Antibacterial drugs and bacterial infections: scientific drugs, protection from error

In modern medicine, antibacterial drugs, commonly referred to as antibiotics, are essential for the treatment of bacterial infections. However, with the widespread use of antibacterial drugs, the problem of bacterial resistance has become more acute and has become a major public health challenge. In order to use antibacterial drugs more effectively and avoid the creation of resistance, we need to have an in-depth understanding of the relationship between microbacterial drugs and bacterial infections and to learn to use them in science to avoid common error zones.I. Mechanisms for the functioning of antibacterial drugsAntibacterials are mainly inhibited and exterminated by bacteria and other micro-organisms, and their treatment is mainly directed at infections caused by pathogenic micro-organisms such as bacteria, fungi, trigenes and chlamydia. There is a wide range of antibacterial drugs, including penicillin, sepsis, large cyclic esters, fluorophenone, etc., which have antibacterial effects through different mechanisms such as inhibiting the synthesis of bacterial cell walls, destroying bacterial DNA and interfering with bacterial protein synthesis.II. Common error zones for antibacterial drugsAntibacterial = anti-inflammatory: this is a common error. Antibacterial drugs do not work directly against inflammation, but rather against microorganisms that cause inflammation. Anti-inflammatory drugs are treated for inflammation per se, such as arthritis, which can be treated with anaesthesia. As a result, anti-bacterial drugs are ineffective for viral inflammation (e.g. viral flu).2. Broad-scale antibacterials are better than narrow-spectral antibacterials: in practice, antibacterials are used on the principle that they can be used in narrow-spectrums without broad-scale, low-level and high-level. When no pathogen microorganisms are identified, broad-spectral antigens can be used, but once pathogenic microorganisms are identified, narrow-spectral antigens are preferred to reduce bacterial resistance.3. New antibacterial drugs are better than old: each antibacterial drug has its specific ailments and disadvantages. New antibacterials are not necessarily better than older ones, and the choice of antibacterials should be based on conditions, pathogens and drug-sensitive tests.Joint use of antibacterials is more effective: in general, joint use of antibacterials is not promoted. Joint use of drugs may increase unreasonable use factors, reduce therapeutic efficacy and lead to bacterial resistance.5. Detoxification once it takes effect: Antibacterial drugs take a certain amount of time to treat, which, if not enough time to use them, may lead to a rebound and increase the risk of bacterial resistance. Therefore, even if the condition improves, the necessary treatment should be followed.III. Recommendations for scientific medicine1. Identification of pathogens: Prior to the use of antibacterial drugs, the pathogen should be identified as far as possible, and bacterial culture and drug sensitivity tests should be conducted to select the most effective antibacterial drugs.2. Treatment: The efficacy of anti-bacterial drugs takes a certain amount of time, and patients should comply with their medical instructions to take their medication on time and in accordance with their medical standards, and to observe the adverse effects of drugs.3. Avoiding abuse: Do not buy and use antibacterial drugs at will, especially without medical guidance. For common diseases such as flu, antibacterial drugs are not required if they are caused by viruses.4. Strengthening infection control: attention to hygiene and avoiding cross-infection. In the case of infected patients, appropriate quarantine measures should be taken to prevent the spread of the disease.5. Raising public awareness: Public awareness of anti-bacterial drugs, methods of and attention to the correct use of anti-bacterial drugs through the dissemination of science.In short, anti-bacterial drugs are an important tool for the treatment of bacterial infections, but we must use them in a scientific way to avoid errors. By identifying pathogens, using drugs for treatment, avoiding abuse, strengthening infection control and raising public awareness, we can make more effective use of antibacterial drugs, reduce the generation of bacterial resistance and protect the health of the population.