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Main Authors: Georgin, Jordana, Dehmani, Younes, El Messoaudi, Noureddine, Franco, Dison S P
Format: Artículo científico
Language:en
Published: Molecules (Basel, Switzerland) 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/42197313/
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author Georgin, Jordana
Dehmani, Younes
El Messoaudi, Noureddine
Franco, Dison S P
author_facet Georgin, Jordana
Dehmani, Younes
El Messoaudi, Noureddine
Franco, Dison S P
Georgin, Jordana
Dehmani, Younes
El Messoaudi, Noureddine
Franco, Dison S P
collection PubMed - marine biology
contents Losartan in the Era of Emerging Contaminants: A Multi-Criteria Approach for Efficient and Sustainable Remediation. Georgin, Jordana Dehmani, Younes El Messoaudi, Noureddine Franco, Dison S P Losartan Water Pollutants, Chemical Environmental Restoration and Remediation Water Purification Wastewater This paper systematically reviews losartan, a hypertension pharmaceutical compound that is one of many newly identified emerging contaminants in water. Worldwide use of pharmaceuticals continues to grow, and losartan has been identified as a contaminant that frequently accumulates in aquatic systems as a result of this global increase in use. The paper presents systematic reviews on the environmental occurrence, physicochemical characteristics, analytical methods of detection, and remediation techniques associated with losartan contamination. Losartan is often detected at levels of ng L-µg L in wastewater systems, surface water and marine ecosystems, very effectively demonstrating the inadequacies of existing conventional wastewater treatment facilities, which are typically capable of removing only 20-70% of the contamination, with this variability largely attributed to differences in hydraulic/solids retention times, operational conditions, influent organic load, and the limited microbial acclimatization to recalcitrant pharmaceutical compounds. Emerging remediation technologies demonstrate the potential for removal efficiencies of >90% include hybrid systems, advanced electrochemical processes, new improved adsorption systems, and novel material for adsorption. However, there are still considerable barriers to progress, including excessive energy use, high operating costs, and perhaps most concerning, potentially toxic transition products generated by partial degradation. Furthermore, the literature review identified key literature gaps: lack of specific regulations, absence of full-scale studies, and inconsistencies in by-product toxicity assessments. The conclusion of this review is that to achieve worldwide water security and sustainability of aquatic resources, effective mitigation of the environmental risks associated with losartan requires combined approaches comprising innovative technologies, comprehensive ecotoxicological investigations, and improved collaboration between scientists, policymakers, and industry.
format Artículo científico
id pubmed_42197313
institution PubMed
language en
publishDate 2026
publisher Molecules (Basel, Switzerland)
record_format pubmed
spellingShingle Losartan in the Era of Emerging Contaminants: A Multi-Criteria Approach for Efficient and Sustainable Remediation.
Georgin, Jordana
Dehmani, Younes
El Messoaudi, Noureddine
Franco, Dison S P
Losartan
Water Pollutants, Chemical
Environmental Restoration and Remediation
Water Purification
Wastewater
Losartan in the Era of Emerging Contaminants: A Multi-Criteria Approach for Efficient and Sustainable Remediation. Georgin, Jordana Dehmani, Younes El Messoaudi, Noureddine Franco, Dison S P Losartan Water Pollutants, Chemical Environmental Restoration and Remediation Water Purification Wastewater This paper systematically reviews losartan, a hypertension pharmaceutical compound that is one of many newly identified emerging contaminants in water. Worldwide use of pharmaceuticals continues to grow, and losartan has been identified as a contaminant that frequently accumulates in aquatic systems as a result of this global increase in use. The paper presents systematic reviews on the environmental occurrence, physicochemical characteristics, analytical methods of detection, and remediation techniques associated with losartan contamination. Losartan is often detected at levels of ng L-µg L in wastewater systems, surface water and marine ecosystems, very effectively demonstrating the inadequacies of existing conventional wastewater treatment facilities, which are typically capable of removing only 20-70% of the contamination, with this variability largely attributed to differences in hydraulic/solids retention times, operational conditions, influent organic load, and the limited microbial acclimatization to recalcitrant pharmaceutical compounds. Emerging remediation technologies demonstrate the potential for removal efficiencies of >90% include hybrid systems, advanced electrochemical processes, new improved adsorption systems, and novel material for adsorption. However, there are still considerable barriers to progress, including excessive energy use, high operating costs, and perhaps most concerning, potentially toxic transition products generated by partial degradation. Furthermore, the literature review identified key literature gaps: lack of specific regulations, absence of full-scale studies, and inconsistencies in by-product toxicity assessments. The conclusion of this review is that to achieve worldwide water security and sustainability of aquatic resources, effective mitigation of the environmental risks associated with losartan requires combined approaches comprising innovative technologies, comprehensive ecotoxicological investigations, and improved collaboration between scientists, policymakers, and industry.
title Losartan in the Era of Emerging Contaminants: A Multi-Criteria Approach for Efficient and Sustainable Remediation.
topic Losartan
Water Pollutants, Chemical
Environmental Restoration and Remediation
Water Purification
Wastewater
url https://pubmed.ncbi.nlm.nih.gov/42197313/