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相关概念视频

Renal Clearance01:23

Renal Clearance

The glomerular filtration rate (GFR) is a critical marker of kidney function, reflecting the efficiency of filtration by the glomeruli. Renal clearance of specific substances, such as inulin or creatinine, is commonly used to measure GFR.
Renal clearance refers to the volume of plasma cleared of a specific substance, such as creatinine, per unit of time. To measure clearance, urine samples are collected over a 24-hour period during each bladder voiding, followed by a single blood sample at the...
Drug Concentrations: Measurements01:23

Drug Concentrations: Measurements

Drug concentration is the quantity of a drug present in a biological sample. Measuring drug amounts in biological samples allows the clinician to understand how a drug is absorbed, distributed, metabolized, and excreted. Samples can be obtained through invasive or non-invasive methods. Invasive techniques involve surgical or parenteral interventions to gather blood, cerebrospinal fluid, or tissue biopsy. Conversely, non-invasive approaches provide samples like urine, feces, and saliva.
Plasma —...
One-Compartment Open Model: Wagner-Nelson and Loo Riegelman Method for ka Estimation01:24

One-Compartment Open Model: Wagner-Nelson and Loo Riegelman Method for ka Estimation

This lesson introduces two critical methods in pharmacokinetics, the Wagner-Nelson and Loo-Riegelman methods, used for estimating the absorption rate constant (ka) for drugs administered via non-intravenous routes. The Wagner-Nelson method relates ka to the plasma concentration derived from the slope of a semilog percent unabsorbed time plot. However, it is limited to drugs with one-compartment kinetics and can be impacted by factors like gastrointestinal motility or enzymatic degradation.
On...
One-Compartment Open Model: Urinary Excretion Data and Determination of k01:11

One-Compartment Open Model: Urinary Excretion Data and Determination of k

The one-compartment open model leverages urinary excretion data to estimate renal clearance, which gauges the kidney's capacity to expel a drug. This method offers several benefits, including directly measuring drug elimination and assessing the kidney's contribution to overall drug clearance. However, this approach has limitations. It assumes sole renal excretion of the drug, which is not true for all drugs. Accurate urinary excretion and plasma drug concentration measurement can also be...
Noncompartmental Analysis: Mean Transit, Absorption and Dissolution Time01:02

Noncompartmental Analysis: Mean Transit, Absorption and Dissolution Time

When drugs are administered extravascularly, a comprehensive evaluation through noncompartmental analysis becomes imperative. This analytical approach considers various parameters that play a crucial role in understanding the pharmacokinetics of these drugs.
One of the key parameters is the mean transit time (MTT), which refers to the total duration required for drug molecules to transit through the body. MTT is determined by calculating the ratio of the area under the moment curve to the area...
Measurement of Bioavailability: Pharmacokinetic Methods01:30

Measurement of Bioavailability: Pharmacokinetic Methods

Pharmacokinetics is a vital branch of pharmacology that examines how drugs are absorbed, distributed, metabolized, and excreted by the body. Two key methodologies in pharmacokinetics are plasma drug concentration studies and urinary drug excretion analyses, both of which provide critical insights into a drug's therapeutic efficacy and bioavailability.Plasma Drug Concentration-Time StudiesPlasma drug concentration-time studies involve analyzing blood samples at specific intervals to quantify...

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相关实验视频

Updated: May 19, 2026

Large Scale Non-targeted Metabolomic Profiling of Serum by Ultra Performance Liquid Chromatography-Mass Spectrometry UPLC-MS
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Large Scale Non-targeted Metabolomic Profiling of Serum by Ultra Performance Liquid Chromatography-Mass Spectrometry UPLC-MS

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(临床前) 代谢学分析

Ratna Budhi Pebriana1,2, Elena Sánchez-López1, Martin Giera3

  • 1Center for Proteomics and Metabolomics, Leiden University Medical Center, Leiden, The Netherlands.

Methods in molecular biology (Clifton, N.J.)
|October 1, 2024
PubMed
概括

代谢学分析生物系统中的所有小分子. 这一领域对生命科学至关重要,包括生物标志物发现和药物开发,利用先进的分析和生物信息技术.

关键词:
临床样本 临床样本利皮多米克 (Lipidomics) 是一种消化剂.质谱测量质量谱测量代谢学 代谢学 代谢学核磁共振是一种核磁共振.

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A Strategy for Sensitive, Large Scale Quantitative Metabolomics
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相关实验视频

Last Updated: May 19, 2026

Large Scale Non-targeted Metabolomic Profiling of Serum by Ultra Performance Liquid Chromatography-Mass Spectrometry UPLC-MS
07:34

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A Strategy for Sensitive, Large Scale Quantitative Metabolomics
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A Strategy for Sensitive, Large Scale Quantitative Metabolomics

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科学领域:

  • 代谢学及其在生物和临床研究中的应用.

背景情况:

  • 代谢学旨在全面分析生物系统内的所有小分子 (代谢体).
  • 它已成为生命科学中一个重要的分析工具,支持基础生物化学,临床前研究,生物标志物发现和药物开发.

研究的目的:

  • 为了介绍 (临床前) 代谢学.
  • 定义关键方面,并确定代谢学在生物和临床环境中的相关性.
  • 介绍和讨论用于代谢分析的最新和新兴分析技术,包括它们的优缺点.

主要方法:

  • 审查和解释当前和新兴的分析技术用于代谢分析.
  • 对处理复杂的代谢数据集的生物信息学方法的说明.

主要成果:

  • 讨论各种分析技术的优缺点.
  • 强调生物信息学在处理和解释大规模代谢数据方面的重要作用.

结论:

  • 代谢学是一个成熟的领域,对于理解生物系统至关重要.
  • 先进的分析和生物信息工具对于在临床和研究环境中成功进行代谢学研究至关重要.