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相关概念视频

Pharmacokinetic Models: Overview01:20

Pharmacokinetic Models: Overview

786
Pharmacokinetic models utilize mathematical analysis to achieve a detailed quantitative understanding of a drug's life cycle within the body. They are instrumental in simulating a drug's pharmacokinetic parameters, predicting drug concentrations over time, optimizing dosage regimens, linking concentrations with pharmacologic activity, and estimating potential toxicity.
There are three primary types of models: empirical, compartment, and physiological. Empirical models, with minimal...
786
Three-Compartment Open Model01:06

Three-Compartment Open Model

273
The three-compartment open model is a pharmacokinetic model used to describe the distribution and elimination of drugs following extravascular administration. It comprises a central compartment representing the plasma and two peripheral compartments. The highly perfused peripheral compartment represents organs and tissues with a rich blood supply, such as the liver, kidneys, and lungs. The scarcely perfused peripheral compartment represents tissues with lower blood supply, such as adipose...
273
One-Compartment Open Model for IV Bolus Administration: General Considerations01:19

One-Compartment Open Model for IV Bolus Administration: General Considerations

245
The one-compartment model is a pharmacokinetic tool that models the body as a single, uniform compartment, facilitating the understanding of drug distribution and elimination. This model is particularly beneficial for intravenous (IV) bolus administration, where the drug rapidly circulates throughout the body.
The drug's presence in the body is defined by an equation representing the difference between the rates of drug entry and exit. Key parameters—elimination rate constant,...
245
Drug Delivery: Overview01:16

Drug Delivery: Overview

322
The selection of a drug's delivery route depends upon its physicochemical properties, including lipid or water solubility and ionization, as well as the therapeutic requirement, such as immediate or sustained effect. These routes can be divided into three primary categories: enteral, parenteral, and topical.
Enteral delivery involves administering drugs directly through swallowing, sublingual placement, or buccal application. Orally administered drugs predominantly navigate the...
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相关实验视频

Updated: Jul 19, 2025

A Facile and Eco-friendly Route to Fabricate PolyLactic Acid Scaffolds with Graded Pore Size
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用功能分级材料建模智能药物释放.

Gabriella Bretti1, Sean McGinty2, Giuseppe Pontrelli1

  • 1Istituto per le Applicazioni del Calcolo - CNR, Via dei Taurini 19 00185 Rome, Italy.

Computers in biology and medicine
|August 10, 2023
PubMed
概括
此摘要是机器生成的。

功能分级材料 (FGM) 提供可调节的药物释放配置文件. 一个数学模型表明,FGM中药物扩散度的变化使得释放模式多样化,与同质材料不同.

关键词:
药物输送是药物输送的过程.数学模型的数学模型.数字方法 数字方法.智能材料是一种智能材料.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 生物医学工程 生物医学工程
  • 药理学 药理学是指药理学的学科.

背景情况:

  • 功能分级材料 (FGMs) 在空间上表现出不同的特性,在航空航天,汽车和生物医学领域都有应用.
  • 尽管它们具有潜力,但FGM尚未得到充分利用,特别是在先进的应用中,如控制药物输送.
  • 实现量身定制的药物释放概况对于有效的治疗结果至关重要.

研究的目的:

  • 探索FGM在药物输送应用中的潜力.
  • 开发一个数学模型来预测从薄膜FGM中释放的药物.
  • 为了研究空间变化的药物扩散性如何影响药物释放动力学.

主要方法:

  • 开发一个数学模型,模拟从薄膜FGM中释放药物.
  • 在FGM模型中纳入空间变化的药物扩散性.
  • 基于不同功能形式的扩散性的药物释放概况的分析.

主要成果:

  • 证明了FGM可以实现广泛的药物释放配置文件.
  • 表明释放形状的形状取决于空间变化的药物扩散性的功能形式.
  • 强调,这些多样化的释放概况通常无法在具有恒定扩散率的同质材料中实现.

结论:

  • 功能分级材料为微调药物释放动力学提供了一个有希望的平台.
  • 数学模型为设计具有特定药物释放特性的FGM提供了一个框架.
  • 女生生殖器官切割使得药物输送形状能够达到传统的同质材料无法达到的水平.