File Name: medical ozone a hidden source of disease prevention and treatment .zip
- Disinfecting using fog, mist and other systems during the coronavirus (COVID-19) pandemic
- Ozone therapy
- Disinfecting using fog, mist and other systems during the coronavirus (COVID-19) pandemic
The Big Pharma conspiracy theory is a group of conspiracy theories that claim that the medical community in general and pharmaceutical companies in particular, especially large corporations, operate for sinister purposes and against the public good, and that they allegedly conceal effective treatments, or even cause and worsen a wide range of diseases. In each case the conspiracy theorists have blamed pharmaceutical companies' search for profits. A range of authors have shown these claims to be false, though some of these authors nevertheless maintain that other criticisms of the pharmaceutical industry are legitimate. The term Big Pharma is used to refer collectively to the global pharmaceutical industry. According to Steven Novella the term has come to connote a demonized form of the pharmaceutical industry.
Disinfecting using fog, mist and other systems during the coronavirus (COVID-19) pandemic
By: Sean M. Scott In the restoration industry today, a lot of attention is given to the testing and abatement of microscopic hazardous materials. These include asbestos, lead, mold, bacteria, bloodborne pathogens, and all sorts of bio-hazards fall into this category.
However, there are other hazardous toxins that commonly present themselves in restoration projects, that seem to go unnoticed. When a building is abated from asbestos, lead, or mold, special care is given to be sure every microscopic fiber, spore, and bacteria is removed. This is done through extensive cleaning, HEPA vacuuming, chemical applications, negative air, and other procedures.
Once the remediation is completed, an independent environmental testing laboratory or industrial hygienist provides an air clearance test to certify that the abatement or remediation process was successful. Upon receipt of the clearance, people can then reenter the remediated area, rooms, or building. However, when the structural repairs are completed after a fire, an air clearance test is rarely ever performed.
Why is it so common to hear customers complain of smelling reoccurring smoke odor long after the restoration is completed? In the following pages, we will be taking a close look at this issue to raise awareness of a segment in the fire restoration industry that has been long overlooked and, in most cases, disregarded entirely.
Smoke is a complex mixture of toxic gases and particles, which are generated from the vast array of materials that burn during a fire. A typical structure fire may generate literally tens of thousands of toxic chemicals and gasses. Research on cigarette smoke alone has identified over 7, chemicals, with 70 identified as cancer causing, even with brief exposure. These include plastics, foams, textiles, carpets, wood products treated lumber, plywood, flooring , synthetic fabrics, wool, electronics, furniture, household chemicals, and the list goes on.
One of the biggest health threats from smoke is from fine and ultra-fine particles. These microscopic particles can penetrate deep into the lungs and can cause a range of health problems, from burning eyes and a runny nose to aggravated chronic heart and lung diseases and cancer.
Exposure to particle pollution is even linked to premature death. Respiratory ailments, cardiac hazards, and cancers connected with exposures to an environment affected by a fire are far greater than those from the past, mainly because the materials used today to manufacture our products and their chemical composition have changed dramatically.
Smoke is the result of incomplete combustion, which produces tiny particles of carbon in the air. When deposited, these particulates are identified as soot. Put simply, the particle size of smoke residue on a surface can present a respiratory hazard. The particle size of soot is approximately 2. Particles that are approximately 10 microns or larger get trapped in the upper respiratory tract.
Particles that are 5 microns or smaller can make it down to the lower lung where the gas exchange occurs in the alveoli. To offer some perspective on the size of these particles, red blood cells are approximately 7 microns in size. The dust you see flying in the light coming through a sun lit window are about 40 microns in size.
Airborne soot is too small to be seen with the naked eye and can easily be inhaled. When you inhale, you take in air and any particles that are in the air. The breath, along with the particles, travel through your respiratory system to your lungs. Along the way, particles can become caught in your nasal or sinus system, causing discomfort or potential health problems. As a fire dies down, the smoke will disperse leaving behind a residue of quickly cooling particles which is generally referred to as soot.
Typically, soot is representative of what has burned, but may include byproducts that at first seem unrelated to the original material. For example, hydrogen cyanide is a byproduct of burning wool. When wood burns it can produce manganese, benzene, and dioxins.
As many products as there are in the world, there are an equal number of byproducts produced in a fire and many are known carcinogens or extremely hazardous when inhaled or absorbed by the skin.
A common house fire results in the burning of a wide variety of materials, from wood and paper to plastics and other synthetic items.
Breathing the tiny particles can cause coronary heart disease, asthma, bronchitis, and many other respiratory illnesses. Research has also shown that many premature deaths are directly related to soot in the environment. Particle exposure leads to around 20, premature deaths in America each year.
Many of these deaths were caused by soot-related diseases. Data also shows that soot annually causes almost , asthma attacks and 2 million lost workdays due to respiratory problems. The Phoenix Fire Department examined this phenomenon during a study focused on firefighter exposures after a fire was extinguished and their findings indicated that some chlorinated products such as dioxin become attached to airborne particulate matter.
This is an important study because it points to the fact that exposure to airborne vapors and residues after a fire are much more complex than our current understanding allows.
However, the important point is that soot may be more than just a particulate hazard; it can potentially carry other chemical residues that are potentially harmful to the respiratory system. The toxic mixture of chemicals and gasses contained in fire smoke is comprised primarily of carbon monoxide, carbon dioxide, hydrogen cyanide, ammonia, hydrogen chloride, sulfur dioxide, hydrogen sulfide, acids, and oxides of nitrogen.
Chlorine gas was the first lethal chemical to be used in World War I, resulting in thousands of casualties. Then later phosgene and diphosgene were used. Hydrogen cyanide was also produced, but its physical properties were found to be unsuitable for use as an effective chemical warfare agent.
Hydrogen cyanide and phosgene are both commonly found in structure fire smoke Phosgene was first used as a Chemical Weapon by the Germans, but was later used by the French, Americans, and British. Initial deployment of the gas was by the Germans at Ypres Salient on December 19, when they released around cylinders of phosgene combined with Chlorine against the British. Phosgene was responsible for the majority of deaths that resulted from chemical warfare.
To illustrate the types of chemicals found in structure fires, here is a list of some of the most common toxic chemicals and gases and their effects on human health:. The International Agency for Research on Cancer classifies benzene as carcinogenic to humans, based on sufficient evidence that benzene causes acute myeloid leukemia. Benzene exposure has been linked with acute lymphocytic leukemia, chronic lymphocytic leukemia, multiple myeloma, and non-Hodgkin lymphoma.
Arsenic is an element that is extremely toxic to human health. Arsenic poisoning occurs when someone is exposed to arsenic, typically by unknowingly ingesting it.
Poisoning can occur by inhalation or through dermal absorption. Sulphur Dioxide reacts with humidity and forms sulphuric and sulphurous aerosol acid. It causes breathing difficulty, airways inflammation, psychic alterations, pulmonary edema, heart failure, and circulatory collapse. Sulphur dioxide is also associated with asthma, chronic bronchitis, and mortality increase in the elderly and infants.
Breathing small amounts of hydrogen cyanide may cause headache, dizziness, weakness, nausea, and vomiting. Larger amounts may cause irregular heartbeats, seizures, fainting, and rapid death. Symptoms of acute exposure include nausea, headaches, delirium, disturbed equilibrium, tremors, convulsions, and skin and eye irritation. Inhalation of high concentrations of hydrogen sulfide can produce rapid unconsciousness and death. The International Agency for Research on Cancer has concluded that formaldehyde is carcinogenic to humans, based on higher risks of nasopharyngeal cancer and leukemia.
During or immediately after exposure to dangerous concentrations of phosgene, the following signs and symptoms may develop: Coughing, burning sensation in the throat and eyes, watery eyes, blurred vision, difficulty breathing or shortness of breath, nausea and vomiting. Skin contact can result in lesions similar to those from frostbite or burns. Exposure to phosgene may cause delayed effects that may not manifest for up to 48 hours after exposure, even if the person feels better or appears well following removal from exposure.
Therefore, people who have been exposed to phosgene should be monitored for 48 hours afterward. Delayed effects that can appear for up to 48 hours include the following: Difficulty breathing, coughing up white to pink-tinged fluid a sign of pulmonary edema low blood pressure, and heart failure.
Methylmercury and metallic mercury vapors are more harmful than other forms, because more mercury in these forms reaches the brain. Exposure to mercury can permanently damage the brain, kidneys, and developing fetus. Effects on brain functioning may result in irritability, shyness, tremors, changes in vision or hearing, and memory problems.
Very young children are more sensitive to mercury than adults. It can also pass to a nursing infant through breast milk. Children poisoned by mercury may develop problems of their nervous and digestive systems, and kidney damage. Chronic exposure affects the central nervous system showing symptoms such as depression, headache, fatigue, weakness, and may cause minor effects on kidney function.
Hydrogen chloride is irritating and corrosive to any tissue it contacts. Brief exposure to low levels causes throat irritation. Exposure to higher levels can result in rapid breathing, narrowing of the bronchioles, blue coloring of the skin, accumulation of fluid in the lungs, and even death. Exposure to even higher levels can cause swelling and spasm of the throat and suffocation. Some people may develop an inflammatory reaction to hydrogen chloride.
This condition is called reactive airways dysfunction syndrome RADS , a type of asthma caused by some irritating or corrosive substances. Exposure to phenol by any route can produce systemic poisoning.
Phenol is corrosive and causes chemical burns at the contact site. Coma and seizures can occur within minutes or may be delayed up to 18 hours after exposure. Other symptoms include nausea, vomiting, diarrhea, methemoglobinemia, hemolytic anemia, profuse sweating, hypotension, arrhythmia, pulmonary edema, and tachycardia. As a corrosive substance, phenol denatures proteins and generally acts as a protoplasmic poison. Phenol may also cause peripheral nerve damage.
Systemic poisoning can occur after inhalation, skin contact, eye contact, or ingestion. Damage to the nervous system is the primary cause of death from phenol poisoning. Acrolein vapor may cause eye, nasal and respiratory tract irritations in low level exposure.
A decrease in breathing rate was reported by volunteers acutely exposed to 0. Methyl mercaptan is a central nervous system depressant that acts on the respiratory center to produce death by respiratory paralysis. Individuals with pre-existing respiratory, cardiac, nervous system, or liver impairment may be more susceptible to exposure to methyl mercaptan. Toluene is irritating to the skin, eyes, and respiratory tract.
It can cause systemic toxicity by ingestion or inhalation and is slowly absorbed through the skin. The most common route of exposure is via inhalation.
Introduction We all face a variety of risks to our health as we go about our day-to-day lives. Driving in cars, flying in airplanes, engaging in recreational activities, and being exposed to environmental pollutants all pose varying degrees of risk. Some risks are simply unavoidable. Some we choose to accept because to do otherwise would restrict our ability to lead our lives the way we want. Some are risks we might decide to avoid if we had the opportunity to make informed choices. Indoor air pollution and exposure to hazardous substances in the home are risks we can do something about. In the last several years, a growing body of scientific evidence has indicated that the air within homes and other buildings can be more seriously polluted than the outdoor air in even the largest and most industrialized cities.
The greatest challenge the world is facing today is to win the battle against COVID pandemic as soon as possible. Until a vaccine is available, personal protection, social distancing, and disinfection are the main tools against SARS-CoV Although it is quite infectious, the SARS-CoV-2 virus itself is an enveloped virus that is relatively fragile because its protective fatty layer is sensitive to heat, ultraviolet radiation, and certain chemicals. However, heat and liquid treatments can damage some materials, and ultraviolet light is not efficient in shaded areas, so other disinfection alternatives are required to allow safe re-utilization of materials and spaces. As of this writing, evidences are still accumulating for the use of ozone gas as a disinfectant for sanitary materials and ambient disinfection in indoor areas.
ing the usefulness and atoxicity of ozone therapy in some diseases. However likely advantages of ozonetherapy over current orthodox medicine in vascular this type of treatment is more rational as a preventive than curative therapy. lar diseases, represents the cause of death due to limb ischaemia, heart infarction.
Disinfecting using fog, mist and other systems during the coronavirus (COVID-19) pandemic
Oxiclean Toxicity Dogs. She suggests searching for cleaning products that use natural enzyme or oxidizing formulas which use the power of oxygen to eliminate odors, instead of harsh chemicals. The ingestion of this product as well as the dermal exposure to it can cause extensive damage to the eyes, mucus membranes and skin. This is a free and confidential service. The internet will tell you that vinegar is good for cleaning everything, but here are some items you should avoid.
Ozone therapy is an alternative medical treatment that introduces ozone or ozonides to the body. In April , the United States Food and Drug Administration FDA prohibited all medical uses of ozone, "In any medical condition for which there is no proof of safety and effectiveness", stating "Ozone is a toxic gas with no known useful medical application in specific, adjunctive, or preventive therapy. In order for ozone to be effective as a germicide, it must be present in a concentration far greater than that which can be safely tolerated by man and animals.
Risks from walk-through disinfecting systems
The fact that the medical applications are numerous exposes the ozonetherapist to medical derision because superficial observers or sarcastic sceptics consider ozonetherapy as the modern panacea. This seems so because ozone, like oxygen, is a molecule able to act simultaneously on several blood components with different functions but, as we shall discuss, ozonetherapy is not a panacea. One of the substantial differences between classical pharmacology and ozonetherapy is that this approach generates a heterogeneous number of compounds, which, in submicromolar concentrations, can trigger a variety of functional activities, hence multiple therapeutic responses rarely obtainable with a single drug. We know that chronic diseases are the result of a number of dysfunctions and the use of a reductionist approach can be disadvantageous. Indeed atherosclerotic patients often complain that during the day they must remember to take six or seven drugs such as a statin, folic acid, antioxidants, an antiaggregant agent, an anticoagulant, an ACE-inhibitor etc.
These are the core obsessions that drive our newsroom—defining topics of seismic importance to the global economy. Our emails are made to shine in your inbox, with something fresh every morning, afternoon, and weekend. Stephen Jones spent his career fighting major threats to public health in the US and globally, from smallpox to HIV to viral hepatitis. While many Americans might think illness linked to indoor cooking and heating is a problem confined to smoke-filled kitchens in the developing world , the natural gas-burning stoves and furnaces found in millions of US kitchens and basements can produce a range of health-damaging pollutants, including particulate matter PM , nitrogen dioxide NO2 , carbon monoxide CO , and formaldehyde. Over the past four decades, researchers have amassed a large body of scientific evidence linking the use of gas appliances, especially for cooking, with a higher risk of a range of respiratory problems and illnesses. Since the publication of two new reports on the subject from the nonprofit research group the Rocky Mountain Institute RMI and the UCLA Fielding School of Public Health , this past spring, the existence of these gas-fired health hazards has garnered increasing media scrutiny.