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相关概念视频

Adrenergic Agonists: Indirect-Acting Agents01:25

Adrenergic Agonists: Indirect-Acting Agents

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Indirect-acting adrenergic agonists potentiate the effects of endogenous catecholamines through different mechanisms without directly binding to adrenoceptors.
One mechanism involves depleting stored catecholamines by displacing them from synaptic vesicles. These agents, known as "displacers," are transported into vesicles at the expense of noradrenaline. Examples include amphetamine and tyramine, which lack a catechol moiety, resulting in prolonged action, improved oral...
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Local Anesthetics: Clinical Application as Epidural Anesthesia01:29

Local Anesthetics: Clinical Application as Epidural Anesthesia

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Epidural anesthetics are administered in the fat-filled epidural space, the outermost part of the spinal canal. This technique is commonly employed for pain management and anesthesia during lower abdomen and pelvis surgeries or labor and delivery.
Since epidural anesthetics can be infused through an epidural catheter, all types of drugs, including short-acting ones, can be administered. Chloroprocaine and lidocaine are examples of short and long-duration anesthetics, respectively. Bupivacaine...
414
Adrenergic Agonists: Chemistry and Structure-Activity Relationship01:16

Adrenergic Agonists: Chemistry and Structure-Activity Relationship

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Adrenergic agonists' structure-activity relationship (SAR) determines their selectivity and efficacy. These agonists comprise a phenylethylamine moiety with an aromatic ring and an ethylamine side chain.
Aromatic ring substitutions: Substituting the aromatic ring with –OH groups at positions 3 and 4 yields catecholamines (e.g., epinephrine), which have a high affinity for adrenoceptors. Hydrogen bonding between –OH groups and receptors enhances adrenergic activity.
Separation of...
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Local Anesthetics: Adverse Effects01:12

Local Anesthetics: Adverse Effects

392
While local anesthetics are generally safe and well-tolerated, they can occasionally cause adverse effects that vary in severity. Local anesthetics can induce toxicity at two distinct levels. They can either produce local effects through direct contact with the neural elements or be absorbed into the bloodstream from the injection site, leading to systemic effects.
Once absorbed into the systemic circulation, local anesthetics can affect the organs that depend on the functioning of sodium...
392
Local Anesthetics: Differential Sensitivity of Nerve Fibers01:24

Local Anesthetics: Differential Sensitivity of Nerve Fibers

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Local anesthetics (LAs) block the sodium channels of nerve trunks, sensory nerve endings, and neuromuscular junctions. Although LAs can block all kinds of nerves, the sensitivity of nerve fibers differs according to nerve types and structures. LAs are known to block myelinated fibers faster than unmyelinated ones. Also, they block pain or sensory neurons at low concentrations without affecting the motor neurons involved in muscle contractions. This helps relieve labor pain without affecting the...
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Local Anesthetics: Pharmacokinetics01:13

Local Anesthetics: Pharmacokinetics

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The potency and duration of action of local anesthetics (LAs) are determined by their pharmacokinetics. Pharmacokinetics describes how LAs are absorbed, distributed, metabolized, and eliminated from the body. When administered to the vascular tissues, LAs are quickly absorbed and enter the systemic circulation, reducing their localized effects. Adding vasoconstrictors such as epinephrine to LAs reduces their absorption into the systemic circulation, making them clinically effective. The...
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Updated: Jun 9, 2025

Detection of Regulated Ergot Alkaloids in Food Matrices by Liquid Chromatography-Trapped Ion Mobility Spectrometry-Time-of-Flight Mass Spectrometry
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Published on: November 22, 2024

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扩展的局部人体缩 (Ergotropy)

Riccardo Castellano1,2,3, Donato Farina2,4, Vittorio Giovannetti5

  • 1<a href="https://ror.org/03aydme10">Scuola Normale Superiore</a>, I-56126 Pisa, Italy.

Physical review letters
|October 25, 2024
PubMed
概括
此摘要是机器生成的。

我们引入了扩展的局部ergotropy来量化开放量子系统中的工作提取. 这种新的措施比以前的方法更大,而且时间不会增加,从而释放出更多的潜在工作.

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科学领域:

  • 量子热力学就是量子热力学.
  • 量子信息理论 量子信息理论

背景情况:

  • 在量子热力学中,从失衡系统中量化可提取的工作至关重要.
  • 开放系统的现有方法,比如局部的ergotropy,面临着诸如不是时间不增长的挑战.

研究的目的:

  • 引入一种新的测量方法,即扩展局部人体积,用于在开放量子系统中量化工作提取.
  • 为了解决现有的本地ergotropy定义的限制.

主要方法:

  • 利用结合的系统环境的自由进化.
  • 开发涉及交替局部单元和系统环境相互作用的协议.
  • 使用杰恩斯-库明斯模型进行实践示例.

主要成果:

  • 扩展局部的ergotropy大于局部的ergotropy.
  • 扩展的局部机能缩保证不会随着时间的推移而增加.
  • 这项新措施在多个情况下激活了更大的工作提取潜力.

结论:

  • 扩展局部人体积提供了一种更强大,更有效的方法来量化开放量子系统中的工作提取.
  • 提出的方法,用杰恩斯-库明斯模型来证明,提供实用的协议和分析见解.