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In chemistry, titrimetric methods are broadly classified into three types: volumetric, gravimetric, and coulometric. Volumetric titrations involve measuring the volume of a titrant of known concentration that is required to react completely with an analyte. In gravimetric titrations, the standard solution reacts with the analyte to form an insoluble precipitate, which is filtered, dried, and weighed. In coulometric titrations, current is applied to an electrochemical reaction until the reaction...
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Unlike direct titration, back-titration, and displacement titration, indirect titration is an EDTA titration method for quantifying anions. In the indirect titration method, anions are precipitated as their insoluble salts with excess metal ions. The filtrate containing the excess metal ions is directly titrated with standard EDTA until the endpoint is achieved. Another approach involves extracting the metal ion and back-titrating with standard EDTA to obtain the endpoint. In this way, the...
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Potentiometric Titration: Overview01:31

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Potentiometric titration is a quantitative analytical technique that determines the concentration of an analyte by measuring the potential difference between the two electrodes in the solution. The endpoint of a potentiometric titration is the point at which there is a significant change in the potential difference. It occurs when the stoichiometric reaction between the analyte and the titrant is complete. The endpoint is usually determined graphically by plotting the measured potential...
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Titration in Nonaqueous Solvents01:16

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Most acid-base titrations are performed in an aqueous medium. In aqueous titrations, water competes with weaker acids or bases for proton donation or acceptance, leading to ambiguous endpoints in the titration curve. Water also affects the partial ionization of weak acids or bases. For example, water accepts a proton from acetic acid to form hydronium and acetate ions. The hydronium ion formed is a stronger acid than acetic acid, and the acetate ion is a stronger base than water. As a result,...
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Controlled-Current Coulometry: Coulometric Titration01:18

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Coulometric titrations are a form of titrimetric analysis where the reagent is generated electrically, and its amount is evaluated based on current and generating time. The electron serves as the standard reagent. The procedure is similar to conventional titrations, such as endpoint detection.
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Precipitation Titration: Overview01:26

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Precipitation titration involves the reaction of a titrant and an analyte to generate an insoluble precipitate. While precipitation titration uses various precipitating agents, silver nitrate is the most common precipitating reagent; titrations involving Ag+ are called argentometric titrations. Usually, the endpoint in a precipitation titration can be detected by visual indicators.
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Hot Biological Catalysis: Isothermal Titration Calorimetry to Characterize Enzymatic Reactions
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Titrating Without a Safety Net.

Seung Eun Lee1, Michael Mathis, Milisa Manojlovich

  • 1Seung Eun Lee is an associate professor at Yonsei University College of Nursing, Seoul, Republic of Korea, and a visiting scholar at the University of Michigan School of Nursing, Ann Arbor. Michael Mathis is an associate professor of anesthesiology at the University of Michigan Medical School, Ann Arbor. Milisa Manojlovich is a professor at the University of Michigan School of Nursing, Ann Arbor. Contact author: Seung Eun Lee, leese@yuhs.ac . The authors have disclosed no potential conflicts of interest, financial or otherwise.

The American Journal of Nursing
|December 24, 2025
PubMed
Summary
This summary is machine-generated.

Intensive care unit (ICU) nurses require evidence-based protocols for administering vasoactive medications. This study provides critical guidance for optimizing the titration of these potent drugs in critical care settings.

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Area of Science:

  • Critical Care Medicine
  • Pharmacology
  • Nursing Science

Background:

  • Vasoactive medications are essential for hemodynamic management in intensive care units (ICUs).
  • Current practices for vasoactive drug titration lack standardized, evidence-based guidelines.
  • Inconsistent titration strategies can lead to suboptimal patient outcomes and increased adverse events.

Purpose of the Study:

  • To develop and present evidence-based recommendations for vasoactive medication titration in the ICU.
  • To provide clear, actionable guidance for ICU nurses managing critically ill patients requiring hemodynamic support.
  • To enhance the safety and efficacy of vasoactive drug therapy.

Main Methods:

  • Systematic review of existing literature on vasoactive medication use and titration.
  • Consensus development process involving critical care experts and ICU nurses.
  • Analysis of pharmacokinetic and pharmacodynamic data for commonly used vasoactive agents.

Main Results:

  • Key parameters for initiating and adjusting vasoactive infusions were identified.
  • Specific evidence-based titration algorithms were proposed for common vasoactive drugs (e.g., norepinephrine, dopamine, dobutamine).
  • Recommendations address target hemodynamic goals and monitoring strategies.

Conclusions:

  • Standardized, evidence-based guidance for vasoactive medication titration is crucial for ICU nurses.
  • Implementation of these recommendations can improve patient care and clinical decision-making.
  • Further research should focus on prospective validation of these titration protocols.