Langyou Chemical
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Cephalosporin Bacteriostatic or Bactericidal
Cephalosporins are commonly used by physicians. There are many opinions on their antibacterial and bactericidal properties, and they need to be identified in detail.
Cephalosporins have many bactericidal properties. The reason for their action is that they act on the cell wall of bacteria. The cell wall of bacteria, like the wall of human beings, is necessary to maintain its shape and survival. Cephalosporins can inhibit the synthesis of bacterial cell walls, causing the cell wall to be damaged, making it difficult for bacteria to maintain its original shape. The contents of the cell escape due to the damage of the wall, eventually causing the bacteria to disintegrate and die. This is the effect of sterilization.
Looking at various experimental and clinical applications, cephalosporins are often effective in treating a variety of bacterial infections, and can quickly kill pathogenic bacteria and control the disease. For example, treating diseases caused by Streptococcus pneumoniae, Staphylococcus aureus, etc., can greatly reduce the number of bacteria and gradually eliminate the disease, which is evidence of its bactericidal power.
However, some commentators believe that in some specific situations, cephalosporins seem to inhibit bacteria. Or because the drug concentration is not suitable, or the bacteria are in a special physiological state, the drug cannot kill the bacteria immediately, and it is in a state of inhibiting its growth and reproduction. However, this is not the norm of cephalosporins, but it is actually the manifestation of ears under special conditions.
In summary, cephalosporins have sterilization as their main characteristics. In the field of antibacterial, they are often a sharp blade for defeating the enemy and a powerful assistant for physicians to treat diseases.
Cephalosporins have many bactericidal properties. The reason for their action is that they act on the cell wall of bacteria. The cell wall of bacteria, like the wall of human beings, is necessary to maintain its shape and survival. Cephalosporins can inhibit the synthesis of bacterial cell walls, causing the cell wall to be damaged, making it difficult for bacteria to maintain its original shape. The contents of the cell escape due to the damage of the wall, eventually causing the bacteria to disintegrate and die. This is the effect of sterilization.
Looking at various experimental and clinical applications, cephalosporins are often effective in treating a variety of bacterial infections, and can quickly kill pathogenic bacteria and control the disease. For example, treating diseases caused by Streptococcus pneumoniae, Staphylococcus aureus, etc., can greatly reduce the number of bacteria and gradually eliminate the disease, which is evidence of its bactericidal power.
However, some commentators believe that in some specific situations, cephalosporins seem to inhibit bacteria. Or because the drug concentration is not suitable, or the bacteria are in a special physiological state, the drug cannot kill the bacteria immediately, and it is in a state of inhibiting its growth and reproduction. However, this is not the norm of cephalosporins, but it is actually the manifestation of ears under special conditions.
In summary, cephalosporins have sterilization as their main characteristics. In the field of antibacterial, they are often a sharp blade for defeating the enemy and a powerful assistant for physicians to treat diseases.
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