Classification of head-stamp antibiotics
Capricorn antibiotics are a wide range of widely used antibacterial drugs, which can be classified into the following categories according to their antibacterial spectrometry, stability of β-neamide enzymes, etc.:
The first generation of enzymes • This was the first developed type of enzyme. The main characteristic is a high level of antibacterial activity for gland positive fungi (e.g., streptococcus, etc.), including cyncin-resistant golden grapes. It’s less stable than β-neamase and is therefore vulnerable to bacterial enzymes. • Drugs commonly used include head-stamps, head-stamps, etc. Capricorn is often used to prevent post-surgery infections and is well covered with common pathogens on the skin surface. Head spasms can be used to treat mild respiratory infections, skin soft tissue infections, such as shallow skin infections such as thorium, thorium, etc.
The second generation of enzymes • The second generation of enzymes has increased their antibacterial activity on the basis of a certain level of activity for the grelan positive fungi (e.g., coli-Eshi, Chreber, etc.). It’s more stable than the first generation. • On behalf of the drug, there is a head of fursynthesis and a head of Zacolo. Headfurcin is used more extensively in clinical applications and can be used to treat community access to sexually transmitted pneumonia, especially infections caused by influenza haemophilus influenzae. Head Zhuclo is used mainly for the treatment of earitis, lower respiratory infections, etc., as it has a better antibacterial effect on the pathogens common to respiratory infections and is oral and easier to use.
• The third-generation septactin antibacterial spectroscopy of the grenacella has been expanded, with greater antibacterial activity and a high degree of stability for the β-nimide enzyme. However, their antibacterial activity against the Greland positive is less than that of the first generation of sepsis. • For example, twirl, twirl. The skull is often used to treat deep infections such as severe sepsis and abdominal infections, and it can effectively penetrate tissues and body fluids and act as a microbicide for various pathogens. Head spines are long-acting antibiotics that play an important role in the treatment of sexually transmitted diseases such as gonorrhoea, and are also used for central nervous system infections such as meningitis caused by a variety of sensitive bacteria, as it is able to pass through the blood-brain barrier.
• The antibacterial spectrum of fourth-generation enzymes is wider, with good antibacterial activity for the Grelan positive and grelan cacteria, and high stability for the various β-neamide enzymes produced by bacteria. • It has had a good effect in the treatment of severe infections such as pneumonia and complex urinary tract infections in hospitals, as in the case of the head. In particular, for some bacterial infections that are resistant to third-generation cystasy, the gill may have a better antibacterial effect.
• This is the newest type of bacterium, the main feature of which is that it has a strong antibacterial activity for drug-resistant gebrane-positive bacteria, such as methoxylin and yellow grapes (MRSA), while retaining antibacterial effects on grelanes. • On behalf of a drug that is a headline ester, it can be used to treat skin soft tissue infections, community access to sexually transmitted pneumonia, etc., especially if suspected or diagnosed with MRSA infection, providing new options for clinical treatment of drug-resistant infections.
The various characteristics of the different generations of skull antibiotics are such that, in clinical applications, doctors choose the most appropriate precipitous antibiotics for treatment, taking into account such factors as the type, area and severity of the infection.
