Toxicity Evaluation of Household Detergents and Surfactants Using Zebrafish

There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing...

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Published in	Biotechnology and bioprocess engineering Vol. 26; no. 1; pp. 156 - 164
Main Authors	Han, Jae-Hoon, Jung, Sang-Kyu
Format	Journal Article
Language	English
Published	Seoul The Korean Society for Applied Biological Chemistry 01.02.2021 Springer Nature B.V 한국생물공학회
Subjects	alcohols alkyl glucosides Alkyl polyglucosides Alkylbenzene sulfonate Alkylbenzenes Alkylbenzenesulfonates Animals Aquatic organisms bioprocessing Biotechnology Chemistry Danio rerio Detergents Image analysis Image processing Industrial and Production Engineering Linear alkyl sulfonates Linear alkylbenzene sulfonate locomotion Locomotor activity Raw materials Research Paper sulfonates Surfactants Survival Toxicity Zebrafish 생물공학 toxicity detergent activity zebrafish image analysis speed surfactant
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Abstract	There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing a large number of samples rapidly and accurately are required for research on detergent toxicity. In this study, image analysis techniques were used to quantify the locomotor activities from captured images using larval zebrafish ( Danio rerio ). When the 135-min time-lapse imaging was completed, the damage to the body of the animals was examined using a microscope. Additionally, we determined the animal survival and LC 50 . Nonionic decyl glucoside (APG-C10), one of the alkyl polyglucosides (APGs), exhibited the lowest toxicity, whereas linear alcohol ethoxylate (LA-9) exhibited the highest toxicity. AOS (α-olefin sulfonate), LAS (linear alkylbenzene sulfonate), and APG-600 showed moderate toxicity between LA-9 and APG-C10. Commercial detergents exhibited various degrees of toxicity, and there was a linear relationship (R 2 = 0.776) between locomotor activity and survival percentage of animals.
AbstractList	There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing a large number of samples rapidly and accurately are required for research on detergent toxicity. In this study, image analysis techniques were used to quantify the locomotor activities from captured images using larval zebrafish (Danio rerio). When the 135-min time-lapse imaging was completed, the damage to the body of the animals was examined using a microscope. Additionally, we determined the animal survival and LC50. Nonionic decyl glucoside (APG-C10), one of the alkyl polyglucosides (APGs), exhibited the lowest toxicity, whereas linear alcohol ethoxylate (LA-9) exhibited the highest toxicity. AOS (α-olefin sulfonate), LAS (linear alkylbenzene sulfonate), and APG-600 showed moderate toxicity between LA-9 and APG-C10. Commercial detergents exhibited various degrees of toxicity, and there was a linear relationship (R2 = 0.776) between locomotor activity and survival percentage of animals. There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing a large number of samples rapidly and accurately are required for research on detergent toxicity. In this study, image analysis techniques were used to quantify the locomotor activities from captured images using larval zebrafish ( Danio rerio ). When the 135-min time-lapse imaging was completed, the damage to the body of the animals was examined using a microscope. Additionally, we determined the animal survival and LC 50 . Nonionic decyl glucoside (APG-C10), one of the alkyl polyglucosides (APGs), exhibited the lowest toxicity, whereas linear alcohol ethoxylate (LA-9) exhibited the highest toxicity. AOS (α-olefin sulfonate), LAS (linear alkylbenzene sulfonate), and APG-600 showed moderate toxicity between LA-9 and APG-C10. Commercial detergents exhibited various degrees of toxicity, and there was a linear relationship (R 2 = 0.776) between locomotor activity and survival percentage of animals. There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing a large number of samples rapidly and accurately are required for research on detergent toxicity. In this study, image analysis techniques were used to quantify the locomotor activities from captured images using larval zebrafish (Danio rerio). When the 135-min time-lapse imaging was completed, the damage to the body of the animals was examined using a microscope. Additionally, we determined the animal survival and LC₅₀. Nonionic decyl glucoside (APG-C10), one of the alkyl polyglucosides (APGs), exhibited the lowest toxicity, whereas linear alcohol ethoxylate (LA-9) exhibited the highest toxicity. AOS (α-olefin sulfonate), LAS (linear alkylbenzene sulfonate), and APG-600 showed moderate toxicity between LA-9 and APG-C10. Commercial detergents exhibited various degrees of toxicity, and there was a linear relationship (R² = 0.776) between locomotor activity and survival percentage of animals. There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main components of detergents, and each detergent product has a different formulation. Therefore, high-throughput technologies capable of analyzing a large number of samples rapidly and accurately are required for research on detergent toxicity. In this study, image analysis techniques were used to quantify the locomotor activities from captured images using larval zebrafish (Danio rerio). When the 135-min timelapse imaging was completed, the damage to the body of the animals was examined using a microscope. Additionally, we determined the animal survival and LC50. Nonionic decyl glucoside (APG-C10), one of the alkyl polyglucosides (APGs), exhibited the lowest toxicity, whereas linear alcohol ethoxylate (LA-9) exhibited the highest toxicity. AOS (α- olefin sulfonate), LAS (linear alkylbenzene sulfonate), and APG-600 showed moderate toxicity between LA-9 and APG-C10. Commercial detergents exhibited various degrees of toxicity, and there was a linear relationship (R2 = 0.776) between locomotor activity and survival percentage of animals. KCI Citation Count: 0
Author	Jung, Sang-Kyu Han, Jae-Hoon
Author_xml	– sequence: 1 givenname: Jae-Hoon surname: Han fullname: Han, Jae-Hoon organization: Department of Biological and Chemical Engineering, Hongik University – sequence: 2 givenname: Sang-Kyu surname: Jung fullname: Jung, Sang-Kyu email: skjung@hongik.ac.kr organization: Department of Biological and Chemical Engineering, Hongik University
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Snippet	There are concerns regarding the toxicity of household detergents to humans and aquatic organisms. There are various types of surfactants, which are the main...
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SubjectTerms	alcohols alkyl glucosides Alkyl polyglucosides Alkylbenzene sulfonate Alkylbenzenes Alkylbenzenesulfonates Animals Aquatic organisms bioprocessing Biotechnology Chemistry Danio rerio Detergents Image analysis Image processing Industrial and Production Engineering Linear alkyl sulfonates Linear alkylbenzene sulfonate locomotion Locomotor activity Raw materials Research Paper sulfonates Surfactants Survival Toxicity Zebrafish 생물공학
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Title	Toxicity Evaluation of Household Detergents and Surfactants Using Zebrafish
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