089/7103191?login=true
Here are some candidates to date, safe levels are unknown and they could be liquid wash or a gas inhalation.
- Salt
- Iodophors
- Chlorhexidine Gluconate
- Vinegar
- Iodine
- Alcohol
- Boric acid
- Chlorine dioxide
- Hydrogen peroxide vapor (HPV), works by creating free radicals that are toxic to microorganisms, such as bacteria, viruses, and fungi. It is effective in killing even the most resistant pathogens and can be used to disinfect surfaces and equipment in a variety of settings, including hospitals, laboratories, and pharmaceutical manufacturing facilities. Exposure limits are an average concentration of more than 1 ppm of HPV over an 8-hour workday.
- Benzalkonium Chloride
- Chlorhexidine
- Zinc sulphate
- Engineered microbe that eats virii
- FarUV treatment, FarUV emitting nano particles, a genetic engineered far UV bioluminant germicide bacteria or nano-particle. Far UV is a non-destructive version of UV. Far UV light, respiratory catheter. The Far UV emitting nano-particles are inhaled and over a period of time break down and flushed out with the body's natural process.
- Nitric Oxide (not nitrous oxide) 1
- Plant made molecules that serve as a flora's defense against virii and bacteria.
- Hot steam Steam inhalation therapy found to inactivate SARS-CoV-2 virions, 1
- Others
Common fragrances used are...
- Tea Tree Oil: Tea tree oil is a natural antiseptic and can be used as a vapor to disinfect the air. It has a strong scent and can be added to a diffuser or vaporizer.
- Eucalyptus Oil: Eucalyptus oil has antimicrobial properties and can help to kill airborne bacteria and viruses. It is also effective in relieving respiratory issues such as cough and congestion.
- Peppermint Oil: Peppermint oil has antiviral and antibacterial properties and can be used to disinfect the air. It also has a refreshing scent and can help to relieve headaches and nausea.
- Lemon Oil: Lemon oil is a natural antiseptic and can be used to disinfect the air. It has a fresh, citrusy scent that can help to uplift the mood and improve focus.