Physiologically Based Pharmacokinetic (PBPK) Modeling and Simulations. Sheila Annie Peters

Physiologically Based Pharmacokinetic (PBPK) Modeling and Simulations - Sheila Annie Peters


Скачать книгу
href="#ulink_cc5e9d04-0ab1-5fa2-97aa-d6cbab8a3b03">1.2.4 Hepatic, Renal, and Biliary Clearances 1.2.5 Extravascular (Subcutaneous, Intramuscular, and Per Oral) Absorption 1.2.6 Absorption from Solid Dosage Forms 1.2.7 Role of Transporters in ADME 1.2.8 Linear and Non‐Linear Pharmacokinetics 1.2.9 Intravenous Infusion, Repeated Dosing, Steady State Kinetics, and Accumulation 1.2.10 Active Metabolite and Prodrug Kinetics

      3  1.3 Pharmacokinetic Variability

      4  1.4 Pharmacokinetics Optimization in Drug Discovery

      5  1.5 Pharmacodynamic Principles 1.5.1 Pharmacological Targets and Drug Action 1.5.2 Functional Adaptation Processes 1.5.3 Biomarkers, Surrogate Endpoints, and Clinical Endpoints Keywords References

      1.2.1 Routes of Drug Administration

      Common routes of drug administration include per oral (PO), intramuscular (IM), subcutaneous (SC) intravenous (IV) bolus and infusion, and intrathecal (around the spinal cord). Other less common routes include buccal, sublingual, rectal, transdermal, inhalational, and topical. The oral route is the most preferred route, but it is not suitable for drugs that are not stable in the gut, like for example peptide and protein drugs.

      Intravenous (IV) administration ensures rapid, complete drug availability for drugs that are not in the form of suspensions or oils, by bypassing absorption barriers. Drugs having poor oral bioavailability or causing unacceptable pain when administered intramuscularly or subcutaneously may be administered by this route. However, it is potentially hazardous, as the initial high drug concentration may elicit toxic effects. Therefore, the use of IV route is restricted to situations demanding a rapid onset of action as in anesthesia, emergency medicine etc. or, when the patient is persistently vomiting, is unconscious or is too young to safely swallow solid forms of medication. Controlled drug administration through IV infusions offers one way to mitigate the risk of toxicity, as the infusion may be halted in the unexpected event of adverse effects during administration. Apart from causing severe pain, intra‐arterial administration is associated with the risk of dangerous pressure buildup in the muscles leading to decreased blood flow and consequently to nerve and muscle damage. Intra‐arterial injections are therefore reserved to situations in which localizations to specific tissues are desired.

       1.2.2.1 Zero‐ and First‐Order Kinetics

       1.2.2.2 Clearance, Volume of Distribution, Half‐life, and AUC

      The first‐order rate equation depicting the rate of change of drug concentrations in the blood (C) is given by

      where A is the amount of drug in the body at any time, t, kel is the first‐order


Скачать книгу