Misplaced Pages

Elimination rate constant

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.

The elimination rate constant K or Ke is a value used in pharmacokinetics to describe the rate at which a drug is removed from the human system.

It is often abbreviated K or Ke. It is equivalent to the fraction of a substance that is removed per unit time measured at any particular instant and has units of T. This can be expressed mathematically with the differential equation

C t + d t = C t C t K d t {\displaystyle C_{t+dt}=C_{t}-C_{t}\cdot K\cdot dt} ,

where C t {\displaystyle C_{t}} is the blood plasma concentration of drug in the system at a given point in time t {\displaystyle t} , d t {\displaystyle dt} is an infinitely small change in time, and C t + d t {\displaystyle C_{t+dt}} is the concentration of drug in the system after the infinitely small change in time.

The solution of this differential equation is useful in calculating the concentration after the administration of a single dose of drug via IV bolus injection:

C t = C 0 e K t {\displaystyle C_{t}=C_{0}\cdot e^{-Kt}\,}
  • Ct is concentration after time t
  • C0 is the initial concentration (t=0)
  • K is the elimination rate constant

Derivation

In first-order (linear) kinetics, the plasma concentration C t {\displaystyle C_{t}} of a drug at a given time t after single dose administration via IV bolus injection is given by;

C t = C 0 2 t t 1 / 2 {\displaystyle C_{t}={\frac {C_{0}}{2^{\frac {t}{t_{1/2}}}}}\,}

where:

  • C0 is the initial concentration (at t=0)
  • t1/2 is the half-life time of the drug, which is the time needed for the plasma drug concentration to drop to its half

Therefore, the amount of drug present in the body at time t A t {\displaystyle A_{t}} is;

A t = V d C t = V d C 0 2 t t 1 / 2 {\displaystyle A_{t}=V_{d}\cdot C_{t}=V_{d}\cdot {\frac {C_{0}}{2^{\frac {t}{t_{1/2}}}}}\,}

where Vd is the apparent volume of distribution

Then, the amount eliminated from the body after time t E t {\displaystyle E_{t}} is;

E t = V d C 0 ( 1 1 2 t t 1 / 2 ) {\displaystyle E_{t}=V_{d}\cdot {C_{0}}{\Biggl (}1-{\frac {1}{2^{\frac {t}{t_{1/2}}}}}{\Biggr )}\,}

Then, the rate of elimination at time t is given by the derivative of this function with respect to t;

d E t d t = ln 2 V d C 0 2 t t 1 / 2 t 1 / 2 {\displaystyle {dE_{t} \over dt}={{\frac {\ln 2\cdot {V_{d}\cdot {C_{0}}}}{2^{\frac {t}{t_{1/2}}}\cdot {t_{1/2}}}}\,}}

And since K {\displaystyle K} is fraction of the drug that is removed per unit time measured at any particular instant, then if we divide the rate of elimination by the amount of drug in the body at time t, we get;

K = d E t d t ÷ A t = ln 2 t 1 / 2 0.693 t 1 / 2 {\displaystyle K={dE_{t} \over dt}\div A_{t}={\frac {\ln 2}{t_{1/2}}}\approx {\frac {0.693}{t_{1/2}}}}

References

  1. Svensén CH, Brauer KP, Hahn RG, et al. (September 2004). "Elimination rate constant describing clearance of infused fluid from plasma is independent of large infusion volumes of 0.9% saline in sheep". Anesthesiology. 101 (3): 666–674. doi:10.1097/00000542-200409000-00015. PMID 15329591. S2CID 1993017.
Pharmacology
Ligand (biochemistry)
Excitatory
Inhibitory
Pharmacodynamics
Activity at receptor
  • Mechanism of action
  • Mode of action
  • Binding
  • Receptor (biochemistry)
  • Desensitization (medicine)
  • Other effects of ligand
    Analysis
    Metrics
    Pharmacokinetics
    Metrics
    LADME
    Related
    fields
    Neuroscience and psychology
  • Neuropsychopharmacology
  • Neuropharmacology
  • Psychopharmacology
  • Electrophysiology
  • Medicine
    Biochemistry and genetics
    Toxicology
    Drug discovery
    Other
  • Coinduction (anesthetics)
  • Combination therapy
  • Functional analog (chemistry)
  • Polypharmacology
  • Chemotherapy
  • Lists of drugs
  • WHO list of essential medicines
  • Tolerance and resistance
    Antimicrobial pharmacology
    Stub icon

    This pharmacology-related article is a stub. You can help Misplaced Pages by expanding it.

    Categories: