Unlock Exclusive Discounts & Flash Sales! Click Here to Join the Deals on Every Wednesday!

Determination of Pharmaceutical Residues in Wastewater by Liquid Chromatography-Mass Spectrometry (LC-MS) (CAT#: STEM-CT-2111-CJ)

Introduction

The main anthropogenic pollutants present in the environment associated with the selection for resistant pathogens are pharmaceutical residues (including antibiotics), biocides, surfactants, heavy metals, pesticides, potentially toxic substances (PTEs), and microplastics.




Principle

Liquid chromatography (LC) is a technique widely used to separate compounds from a sample prior to analysis and is frequently coupled to mass spectrometry (MS). With LC, separation of the sample components is based on the interactions of the compounds with the mobile and stationary phases, and the degree of compound separation is related to each compound's affinity for the mobile phase. Following chromatographic separations, compounds elute off of the column, desolvated into the gas phase and ionized at an ionization source, and are then introduced into the mass spectrometer for mass analysis.

Applications

Environmental science; Biochemistry; Biomedical

Procedure

1. Sample Collection
2. Sample Preparation
3. Standardization and Calibration
4. Chromatographic Separation and Analysis

Materials

• Sample: Blood; Urine; Plasma; Crops; Livestock tissues; Milk; Eggs; Soil; Water; Sediment; Nucleotides; Peptides; Steroids; Hormones; Dyes; Fatty acids; Alcohols
• Equipment: Liquid-phase separation system; Mass spectrometer; Liquid chromatograph mass spectrometers; MSpak GF column
• LC-MS grade water; Acetonitrile
• Ion pairing agents: Trifluoroacetic acid (TFA); Formic acid (FA); Heptafluorobuteric acid (HFBA)

Notes

1. LC-MS is a dominant analytical technique that has a very high accuracy, sensitivity, and specificity.
2. Although known for its key features in providing rapid analysis of complex mixtures and quality performance, LC-MS is an expensive instrument.