The following formulas and definitions should be understood so well that they are essentially memorized. You should be able to use them in solving problems. Consult other portions of these notes for details and qualifications of these terms and formulas.
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Dose Rate = Desired C(ss) * CL (mg/h) = (mg/L) * (L/h) |
Adjusted Dose Rate = Initial Dose Rate * (Desired C(ss) / Measured C(ss)) |
| Note that C(ss) will usually be
expressed as concentration in plasma (Cp(ss)). The concentration can be a peak, mean, or trough value. "Desired" and "Measured" must be in the same terms, i.e., both peak, mean, or trough. In most practical clinical pharmacokinetics, the "trough" (sample taken when the next dose is given) is the most accurate value. |
| Cp =
Amount of Drug in Body / Vd (mg/L) = mg / L |
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mg/L = (mg/Kg) / (L/Kg) |
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| *Amount of drug in the body at "zero time" is the dose for a single, rapidly absorbed drug with a bioavailability of 100%. This can be used to obtain an estimate of Cp(0). |
Note that the preceding formula can be rearranged to provide an estimate of the amount of drug in the body, a loading dose (DL), or a volume of distribution (Vd). You should be comfortable in using it in all of its forms.
Cp(0) = (F * D) / Vd mg/L = (fraction * mg) / L |
| *This estimate is reasonably valid for
rapidly absorbed drugs. Note that Dose (D) and Vd can also be expressed in terms of body mass, i.e., mg/Kg and L/Kg. |
| Cp(t) = Cp(0) * e-(Ke
* t) (mg/L) at time "t" = (mg/L) @ time "0" * frcn remaining at time "t" |
| *Can also be used to estimate concentration at a specified time after a known concentration. Replace the Cp(0) with Cp(known). |
Ke = CL / Vd frcn/h = (L/h) / L |
| *Be sure you can rearrange this formula to obtain Vd or CL for use when the other values are known. |
Ke = 0.693 / half-life frcn/h) = 0.693 / h |
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| *Be able to rearrange this formula to find half-life | |
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