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In a medicine that is administered periodically, the trough level should be measured just before the administration of the next dose in order to avoid overdosing. [3] A trough level is contrasted with a "peak level" (C max), which is the highest level of the medicine in the body, and the "average level", which is the mean level over time. It is ...
Serum vancomycin levels may be monitored in an effort to reduce side effects, [27] but the value of such monitoring has been questioned. [28] Peak and trough levels are usually monitored, and for research purposes the area under the concentration curve is also sometimes used. [29] Toxicity is best monitored by looking at trough values. [29]
This definition is slightly different from C trough, the concentration immediately prior to administration of the next dose. [1] C min is the opposite of C max, the maximum concentration that the drug reaches. C min must be above certain thresholds, such as the minimum inhibitory concentration (MIC), to achieve a therapeutic effect. [2]
Glycopeptide antibiotics are a class of drugs of microbial origin that are composed of glycosylated cyclic or polycyclic nonribosomal peptides.Significant glycopeptide antibiotics include the anti-infective antibiotics vancomycin, teicoplanin, telavancin, ramoplanin, avoparcin and decaplanin, corbomycin, complestatin and the antitumor antibiotic bleomycin.
C max is the opposite of C min, which is the minimum (or trough) concentration that a drug achieves after dosing.The related pharmacokinetic parameter t max is the time at which the C max is observed.
Peak-to-trough ratio in pharmacokinetics is the ratio of peak (C max) and trough (C min) levels of a drug over its dosing interval (τ) at steady state.. Peak-to-trough ratio (PTR), also known as peak-to-trough variation or peak-to-trough fluctuation, is a parameter in pharmacokinetics which is defined as the ratio of C max (peak) concentration and C min (trough) concentration over a dosing ...
That immediately gets the drug's concentration in the body up to the therapeutically-useful level. First day: 1000 mg; the body clears 100 mg, leaving 900 mg. On the second day, the patient takes 100 mg, bringing the level back to 1000 mg; the body clears 100 mg overnight, still leaving 900 mg, and so forth.
At a practical level, a drug's bioavailability can be defined as the proportion of the drug that reaches the systemic circulation. From this perspective the intravenous administration of a drug provides the greatest possible bioavailability, and this method is considered to yield a bioavailability of 1 (or 100%). Bioavailability of other ...