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Liberation is the first step in the process by which medication enters the body and liberates the active ingredient that has been administered. The pharmaceutical drug must separate from the vehicle or the excipient that it was mixed with during manufacture. Some authors split the process of liberation into three steps: disintegration, disaggregation and dissolution. A limiting factor in the adsorption of pharmaceutical drugs is the degree to which they are ionized, as cell membranes are relatively impermeable to ionized molecules. Many health professionals advise patients to chew the tablets or pills they take in order to facilitate the liberation process, particularly disaggregation. The characteristics of a medication’s excipient play a fundamental role in creating a suitable environment for the correct absorption of a drug. This can mean that the same dose of a drug in different forms can have different bioequivalence, as they yield different plasma concentrations and therefore have different therapeutic effects. == Dissolution == In a typical situation a pill taken orally will pass through the oesophagus and into the stomach. As the stomach has an aqueous environment it is the first place where the pill can dissolve. The rate of dissolution is a key element in controlling the duration of a drug’s effect. For this reason, different forms of the same medication can have the same active ingredients but different dissolution rates. If a drug is administered in a form that is not rapidly dissolved the drug will be adsorbed more gradually over time and its action will have a longer duration. A consequence of this is that patients will comply more closely to a prescribed course of treatment, as the medication does not have to be taken so frequently. In addition, a slow release system will maintain drug concentrations within a therapeutically acceptable range for longer than quicker releasing delivery systems as these result in more pronounced peaks in plasma concentration. The dissolution rate is described by the Noyes–Whitney equation: Where: * is the dissolution rate. * A is the solid’s surface area. * C is the concentration of the solid in the bulk dissolution medium. * is the concentration of the solid in the diffusion layer surrounding the solid. * D is the diffusion coefficient. * L is the thickness of the diffusion layer. As the solution is already in a dissolved state it does not have to go through a dissolution stage before absorption begins. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Liberation (pharmacology)」の詳細全文を読む スポンサード リンク
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