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相关概念视频

Water: A Bronsted-Lowry Acid and Base02:30

Water: A Bronsted-Lowry Acid and Base

The reaction between a Brønsted-Lowry acid and water is called acid ionization. For example, when hydrogen fluoride dissolves in water and ionizes, protons are transferred from hydrogen fluoride molecules to water molecules, yielding hydronium ions and fluoride ions:
Role of Water in Human Biology01:27

Role of Water in Human Biology

Water is the one of the most significant components of the human body; it plays a crucial role in several physiological activities because of its unique physicochemical properties. Importantly, it helps to regulate body temperature and is the chief component of several body fluids.
Water's Solvent Properties
Since water is a polar molecule with slightly positive and slightly negative charges, ions and polar molecules can readily dissolve in it. Therefore, it is referred to as a solvent, a...
Antihypertensive Drugs: Action of Diuretics01:16

Antihypertensive Drugs: Action of Diuretics

Diuretics are antihypertensive drugs used to treat hypertension resulting from sodium and water retention. Sodium, vital for fluid balance and nerve or muscle function, is regulated by the kidneys through millions of nephrons. Blood enters nephrons via afferent arterioles, which branch into capillaries called glomeruli. These filter blood plasma, allowing water and solutes, like sodium ions, to pass through capillary walls into Bowman's capsule. The filtrate then flows through various tubules...
Drug Absorption: Overview01:17

Drug Absorption: Overview

The process of drug absorption signifies the transition of a drug from its site of administration into the plasma. This process is influenced by various factors, including the route of administration, the anatomy of the absorption site, the mechanism of absorption, gut motility, and the drug's physicochemical properties.
When drugs are injected intravenously, they directly enter the systemic circulation. Alternatively, orally administered drugs navigate through the gastrointestinal (GI) tract.
Drug Delivery: Overview01:16

Drug Delivery: Overview

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 gastrointestinal...
Non-Oral Extravascular Drug Absorption Routes01:15

Non-Oral Extravascular Drug Absorption Routes

Non-oral extravascular routes, which encompass sublingual, buccal, topical, intramuscular, and inhalation methods, primarily utilize passive diffusion to transport drugs into the systemic circulation. The absorption rates and effectiveness of these routes depend on the drug's physicochemical properties, as well as the patient's anatomical and pathophysiological state.
Lipophilic drugs that are stable at salivary pH (6) and exhibit minimal binding to the oral mucosa are absorbed more effectively...

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Updated: Jun 22, 2026

An Injectable and Drug-loaded Supramolecular Hydrogel for Local Catheter Injection into the Pig Heart
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一个介绍可注射水凝的介绍.

Julieta I Paez1, Khoon S Lim2

  • 1Department of Developmental Bioengineering, University of Twente, The Netherlands.

Journal of materials chemistry. B
|June 4, 2024
PubMed
概括
此摘要是机器生成的。

可注射水凝为药物输送和组织再生提供了先进的解决方案. 这些多功能材料模仿自然的细胞环境,使各种疾病和伤害的最小侵入性治疗成为可能.

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科学领域:

  • 生物材料科学 生物材料科学
  • 材料化学 材料化学
  • 再生医学是一种再生医学.

背景情况:

  • 可以注射的水凝是高度水化的聚合物网络,模仿细胞外基质.
  • 它们提供了优势,如侵入性最小的分娩和适合不规则的网站.
  • 它们的特性包括氧气和营养物质的透性,对于生物医学应用至关重要.

研究的目的:

  • 审查最近注射凝技术的进展.
  • 突出其在药物输送,组织工程和再生医学方面的潜力.
  • 涵盖新兴化学品,制造方法和性能评估.

主要方法:

  • 探索可注射水凝的新合成途径和制造技术.
  • 细胞物质相互作用和表现的评估在体外,体外和体内.
  • 对治疗剂载荷 (药物,细胞,蛋白质) 和输送策略的审查.

主要成果:

  • 可注射水凝作为治疗剂的支架和载体显著有前途.
  • 在治疗癌症等慢性疾病和促进器官/组织修复方面已证明有效.
  • 材料性能和加工方面的进步,包括增材制造.

结论:

  • 可注射水凝是一个快速发展的领域,具有巨大的生物医学潜力.
  • 对它们的化学,制造和性能进行持续的研究将推动治疗创新.
  • 这些材料是开发下一代治疗各种疾病的关键.