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相关概念视频

Kidney Structure01:45

Kidney Structure

68.5K
The kidneys are two large bean-shaped organs located in the upper abdomen. They filter the blood several times a day to remove toxins and rebalance water and electrolytes of the circulatory system via the renal veins. The kidneys receive blood directly from the heart via the renal arteries. These arteries enter the kidney at the hilum, the concave surface of the bean, where they branch and divide into smaller vessels and capillaries.
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Renal Failure: Dose Adjustments01:11

Renal Failure: Dose Adjustments

54
In patients with renal impairment, drugs undergo significant changes in their pharmacokinetics, which require dosage adjustments to ensure safe and effective therapy.
Reduced renal clearance and elimination rate are common outcomes of renal impairment. These alterations lead to a prolonged elimination half-life and an altered apparent volume of distribution for drugs. As a result, dosage adjustments are typically necessary to maintain optimal drug levels in the body.
However, dosage adjustments...
54
Factors Affecting Renal Clearance: Renal Impairment01:17

Factors Affecting Renal Clearance: Renal Impairment

47
Renal dysfunction significantly impairs the renal clearance of drugs, leading to potential complications in drug therapy. Renal failure, which can be caused by various factors, poses a significant challenge in the elimination of drugs from the body.
One condition associated with renal failure is uremia. Uremia is characterized by impaired glomerular filtration and fluid accumulation in the body. This condition hinders the renal clearance of drugs, resulting in drug accumulation and potential...
47
Heart Failure Drugs: Diuretics01:22

Heart Failure Drugs: Diuretics

324
Heart failure and kidney perfusion are interconnected in a complex way. Reduced renal perfusion and venous congestion are two significant factors that contribute to renal dysfunction in heart failure. The kidneys, primarily responsible for fluid balance in the body, are adversely affected due to compromised cardiac output and increased venous pressure. In response to reduced renal perfusion, the kidneys activate neurohumoral mechanisms to restore balance. However, these mechanisms can be...
324
Drug Elimination by Renal Route: Glomerular Filtration01:17

Drug Elimination by Renal Route: Glomerular Filtration

5.3K
The kidney serves as the primary organ responsible for eliminating drugs and their metabolites from the body. This process, known as renal elimination, starts with glomerular filtration and results in urine formation. Each kidney houses millions of functional units called nephrons, where urine production takes place. A nephron has two main components: a renal corpuscle and a renal tubule. Drugs gain access to the kidney via the renal artery, which progressively branches off into afferent...
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Renal Tubule and Collecting Duct01:24

Renal Tubule and Collecting Duct

712
The renal tubule is divided into three parts: the proximal convoluted tubule (PCT), the Loop of Henle (LOH), and the distal convoluted tubule (DCT).
Proximal Convoluted Tubule (PCT):
The PCT is the initial segment of the renal tubule, extending from the Bowman's capsule that encloses the glomerulus. Its convoluted structure and microvilli-lined cells increase the surface area for reabsorption. The PCT reabsorbs glucose, amino acids, sodium, and water from the filtrate, ensuring essential...
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相关实验视频

Updated: May 24, 2025

5/6 Nephrectomy Using Sharp Bipolectomy Via Midline Laparotomy in Rats
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5/6 Nephrectomy Using Sharp Bipolectomy Via Midline Laparotomy in Rats

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优化脏分配:挑战和解决方案

Darren E Stewart1, Loren Gragert2, Michal A Mankowski1

  • 1Department of Surgery, NYU Langone Health, New York, New York.

Current opinion in organ transplantation
|March 5, 2025
PubMed
概括
此摘要是机器生成的。

美国的脏分配系统需要大修,因为脏的大量不使用和糟糕的结果. 一个新的连续的,以点为基础的系统和免疫学的进步,如片匹配,为更好的移植效率和接受者结果提供了希望.

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Published on: April 4, 2025

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Microdissection of Primary Renal Tissue Segments and Incorporation with Novel Scaffold-free Construct Technology
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科学领域:

  • 腎臟病學 (nephrology) 是一種醫學專業.
  • 移植免疫学 移植免疫学
  • 公共卫生政策 公共卫生政策

背景情况:

  • 目前美国的脏分配面临重大挑战,包括近30%的不使用率和长期不理想的接受者结果.
  • 基于250海里圈的现有分配政策,越来越不足以有效地分配器官.

研究的目的:

  • 审查最近的研究和旨在改善美国脏分配系统的倡议.
  • 突出移植免疫学和政策方面的进步,这些进步可以增强移植.

主要方法:

  • 从器官采购和移植网络 (OPTN) 审查当前文献和政策倡议.
  • 分析过渡到基于积分的连续分配系统所面临的挑战和机遇.
  • 检查分子HLA类型和片匹配对捐赠者-接受者兼容性的进展.

主要成果:

  • 目前OPTN正致力于从地理 (250海里圈) 过渡到连续的,以点为基础的分配系统.
  • 由于设计一个保证提高安置效率的系统的挑战,进步受到阻碍.
  • 移植免疫学的进步,例如分子HLA类型,显示出更精确的捐赠者-接受者匹配和改善长期结果的希望.

结论:

  • 目前的"适合所有人"的脏分配系统需要进行重大改革.
  • 连续配送模式为创新解决方案提供了灵活性,以提高公平性和效率.
  • OPTN应通过连续分发政策进行受控实验,并将免疫学方面的进展,如片匹配,纳入分配决策中.