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相关概念视频

Modified-Release Drug Delivery Systems: Rate-Programmed I01:22

Modified-Release Drug Delivery Systems: Rate-Programmed I

35
Rate-programmed drug delivery systems (DDS) are designed to release drugs at specific, controlled rates to maintain consistent therapeutic levels. These systems are categorized based on their release mechanisms, including dissolution-controlled DDS, diffusion-controlled DDS, and combined dissolution-diffusion-controlled DDS.In dissolution-controlled DDS, the release rate depends on the slow dissolution of the drug itself or the surrounding matrix. Drugs with inherently slow dissolution rates,...
35
Modified-Release Drug Delivery Systems: Rate-Programmed II01:19

Modified-Release Drug Delivery Systems: Rate-Programmed II

44
Rate-programmed drug delivery systems release drugs in a controlled manner to maintain therapeutic levels. Three main designs include reservoir, matrix, and hybrid systems.Reservoir systems consist of a drug core enclosed within a membrane that controls drug release. In non-swelling reservoir systems, polymers like ethyl cellulose or polymethacrylates are used. These do not hydrate in aqueous media and control release through membrane thickness, porosity, or insolubility. This type includes...
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Insulin Formulations: Types and Delivery01:27

Insulin Formulations: Types and Delivery

852
Insulin preparations are categorized by their duration of action into short-acting and long-acting types. Two strategies are used to modify insulin's absorption and pharmacokinetic profile: slowing the absorption post-subcutaneous injection, or altering human insulin's amino acid sequence or protein structure. These changes retain the insulin's ability to bind to the insulin receptor, but alter its behavior in solution or after injection.
Short-acting insulins are divided into...
852
Modified-Release Drug Delivery Systems: Classification01:23

Modified-Release Drug Delivery Systems: Classification

47
Modified-release drug delivery systems improve drug efficacy and minimize side effects by controlling the rate and location of drug release. These systems fall into three categories: rate-programmed, stimuli-activated, and site-targeted.Rate-programmed systems release drugs at a predetermined rate, maintaining consistent therapeutic levels and reducing fluctuations that could lead to toxicity or subtherapeutic effects. These systems use polymeric matrices, reservoir-based designs, or osmotic...
47

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相关实验视频

Updated: Feb 24, 2026

A Multi-Parametric Islet Perifusion System within a Microfluidic Perifusion Device
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一个迷你补丁磁性胰岛素,用于提高输送分辨率和精度.

Qiji Ze1, Shuhao Huang1, Yilong Chang1

  • 1Department of Mechanical Engineering, Stanford University, Stanford, CA 94305, USA.

Advanced intelligent systems (Weinheim an der Bergstrasse, Germany)
|February 23, 2026
PubMed
概括

一个新的磁性胰岛素为传统的以活塞为基础的设备提供了一个更小,更精确的替代方案. 这项创新提高了胰岛素输送的准确性和可移植性,用于糖尿病管理.

关键词:
持续的皮下胰岛素输注.药物输送是药物输送的过程.胰岛素的管理 胰岛素的管理胰岛素的胰岛素可以磁性驱动的启动方式

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相关实验视频

Last Updated: Feb 24, 2026

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07:55

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Published on: January 26, 2010

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12:08

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科学领域:

  • 生物医学工程 生物医学工程
  • 医疗器械 医疗器械
  • 材料科学 材料科学 材料科学

背景情况:

  • 传统的胰岛素采用重的活塞机制,限制了小型化和用户的便利性.
  • 目前的胰岛素由于机械传动系统和胰岛素占据了相当大的体积.

研究的目的:

  • 为了开发一个紧的,磁性驱动的胰岛素.
  • 为了克服现有的以活塞为基础的胰岛素的尺寸和精度限制.

主要方法:

  • 一个新的磁软执行器直接压缩胰岛素室,由电磁场控制.
  • 取消了重的机械传动部件,取而代之的是磁力驱动.

主要成果:

  • 开发的磁性胰岛素的尺寸不到活塞式的四分之一.
  • 达到0.01μL的输送分辨率,明显高于活塞的0.25μL.
  • 与商业相比,在各种输送模式中表现出优越的重复性和准确性.

结论:

  • 微型磁性胰岛素为糖尿病管理提供了增强的便携性和精度.
  • 高分辨率的输送使得缩胰岛素的使用成为可能,进一步减少了设备的大小.
  • 这项技术有望提高糖尿病患者的成本效益和用户体验.