Three-generation sepsis is a type of antibacterial drug that is widely used in clinical medicine.
I. Characteristics
1. Antibacterial spectroscopy: Strong antibacterial effects on the grenyl fungus and some activity in the grenyl positive fungi. For example, the effectiveness of the fight against common grelan fungus such as coli and pneumocococcus also has some effect on greland positives such as the golden pluccus.
2. High stability for β-NEA: Many bacteria produce β-NEA and damage the structure of antibacterials such as penicillin and a generation-to-generation, second-generation cystasy, which deprives them of antibacterial activity. Due to its structural characteristics, trigeneration septactin is relatively stable and less susceptible to enzymes.
3. High tissue penetration: high concentrations can be achieved in different tissues in the body, such as lungs, urology, cholesterol, etc., which can facilitate the treatment of infection in these areas.
II. Representing drugs
1. Capricorn: Strong antibacterial activity in intestinal bacteria, often used to treat serious infections such as pneumonia, meningitis and sepsis caused by sensitive bacteria.
2. Plumbing of hair: A long-lasting feature, which is sufficient once a day. Extensive use is made of respiratory infections, urinary system infections, abdominal infections, etc.
3. Capricorn: has a better antibacterial effect on drug-resistant bacteria, such as the copper-green fake cystasy, and is often used to treat complex infections, such as hospital access to sexually transmitted pneumonia.
Clinical applications
1. Respiratory infections: pneumonia, bronchitis, etc. Infections caused by common pathogens, such as pneumocococcus, haemophilus influenzae, catamola, etc., can be one of the important treatment options for three generations of cystasy.
2. Infection of the urology system: bladderitis, kidneys, etc. The high concentrations of trigeneration sepsis in urea are effective against common pathogens that cause infections in the urology system.
3. Cervical infections: peritonealitis, cholesterolitis, etc. In the case of complex intraperitoneal infections, three generations of sepsis are often used in combination with other antibacterial drugs.
Central nervous system infections: meningitis, etc. As three generations of sepsis are better passed through the blood-brain barrier, they play an important role in the treatment of central nervous system infections.
IV. NOTES
1. Allergic reaction: Like other sepsis, three generations of sepsis may cause allergies, such as rashes, itching, respiratory difficulties, etc. Before being used, the patient ‘ s allergy history should be asked in detail, and those who are allergic to his or her head is banned.
2. Kidney function impairment: Some of the three generations of sepsis are mainly excreted through the kidney, and, when used in patients with incomplete kidney function, dosages should be adjusted to the kidney function to avoid the toxic effects of drug accumulation.
3. Interaction with other drugs: Three generations of sepsis may interact with some drugs. For example, co-use with a strong urea can increase renal toxicity; co-use with alcohol can cause double-sulphuron-like reactions in the form of facial red, heart attack, respiratory difficulties, etc.
4. Drug resistance: With the widespread application of antibacterial drugs, bacteria are becoming more resistant. The long-term and irrational use of three generations of cystasy can lead to resistance of bacteria and a decrease in treatment. Therefore, in the use of three-generation cystasy, adaptive evidence should be strictly developed to avoid abuse.
Three-generation sepsis is an important antibacterial drug and plays an important role in clinical treatment. However, in their use, they should be fully informed of their characteristics, concerns and potential risks, and used rationally to ensure treatment effectiveness and patient safety.
