.. _compartment_models:

Compartment Models
###################
.. include:: compartment_models/intro.txt


One Compartment Model
================================

.. _iv_one_cmp_cl:

One Compartment Model with Intravenous Dosing
-----------------------------------------------------------
.. include:: compartment_models/iv_one_cmp_cl.txt


.. _dep_one_cmp_cl:

One Compartment Model with Absorption
-----------------------------------------
.. include:: compartment_models/dep_one_cmp_cl.txt


Two Compartment Model
================================


.. _iv_two_cmp_cl:

Two Compartment Model with Intravenous Dosing
------------------------------------------------------------
.. include:: compartment_models/iv_two_cmp_cl.txt


.. _dep_two_cmp_cl:

Two Compartment Model with Absorption
-----------------------------------------
.. include:: compartment_models/dep_two_cmp_cl.txt


Three Compartment Model
===============================


.. _iv_three_cmp_cl:

Three Compartment Model with Intravenous Dosing
------------------------------------------------------------
.. include:: compartment_models/iv_three_cmp_cl.txt


.. _dep_three_cmp_cl:

Three Compartment Model with Absorption
-----------------------------------------
.. include:: compartment_models/dep_three_cmp_cl.txt



.. comment

    .. _n_cmp:

    More Compartments
    =========================
    (More than three compartments, PD compartments, delay compartments, etc)

    <<<Delay compartment example>>>

    # I'd have M-M elimination as an example of something else - it is neither a different compartment
    # model nor a different parameter transformation. It's more like an Emax model or similar.
    
    Michaelis-Menten Elimination (iv_one_cmp0)
    ========================================
    .. include:: compartment_models/advan10.txt

