Graph Paper in PDF Format. If you have Adobe Reader (v5.0 or greater) installed (or Preview in Mac OS X) clicking on the links below will provide the graph paper indicated.

- Linear 7 x 9 inches
- Linear 18 x 22 cm
- Semi-log One Cycle
- Semi-log Two Cycle
- Semi-log Three Cycle
- Semi-log Four Cycle
- Semi-log Five Cycle
- Mullen Plot, redrawn from Mullen, 1978
- Mullen Plot (0-900), redrawn from Mullen, 1978
- Vozeh Plot - redrawn from Vozeh, 1981

- Chapter 2 - Background Mathematical Material
- Chapter 4 - One Compartment IV Bolus
- Chapter 5 - Analysis of Urine Data
- Chapter 6 - Intravenous Infusion
- Chapter 8 - Pharmacokinetics of Oral Administration
- Chapter 12 - Physical-Chemical Factors Affecting Oral Absorption
- Chapter 14 - Multiple IV Bolus Dose Administration
- Chapter 15 - Multiple Oral Dose Administration
- Chapter 16 - Routes of Excretion
- Plot of Cp
*versus*Time before, during and after Low Flux Hemodialysis - Linear Plot of Cp versus Time after a Single IV Bolus Dose Administration One Compartment Model - Renal Excretion and Liver Metabolism Models
- Semi-log Plot of Cp versus Time after a Single IV Bolus Dose Administration One Compartment Model - Renal Excretion and Liver Metabolism Models
- Linear Plot of Cp versus Time after a Single Oral Dose Administration One Compartment Model - Renal Excretion and Liver Metabolism Models
- Semi-log Plot of Cp versus Time after a Single Oral Dose Administration One Compartment Model - Renal Excretion and Liver Metabolism Models
- Linear Plot of Cp versus Time after a Single IV Bolus Dose Administration Two Compartment Model - Renal Excretion and Liver Metabolism Models
- Semi-log Plot of Cp versus Time after a Single IV Bolus Dose Administration Two Compartment Model - Renal Excretion and Liver Metabolism Models
- Linear Plot of Cp versus Time after a Single Oral Dose Administration Two Compartment Model - Renal Excretion and Liver Metabolism Models
- Semi-log Plot of Cp versus Time after a Single Oral Dose Administration Two Compartment Model - Renal Excretion and Liver Metabolism Models

- Plot of Cp
- Chapter 17 - Metabolism
- Linear Plot of Morphine Concentration
*versus*Time after Codeine Administration - Linear Plot of Cp
*versus*Time and the effect of the induction of Carbamazepine metabolism - Linear Plot of Concentration
*versus*Time after an IV Bolus Dose using Well Stirred or Parallel Tube Model - Semi-log Plot of Concentration
*versus*Time after an IV Bolus Dose using Well Stirred or Parallel Tube Model - Linear Plot of Concentration
*versus*Time after an Oral Dose using Well Stirred or Parallel Tube Model - Semi-log Plot of Concentration
*versus*Time after an Oral Dose using Well Stirred or Parallel Tube Model

- Linear Plot of Morphine Concentration
- Chapter 19 - Multi-Compartment Pharmacokinetic Models
- Plot of Cp
*versus*Time after an IV bolus - Two Compartment model using Macro Constants - Plot of Cp
*versus*Time after an IV bolus - Two Compartment model using Micro Constants - Linear Plot of Cp
*versus*Time after an IV bolus and IV Infusion - Two Compartment model using Micro Constants - Semi-log Plot of Cp
*versus*Time after an IV bolus and IV Infusion - Two Compartment model using Micro Constants - Linear Plot of Cp
*versus*Time after Two IV bolus doses - Two Compartment model using Micro Constants - Linear Plot of Cp
*versus*Time after a Fast and Slow IV Infusion - Two Compartment model using Micro Constants - Semi-log Plot of Cp
*versus*Time after a Fast and Slow IV Infusion - Two Compartment model using Micro Constants

- Plot of Cp
- Chapter 21 - Non-Linear Pharmacokinetic Models

- Chapter 2 - Background Mathematical Material
- Chapter 4 - One Compartment IV Bolus
- Chapter 5 - Analysis of Urine Data
- Chapter 6 - Intravenous Infusion
- Calculate Cp Given k0, kel and V at time t
- Calculate k0 required to give Cp at time t
- Calculate Cp
^{ss}Given k0, kel and V - Calculate k0 required to give Cp
^{ss} - Calculate Cp given k0, Bolus Dose, kel and V at time t
- Calculate Cp given fast and slow k0, kel and V at time t
- Calculate kel and V given post infusion Cp
*versus*time data

- Chapter 8 - Pharmacokinetics of Oral Administration
- Chapter 12 - Physical-Chemical Factors Affecting Oral Absorption
- Chapter 14 - Multiple IV Bolus Dose Administration
- Chapter 16 - Routes of Excretion
- Chapter 19 - Multi-Compartment Pharmacokinetic Models
- Chapter 20 - Non-Linear Pharmacokinetic Models

Chapter | Description | Video Link | Audio Only |
---|---|---|---|

2 | Graphing Data | Video | Audio |

2 | Writing DEs | Video | Audio |

2 | Calculating AUC | Video | Audio |

4 | Calculating kel and V | Video | Audio |

5 | Analysis of Urine Data | Video | Audio |

6 | Analyzing IV Infusion Data | Video | Audio |

9 | Method of Residuals | Video | Audio |

14 | Calculating a multiple dose IV regimen | Video | Audio |

14 | Calculating a multiple dose IV regimen 2 | Video | Audio |

14 | Superposition Principle | Video | Audio |

21 | Non-Linear Elimination | Video | Audio |

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