In modern medicine, antibiotics are a powerful weapon against bacterial infections, but “doctrin”, and while killing the fungus, antibiotics can also cause damage to normal strains in the intestinal tract, causing a range of health problems. For the benefit of the host, the prophylactic bacteria show an important role in improving intestinal stock imbalances caused by antibiotics.
Widespread use of antibiotics can seriously damage the balance of intestinal strains. The intestinal strains are a complex ecosystem that contains prophylactic, harmful and mesmophilic bacteria, which regulate and interdependencies and together maintain the normal functioning of the intestinal tract. When antibiotics enter the human body, they are not selective in their fungicide, and while inhibiting or destroying the fungus, a large number of useful bacteria are “miskilled” by innocent people. This intestinal imbalance can lead to impaired intestinal barriers, make harmful bacteria more vulnerable to intestinal tissue, causing symptoms such as diarrhoea, abdominal pain, and may increase the risk of diseases such as intestinal inflammation, allergy and metabolic disorders.
Beneficiary bacteria can regulate intestinal group structures and help restore intestinal ecological balance. The growth and reproduction of harmful bacteria can be inhibited by competition with harmful fungi for adhesive points and nutrients in the intestinal tract, for example, amphibian and lactacid. Vegetable bacteria can also produce short-chain fatty acids in metabolism, such as acetic acid, acrylic acid and butic acid. These short-chain fatty acids are not only an important source of energy for intestinal skin cells, helping to maintain the integrity of intestinal mucous membranes, but also regulating intestinal immune functions and enhancing intestinal resistance to pathogens. Benobacterium also facilitates the restoration of intestinal barriers. The intestinal barrier is like a solid wall that protects the human body from pathogens and harmful substances. When antibiotics destroy intestinal strains, the “wall” creates a loophole that leads to increased intestinal penetration. The fungi can be expressed by regulating the closely connected proteins of the intestinal skin cells, enhancing inter-cell connections, thus reducing intestinal penetration and restoring intestinal barriers.
In terms of immuno-regulating, there is also a non-negligible role for the fungi. The intestinal tract is an important immune organ of the human body and the intestinal herbology is closely related to the immune system. Antibiotic-induced strain imbalances can disrupt the normal development and functioning of the immune system and lead to immunological disorders. The fungi stimulates intestinal immune systems, promotes the separation and maturity of immune cells, regulates the distribution of immune factors and restores the balance of the immune system. For example, the fungi can increase the distribution of intestinal immunoglobin A (Iga), an important immunoglobin that can form a protective membrane on the intestinal mucous surface and prevent the invasion of pathogens.
The positive effects of prophylactic bacteria have also been confirmed by numerous clinical studies and practices. In a number of antibiotic-related diarrhoea studies for children and adults, the incidence and duration of diarrhoea among patients who use the fungi at the same time is significantly lower than for those who do not. In some patients with long-term antibiotics, regenerative bacteria can be effective in reducing the adverse effects of intestinal stock imbalances and improving the quality of life of patients.
The prophylactic bacteria have a number of positive effects in terms of antibiotic-induced intestinal cluster damage. It not only regulates the intestinal mass structure, repairs the intestinal barrier, but also regulates the immune function and reduces the risk of disease associated with antibiotics. In clinical applications, the rational use of prophylactic bacteria to prevent and treat intestinal stock imbalances caused by antibiotics is important. In the future, as research on the prophylogenesis continues to deepen, it is believed that there will be more different and more effective prophylactic products that will provide stronger protection for human health.
