Discovery and Antibacteria: Protecting the Body from Diseases
Natural antibacterial defence of the human body
Skin and mucous membranes: The whole skin is the first natural barrier to the human body and can prevent the invasion of most pathogens. The mucous membranes of the respiratory, digestive, and so on, not only allow the mucous mucous adhesive to the pathogen, but also remove it from the body through the wiggle of the fibrous, i.e., the fibrous hair of the nasal cavities, which excrete the inhaled fungi and the dust.
• Antibacterial substances in the body: The body fluids in the human body contain a number of microbicides, such as soluble enzymes, which can break the cell walls of certain bacteria and thus achieve antibacterial effects. In addition, as a group of proteins present in serum and tissue fluids, the reagent system can be activated by a series of reactions that directly dissolve pathogens or promote the osmosis of cells.
• Immunocellular cells: The osmosis of cells consists of giant and neutral particle cells, which can identify and absorb pathogens and digest them through enzymes in the solution. Natural killing cells can directly kill infected cells or tumor cells.
Antibacterial mechanisms of the immune system
• Pregenerative immunization: this is the natural, non-specific immune defence of the human body, including physical and chemical barriers, osmosis of cells, natural lethal cells, remedial systems and cytogens, which are capable of rapid response at the first hour of the invasion of the fungi and protection against the disease.
• Access to immunization: When pathogens break the line of congenital immunization into the human body, the immune system initiates access to immunization, including body fluid and cell immunization. In body fluid immunisation, B lymphocytes are separated into plasma cells, producing specific antibodies, which can be combined with pathogens that lose their activity or are marked with pathogens in order to absorb the cells; in cell immunisation, T lymphocytes are divided into T-cells after identifying the cells infected with the pathogens, directly killing the infected cell, or releasing a cell factor to regulate the immune response.
Anti-bacterial measures in life
• Personal hygiene: hand-washing is one of the important measures to prevent the spread of the disease, especially before eating, such as after-sitting, after-exposure of public goods, etc. Good personal hygiene practices such as regular bathing, early and evening brushing of teeth and after-dinning mouths also help to reduce the number of bacteria in the body ‘ s surface and mouth.
• Dietary hygiene: selection of fresh and clean foods, thorough cleaning of fruits and vegetables, separate treatment and storage of raw foods, avoidance of cross-contaminated contamination, cooking of foods, and non-distorted and obsolete foods, which can effectively prevent bacteria from entering the human body through food.
• Environmental health: regular cleaning of living and working environments, maintenance of good indoor ventilation, regular cleaning and replacement of bedding, towels, etc., contribute to reducing the potential for bacterial growth and the spread of pathogens in the environment.
Application of antibacterial products
• Anti-bacterial wet towels: anti-bacterial wet towels are selected for high-quality raw materials that are carefully screened and tested to effectively kill common bacteria, such as coli and yellow grapes, as well as to suppress influenza viruses, hand-and-foot oral viruses, etc. The use of antibacterial wet towels on scenes such as access to public facilities, before and after meals and on the way to travel quickly cleans hands and reduces bacterial abuse.
• Anti-bacterial fabrics: fabrics produced through special treatment or use of anti-bacterial raw materials to reduce the odor and pollution by inhibiting the growth of bacteria by adding antibacterial agents to the fabric. Antibacterial fabrics have superior antibacterial properties, air comfort, durability, etc., and are widely used in areas such as home, medical, and sports.
• Aerobic ion antibacterial products: e.g., radon-rich antibacterial products, which can catalyse water decomposition in air to hydroxyl ion and thus to hydroxyl oxy ion. Aerobic ion has the function of air purification and bactericide, effective adsorption to and oxidization of ingested and harmful gases and pathogens, decomposition of harmful gases into carbon dioxide and water, destruction of the biological structure of the fungi, and destruction of the fungi.
Other specific preventive measures
