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Registerterminal log linear phase [NCA / SHAM]
posted by Helmut 
– Vienna, Austria, 2008-07-19 16:57 (6132 d 10:22 ago) – Posting: # 2063
Views: 10,060
Dear Lhasa!
![[image]](img/uploaded/TerminalLin.png)
If a drug distributes only within the blood and highly perfused organs (liver, brain, muscles,…) the body is treated as a whole and a one-compartment model is applied (▬▬). Mathematically one exponential term (C=C0·ℯ-λz·t ) describes the elimination.
The elimination rate constant in NCA is mainly called ‘λz’, where the index ‘z’ stands for ‘the last’.
In a log-linear plot (time in linear scale, concentration in logarithmic scale) roughly after 2×tmax a linear decrease is seen.
![[image]](img/uploaded/TerminalLog.png)
This decrease represents the elimination of the drug form the body (either excretion of unchanged drug, or conversion to a metabolite), and may be called the log linear phase. ‘Terminal’ means the ‘last one’ – but in a one compartment model there’s only one anyhow; so the term ‘terminal’ is a little bit redundant.
If the drug distributes from the first compartment to ‘deeper’ compartment(s) additional exponential terms are needed to describe the profile (▬▬). In the log-linear plot a curved time course is noticed, where the first section describes the distribution from the first (central) compartment to the peripheral ones (perfused to a lesser extent, e.g., fat, cartilage, or even bones). Both processes (distribution and elimination) occur simultaneously (──), the concentration profile is simply the sum of both. In the example at 9.2 hours less than 1% of drug were not distributed into the peripheral compartment and the elimination becomes predominant. After 16.2 hours the concentration curve is almost superimposable with the ‘pure’ elimination (less than 1% difference). This section of the curve may by called the terminal log linear phase.
We need a good estimate of the terminal rate constant in order to calculate AUC∞ in NCA (AUC∞=AUCtz+Cz/λz). The example used a model without any noise, but in the real world it’s quite tricky to select the ‘best’ sampling points. To get an impression about the difficulties have a look at this thread…
Welcome!
Have a look at David Bourne’s “A First Course in Pharmacokinetics and Biopharmaceutics”.
❝ what is the meaning of terminal log linear phase?
If a drug distributes only within the blood and highly perfused organs (liver, brain, muscles,…) the body is treated as a whole and a one-compartment model is applied (▬▬). Mathematically one exponential term (C=C0·ℯ-λz·t ) describes the elimination.The elimination rate constant in NCA is mainly called ‘λz’, where the index ‘z’ stands for ‘the last’.
In a log-linear plot (time in linear scale, concentration in logarithmic scale) roughly after 2×tmax a linear decrease is seen.
This decrease represents the elimination of the drug form the body (either excretion of unchanged drug, or conversion to a metabolite), and may be called the log linear phase. ‘Terminal’ means the ‘last one’ – but in a one compartment model there’s only one anyhow; so the term ‘terminal’ is a little bit redundant.If the drug distributes from the first compartment to ‘deeper’ compartment(s) additional exponential terms are needed to describe the profile (▬▬). In the log-linear plot a curved time course is noticed, where the first section describes the distribution from the first (central) compartment to the peripheral ones (perfused to a lesser extent, e.g., fat, cartilage, or even bones). Both processes (distribution and elimination) occur simultaneously (──), the concentration profile is simply the sum of both. In the example at 9.2 hours less than 1% of drug were not distributed into the peripheral compartment and the elimination becomes predominant. After 16.2 hours the concentration curve is almost superimposable with the ‘pure’ elimination (less than 1% difference). This section of the curve may by called the terminal log linear phase.
We need a good estimate of the terminal rate constant in order to calculate AUC∞ in NCA (AUC∞=AUCtz+Cz/λz). The example used a model without any noise, but in the real world it’s quite tricky to select the ‘best’ sampling points. To get an impression about the difficulties have a look at this thread…
❝ I am new in this field.
Welcome!
Have a look at David Bourne’s “A First Course in Pharmacokinetics and Biopharmaceutics”.
—
Dif-tor heh smusma 🖖🏼 Довге життя Україна!![[image]](https://static.bebac.at/pics/Blue_and_yellow_ribbon_UA.png)
Helmut Schütz
![[image]](https://static.bebac.at/img/CC by.png)
The quality of responses received is directly proportional to the quality of the question asked. 🚮
Science Quotes
Dif-tor heh smusma 🖖🏼 Довге життя Україна!
Helmut Schütz
The quality of responses received is directly proportional to the quality of the question asked. 🚮
Science Quotes
Complete thread:
- terminal log linear phase lhasa 2008-07-19 06:24
![[Mix]](https://static.bebac.at/img/mix.png "open in Mix view")
- terminal log linear phaseHelmut 2008-07-19 14:57
Ing. Helmut Schütz