Antibacterial drugs are divided into the following categories, each with a unique antibacterial spectrum:
– Beta-nimide
– Penicillin: includes natural penicillin and semi-synthetic penicillin. The antibacterial spectrum is narrower, with significant effects on most gland positive bacteria, e.g. soluble streptococcus, pneumococcus, intolerant pneumococcus, and partially active on membranes, e.g. naserella, gonorrhea, etc., which can be used to treat respiratory infections such as osteoporosis, tonsilitis, pneumonia, as well as partial urinary system, skin soft tissue infection.
– Head bacterium: From the first to the fifth generation, the antibacterial spectrum is gradually being widened. The first generation has a strong resistance to the Greland positive bacteria; the second generation has a good balance between the Greland positive bacteria and some Greland vaginal bacteria; the third generation has an excellent effect on the Greland vaginal bacteria, especially the intestinal bacterium bacteria; the fourth generation has a broader antibacterial spectrum and stronger antibacterial activity; and the fifth generation has a good effect on the drug-resistant Greland positive bacteria, such as the methoxoxoxoxoxin golden fungus (MRSA), which is often used in systems for severe infections.
– Carbon pyroacne: e.g., amphetamine, meropenan, with an extremely wide spectrum of antibacterials, which cover gland positive bacteria, gland cactus, and also anaerobics and multi-drug-resistant bacteria, are the key drugs for the treatment of serious infections and for access to sexual infections in hospitals.
– Single-ring β-neamide: expressed as aminotrinam, with a narrow antibacterial spectrum, mainly for aerobic glycols, with low cross-sensitivity to other β-neamides, often used for cyanol infections in patients with precipitine, headacheal allergy.
– Aminocin, Amica, etc., have a strong fungus effect on most gelatines, e.g. e.g., intestinal eshicella, copper characterium, and are also used for bacterial infections in the nodule branch, although ear toxicity, kidney toxicity limits their single use and often co-uses such as β-neamide.
– Large ringed esters: erythrin, achicin, etc., are the primary drugs of choice for atypical pathogen infections, such as chlamydia, chlamydia and chlamydia, for respiratory infections and skin soft tissue infections.
– The tetracyclic group, which includes tetracyclics, Dossicycline, antigen spectrogen, which inhibits geran positive bacteria, chlamydia, chlamydia, helix, amiba worms, which are commonly used in scabies, larvae and specific infectious diseases.
– quinone: Nonfluorinated salsa, left-oxen salsa, etc., antibacterial spectroscopy, high antibacterial efficacy for geran cactus, some varieties resistant to nodule streptococcus, and also for geran positive bacteria, chlamydia, for urin reproduction, gastrointestinal tract, respiratory infections.
– sulfamide: Sulfonamine methrazine is more commonly used, with effects on geran positive bacteria, such as meningococcus, pneumococcus, and gerlanescella, such as coli-Eshiccus, deformacicella, which are used mostly in the urology system and intestinal infections.
– Nitromite: Metrazine, Nitrazine, a drug of choice against anaerobics, which is also used for the treatment of trichomoniasis, amibasis, diseases such as diarrhea, pelvis, etc. associated with anaerobics.
– Selenium sugar: Vancin, decachlor, mainly for gland positive bacteria, especially those that are resistant to drugs such as MRSA and VRE, which are used for severe skin soft tissue and blood flow.
– Xenonone: Linazine, which is used to combat multiple drug-resistant ngland positives, has important applications in obtaining sexually transmitted pneumonia and skin soft tissue infections in hospitals.
– Bacillus: datomycin, which has a rapid bacterial effect on gland positives, especially methoxysilin-yellow grapes, intestinal fungus, for complex skin soft tissue infections, bacterial haemorrhagemia, etc.
