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相关概念视频

Mouse Models of Cancer Study02:43

Mouse Models of Cancer Study

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Mice have long served as models for studying human biology and pathology because of their phylogenetic and physiological similarity with humans. They are also easy to maintain and breed in the laboratory, and hence, many inbred strains are now available for research. Studies on mice have contributed immeasurably to our understanding of cancer biology.
The development of transgenic, knockout, and knock-in mice has led to an exponential increase in their use as model organisms in research,...
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Drug Discovery: Overview01:26

Drug Discovery: Overview

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Drug discovery is a multifaceted process involving extensive screening, testing, and optimization of lead compounds to identify potential new drugs for therapeutic use. It combines several approaches, including screening large numbers of natural products, chemical modification of known active molecules, identification of new drug targets, and rational design based on biological mechanisms and drug-receptor structure. These approaches are carried out in both academic research laboratories and...
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Preclinical Development: Overview01:28

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Preclinical development consists of a series of tests that ensure the safety and efficacy of a new therapeutic compound before it is tested in humans. There are four main phases to this process. First, safety pharmacology tests are conducted to ensure the drug does not produce any acutely harmful effects. These tests examine parameters such as bronchoconstriction, cardiac dysrhythmias, blood pressure changes, and ataxia. Next, preliminary toxicological testing is performed to determine the...
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EPS and iPS Cells in Disease Research01:21

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Embryonic and induced pluripotent stem cells are excellent models for disease research because of their ability to self-renew and differentiate into most cell types. Somatic cells from a patient are isolated and reprogrammed into induced pluripotent stem cells or iPSCs. These iPSCs are later differentiated into the desired cell type, which mirrors the diseased cell of the patient. In this way, disease models have been created for investigating diseases such as Down syndrome, type I diabetes,...
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Clinical Trials: Overview01:11

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Clinical development focuses on how the drug will interact with the human body and encompasses four key phases of clinical trials, each serving a specific purpose in assessing the safety and effectiveness of new drugs. These phases overlap and build upon one another. Phase I involves a small group of healthy volunteers (typically 20-80 individuals) or, in cases where significant toxicity is expected, patients with the targeted disease, such as cancer or AIDS. The volunteers are tested for...
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Pharmacokinetic Models: Overview01:20

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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.
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相关实验视频

Updated: Jul 25, 2025

In Vitro Three-Dimensional Sprouting Assay of Angiogenesis Using Mouse Embryonic Stem Cells for Vascular Disease Modeling and Drug Testing
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在药物开发中使用人类疾病模型.

Anna Loewa1, James J Feng2,3, Sarah Hedtrich1,4,5,6

  • 1Department of Infectious Diseases and Respiratory Medicine, Charité - Universitätsmedizin Berlin, corporate member of Freie Universität Berlin and Humboldt Universität zu Berlin, Berlin, Germany.

Nature reviews bioengineering
|June 26, 2023
PubMed
概括

由于动物模型的局限性,生物医学研究正在转向人类疾病模型. 生物工程模型,如有机体和器官芯片提供更好的临床模拟,以改善药物开发.

关键词:
分子医学是分子医学.翻译研究是翻译研究.

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科学领域:

  • 生物医学研究的研究.
  • 翻译科学是翻译的科学.
  • 药物发现 药物发现

背景情况:

  • 目前的药物开发面临着很高的失败率.
  • 传统的动物模型表现出显著的物种间差异,对人类条件的预测价值较低.
  • 转向以人为中心的疾病模型的范式转变正在进行中.

研究的目的:

  • 审查生物工程人类疾病模型在临床前和临床研究中的应用.
  • 强调有机体,生物工程组织模型和芯片器官的好处.
  • 为加速临床翻译和药物开发提出一个框架.

主要方法:

  • 审查使用生物工程人类疾病模型的临床前和临床研究.
  • 专注于有机体,生物工程组织模型和芯片上的器官.
  • 开发一个高级设计框架,用于临床翻译.

主要成果:

  • 生物工程人类疾病模型显示出高临床模仿性.
  • 这些模型在各种临床前和临床研究中显示出好处.
  • 提出了一个框架来指导这些模型的使用.

结论:

  • 生物工程人类疾病模型对于弥合药物开发中的翻译差距至关重要.
  • 机器人,组织模型和芯片器官是关键的进步.
  • 实施结构化设计框架可以加速开发有效的治疗方法.