Your search keyword '"formulants"' showing total 11 results

1. Pesticides: formulants, distribution pathways and effects on human health – a review

Author

Kalyabina, Valeriya P., Esimbekova, Elena N., Kopylova, Kseniya V., and Kratasyuk, Valentina A.

Published

2021

2. Formulants of glyphosate-based herbicides have more deleterious impact than glyphosate on TM4 Sertoli cells

Author

Vanlaeys, Alison, Dubuisson, Florine, Seralini, Gilles-Eric, and Travert, Carine

Published

2018

3. Enzyme Inhibition-Based Assay to Estimate the Contribution of Formulants to the Effect of Commercial Pesticide Formulations.

Author

Esimbekova, Elena N., Kalyabina, Valeriya P., Kopylova, Kseniya V., Lonshakova-Mukina, Victoria I., Antashkevich, Anna A., Torgashina, Irina G., Lukyanenko, Kirill A., Nemtseva, Elena V., and Kratasyuk, Valentina A.

Subjects

*PESTICIDES, *FLUORESCENCE spectroscopy, *ENZYMES, *BIOLUMINESCENCE assay, *PROTEIN structure, *INTEGRAL functions

Abstract

Pesticides can affect the health of individual organisms and the function of the entire ecosystem. Therefore, thorough assessment of the risks associated with the use of pesticides is a high-priority task. An enzyme inhibition-based assay is used in this study as a convenient and quick tool to study the effects of pesticides at the molecular level. The contribution of formulants to toxicological properties of the pesticide formulations has been studied by analyzing effects of 7 active ingredients of pesticides (AIas) and 10 commercial formulations based on them (AIfs) on the function of a wide range of enzyme assay systems differing in complexity (single-, coupled, and three-enzyme assay systems). Results have been compared with the effects of AIas and AIfs on bioluminescence of the luminous bacterium Photobacterium phosphoreum. Mostly, AIfs produce a considerably stronger inhibitory effect on the activity of enzyme assay systems and bioluminescence of the luminous bacterium than AIas, which confirms the contribution of formulants to toxicological properties of the pesticide formulation. Results of the current study demonstrate that "inert" ingredients are not ecotoxicologically safe and can considerably augment the inhibitory effect of pesticide formulations; therefore, their use should be controlled more strictly. Circular dichroism and fluorescence spectra of the enzymes used for assays do not show any changes in the protein structure in the presence of commercial pesticide formulations during the assay procedure. This finding suggests that pesticides produce the inhibitory effect on enzymes through other mechanisms. [ABSTRACT FROM AUTHOR]

Published

2023

4. Petroleum in Pesticides: A Need to Change Regulatory Toxicology.

Author

Jungers, Gérald, Portet-Koltalo, Florence, Cosme, Julie, and Seralini, Gilles Éric

Subjects

POLYCYCLIC aromatic hydrocarbons, PETROLEUM, WASTE products, TOXICOLOGY, PESTICIDES, POISONS

Abstract

Toxicological investigations of pesticides largely focus on the declared active ingredient, which constitutes only between a few percent to around 50% of the total formulation. The complete formulations are unknown. For each declared active ingredient, there are dozens or hundreds of formulations. We demonstrate that petroleum has always been and is still always in pesticides. Gas chromatography and mass spectrometry (GC-MS) were applied for 24 pesticides. The measured compounds were the 16-priority polycyclic aromatic hydrocarbons (PAHs). The ratio of the PAHs to the threshold of toxicity was from 2.16 to 8288 times. The levels and distribution of PAHs per pesticide were different. Petroleum residues appear to be a waste product. The declared active component is taken alone for toxicity calculations, such as the acceptable daily intake (ADI). The PAHs with 2–3 cycles are more represented in pesticides than those with 4–6 cycles, which underlines that the petroleum residues appear to come mainly from crude unburned material. The ADI should be divided by 1000 if it is considered that petroleum residues amplify the toxicity by 1000. The admixture of PAHs in pesticides can be highly carcinogenic or toxic in the long term, even more than the declared active ingredient itself. [ABSTRACT FROM AUTHOR]

Published

2022

5. Pesticides: formulants, distribution pathways and effects on human health – a review

Author

Valeriya P. Kalyabina, Elena N. Esimbekova, Kseniya V. Kopylova, and Valentina A. Kratasyuk

Subjects

Pesticides, Agricultural crops, Health consequences, Formulants, Risk assessment, Toxicology. Poisons, RA1190-1270

Abstract

Pesticides are commonly used in agriculture to enhance crop production and control pests. Therefore, pesticide residues can persist in the environment and agricultural crops. Although modern formulations are relatively safe to non-target species, numerous theoretical and experimental data demonstrate that pesticide residues can produce long-term negative effects on the health of humans and animals and stability of ecosystems. Of particular interest are molecular mechanisms that mediate the start of a cascade of adverse effects. This is a review of the latest literature data on the effects and consequences of contamination of agricultural crops by pesticide residues. In addition, we address the issue of implicit risks associated with pesticide formulations. The effects of pesticides are considered in the context of the Adverse Outcome Pathway concept.

Published

2021

6. Petroleum in Pesticides: A Need to Change Regulatory Toxicology

Author

Gérald Jungers, Florence Portet-Koltalo, Julie Cosme, and Gilles-Eric Seralini

Subjects

polycyclic aromatic hydrocarbons, acceptable daily intake, pesticides, petroleum residues, formulants, Chemical technology, TP1-1185

Abstract

Toxicological investigations of pesticides largely focus on the declared active ingredient, which constitutes only between a few percent to around 50% of the total formulation. The complete formulations are unknown. For each declared active ingredient, there are dozens or hundreds of formulations. We demonstrate that petroleum has always been and is still always in pesticides. Gas chromatography and mass spectrometry (GC-MS) were applied for 24 pesticides. The measured compounds were the 16-priority polycyclic aromatic hydrocarbons (PAHs). The ratio of the PAHs to the threshold of toxicity was from 2.16 to 8288 times. The levels and distribution of PAHs per pesticide were different. Petroleum residues appear to be a waste product. The declared active component is taken alone for toxicity calculations, such as the acceptable daily intake (ADI). The PAHs with 2–3 cycles are more represented in pesticides than those with 4–6 cycles, which underlines that the petroleum residues appear to come mainly from crude unburned material. The ADI should be divided by 1000 if it is considered that petroleum residues amplify the toxicity by 1000. The admixture of PAHs in pesticides can be highly carcinogenic or toxic in the long term, even more than the declared active ingredient itself.

Published

2022

7. A Glyphosate-Based Formulation but Not Glyphosate Alone Alters Human Placental Integrity

Author

Christelle Simasotchi, Audrey Chissey, Gérald Jungers, Thierry Fournier, Gilles-Eric Seralini, and Sophie Gil

Subjects

glyphosate, roundup, formulants, toxicity, placenta, human, Chemical technology, TP1-1185

Abstract

Glyphosate (G)-based herbicidal formulations, such as the most commonly used one, Roundup (R), are major pesticides used worldwide on food and feed. Pregnant women may be frequently exposed to R compounds. These are composed of G, which is declared as the active principle, and other products contained in formulations, named formulants, which have been declared as inerts and diluents by the manufacturers. These formulants have, in fact, been demonstrated to be much more toxic than G, in particular to placental and embryonic human cells. In this work, we thus compared the effect of G and a GT+ formulation named R, using placental perfusion ex vivo. R, but not G alone, was demonstrated to alter the placental permeability of a known small model molecule, antipyrine. Similar results were observed for the fetal venous flow rate. The transfer of G alone increases with time, but is significantly decreased in presence of its formulants. The perfusion of R provokes a destruction of fetal vessels, as demonstrated by immunohistochemistry. Formulants obviously alter the fetal-placental circulation and placental integrity according to time of exposure. Therefore, G does not appear to be the main toxic agent of R. Formulants, although undeclared, include polyoxyethanolamines, PAHs, or heavy metals, and may be responsible for this toxicity. These compounds are also present in other pesticides. The progressive blood flow reduction due to the toxic compounds of formulations may diminish the nutrient supply to the fetus, alter the development, and may enhance the poisoning effects. Although these are preliminary results, they could at least partially explain some adverse pregnancy outcomes in mothers exposed to pesticides or other environmental pollutants. The debate on glyphosate alone is proven insufficient for the understanding of the toxicity.

Published

2021

8. Enzyme Inhibition-Based Assay to Estimate the Contribution of Formulants to the Effect of Commercial Pesticide Formulations

Author

Elena N. Esimbekova, Valeriya P. Kalyabina, Kseniya V. Kopylova, Victoria I. Lonshakova-Mukina, Anna A. Antashkevich, Irina G. Torgashina, Kirill A. Lukyanenko, Elena V. Nemtseva, and Valentina A. Kratasyuk

Subjects

Organic Chemistry, General Medicine, pesticides, Catalysis, formulants, Computer Science Applications, Inorganic Chemistry, enzyme inhibition-based assay, bioluminescent assay, luminous bacteria, conjugated enzyme reactions, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Pesticides can affect the health of individual organisms and the function of the entire ecosystem. Therefore, thorough assessment of the risks associated with the use of pesticides is a high-priority task. An enzyme inhibition-based assay is used in this study as a convenient and quick tool to study the effects of pesticides at the molecular level. The contribution of formulants to toxicological properties of the pesticide formulations has been studied by analyzing effects of 7 active ingredients of pesticides (AIas) and 10 commercial formulations based on them (AIfs) on the function of a wide range of enzyme assay systems differing in complexity (single-, coupled, and three-enzyme assay systems). Results have been compared with the effects of AIas and AIfs on bioluminescence of the luminous bacterium Photobacterium phosphoreum. Mostly, AIfs produce a considerably stronger inhibitory effect on the activity of enzyme assay systems and bioluminescence of the luminous bacterium than AIas, which confirms the contribution of formulants to toxicological properties of the pesticide formulation. Results of the current study demonstrate that “inert” ingredients are not ecotoxicologically safe and can considerably augment the inhibitory effect of pesticide formulations; therefore, their use should be controlled more strictly. Circular dichroism and fluorescence spectra of the enzymes used for assays do not show any changes in the protein structure in the presence of commercial pesticide formulations during the assay procedure. This finding suggests that pesticides produce the inhibitory effect on enzymes through other mechanisms.

Published

2023

9. Formulation of phytotoxins from Phoma sp. FGCC#18 for the management of Parthenium hysterophorus L.

Author

Quereshia, Sadaf, Panjwani, Ritu, Pandey, A. K., and Singh, Ajay K.

Subjects

*BIOLOGICAL weed control, *PARTHENIUM hysterophorus, *PHOMA, *BIOLOGICAL assay, *PHYTOTOXINS, *AGRICULTURAL chemicals

Abstract

Biological control is a relatively cheap and most feasible long-term approach for controlling deadly weeds. Parthenium hysterophorus L. is a pernicious weed, imposing deleterious economic effects on humans and livestock. Microbial products thus offer a non-chemical alternative for controlling a noxious, invasive and pernicious weed like Parthenium. Phoma is a well-known phytopathogen responsible for many diseases in plants and is known to produce an array of bioactive extracellular toxic compounds, i.e. agribiologicals. Before application these have to be effectively formulated to enhance their absorption and translocation within the foliar tissues. Adjuvants are formulatives of microbial bioherbicides which ensure maximum herbicidal performance. Research on adjuvant and formulation technology for ecofriendly agrochemicals has advanced rapidly in recent years. Phytotoxins from Phoma sp. FGCC#18 have been tested for their compatibility with different formulants. Phytotoxicity damage was studied by seedling and detached leaf bioassays after different hours post-treatment. Tween 80 at 0.5% was found to be the best formulant, while the combination of Tween 80 and coconut oil at 0.5% exhibited maximum damage to Parthenium seedlings and detached leaves. [ABSTRACT FROM AUTHOR]

Published

2010

10. A Glyphosate-Based Formulation but Not Glyphosate Alone Alters Human Placental Integrity.

Author

Simasotchi, Christelle, Chissey, Audrey, Jungers, Gérald, Fournier, Thierry, Seralini, Gilles-Eric, and Gil, Sophie

Subjects

GLYPHOSATE, PLACENTA, POLLUTANTS, PREGNANCY outcomes, BLOOD flow, SMALL molecules

Abstract

Glyphosate (G)-based herbicidal formulations, such as the most commonly used one, Roundup (R), are major pesticides used worldwide on food and feed. Pregnant women may be frequently exposed to R compounds. These are composed of G, which is declared as the active principle, and other products contained in formulations, named formulants, which have been declared as inerts and diluents by the manufacturers. These formulants have, in fact, been demonstrated to be much more toxic than G, in particular to placental and embryonic human cells. In this work, we thus compared the effect of G and a GT+ formulation named R, using placental perfusion ex vivo. R, but not G alone, was demonstrated to alter the placental permeability of a known small model molecule, antipyrine. Similar results were observed for the fetal venous flow rate. The transfer of G alone increases with time, but is significantly decreased in presence of its formulants. The perfusion of R provokes a destruction of fetal vessels, as demonstrated by immunohistochemistry. Formulants obviously alter the fetal-placental circulation and placental integrity according to time of exposure. Therefore, G does not appear to be the main toxic agent of R. Formulants, although undeclared, include polyoxyethanolamines, PAHs, or heavy metals, and may be responsible for this toxicity. These compounds are also present in other pesticides. The progressive blood flow reduction due to the toxic compounds of formulations may diminish the nutrient supply to the fetus, alter the development, and may enhance the poisoning effects. Although these are preliminary results, they could at least partially explain some adverse pregnancy outcomes in mothers exposed to pesticides or other environmental pollutants. The debate on glyphosate alone is proven insufficient for the understanding of the toxicity. [ABSTRACT FROM AUTHOR]

Published

2021

11. Caracterização ecotoxicológica e formulações alternativas ambientalmente mais favoráveis de um herbicida comercial (Winner Top®)

Author

Queirós, Libânia Sofia Seixas, Gonçalves, Fernando, Pereira, Joana Luísa Lourenço Estevinho, and Vidal, Tânia Daniela da Silva

Subjects

Formulants, Mixture toxicity, Aquatic toxicology, Raphidocelis subcapitata, Algas - Efeitos da poluição, Testes de toxicidade, Lemna gibba, Toxicologia e ecotoxicologia, Lemna minor, Winner Top®, Macrófitas - Efeitos da poluição, Non-target organisms, Toxicologia aquática, Terbuthylazine, Herbicidas - Toxicidade, Portulaca oleracea, Nicosulfuron, Chlorella vulgaris, Plant protection products

Abstract

Mestrado em Toxicologia e Ecotoxicologia Tem-se assistido a um uso potencialmente abusivo de produtos fitofarmacêuticos, com consequentes efeitos ambientais. Assim, o desenvolvimento de produtos mais eficazes e amigos do ambiente é um dos grandes desafios da atualidade. Neste contexto, este trabalho teve como principais objetivos: (i) avaliar a toxicidade dos formulantes ou adjuvantes utilizados nas formulações dos produtos comerciais, utilizando um herbicida modelo (Winner Top®), de forma a verificar se a designação destes ingredientes como “inertes” é realmente cabível; (ii) desenvolver uma nova metodologia para a formulação dos produtos comerciais visando a manipulação do rácio dos seus constituintes, mantendo a eficácia contra as espécies alvo e exercendo, ao mesmo tempo, menor toxicidade sobre organismos não-alvo. Os ingredientes ativos do Winner Top® (nicosulfurão e terbutilazina) foram testados individualmente e em mistura, considerando o rácio usado na formulação comercial e rácios alternativos. A formulação comercial foi também testada para análise da contribuição dos formulantes para a toxicidade do herbicida. Duas espécies de algas (Raphidocelis subcapitata e Chlorella vulgaris) e duas espécies de macrófitas (Lemna minor and Lemna gibba) foram selecionadas como organismos não-alvo para estes testes, que avaliaram os efeitos dos tóxicos no seu crescimento. Foi também realizado um teste de vigor vegetativo com um organismo alvo, a beldroega (Portulaca oleracea), para se testar a eficácia de formulações alternativas à do composto comercial. Estas formulações foram estabelecidas tendo em conta as concentrações de cada ingrediente que não exerciam efeitos intoleráveis em Lemna minor. Os testes de toxicidade individual revelaram que a terbutilazina foi o principal inibidor de crescimento para as microalgas e o nicosulfurão para as macrófitas. Por outro lado, a mistura dos ingredientes ativos no mesmo rácio da formulação comercial foi aparentemente mais tóxica do que a formulação comercial. Logo, os formulantes do Winner Top® não serão inertes. Por outro lado, o teste de toxicidade de misturas sinalizou que a combinação dos ingredientes ativos tem uma ação antagonista, dependente do nível de efeito, na inibição do crescimento do organismo não-alvo. Estas evidências reforçam as recomendações que têm vindo a ser feitas acerca da necessidade de considerar as formulações, e não os seus componentes isoladamente, na análise de risco prévia à autorização de comercialização de pesticidas. A eficácia, contra a espécie alvo, de formulações alternativas seleccionadas foi equivalente ou em alguns casos superior à da formulação usada no composto comercial, tendo-se verificado que um dos ingredientes ativos não adiciona potencial letal relevante à formulação. Estes resultados permitem sugerir que a manipulação racional do rácio entre os constituintes das formulações comerciais, tendo por base os efeitos ambientais esperados, pode ser uma alternativa para as indústrias de agroquímicos que pretendam desenvolver formulações mais amigas do ambiente. É importante notar ainda que, considerando o exemplo estudado, esta modificação do modus operandi no desenvolvimento das formulações não implicaria perda de eficácia do produto final. A potentially abusive use of plant protection products with consequent environmental effects has been reported. Thus, the development of more efficient and environmentally friendlier products is a major challenge nowadays. In this context, the main objectives of this study were: (i) to evaluate the toxicity of formulants or adjuvants used in the commercial products using a model herbicide (Winner Top®), in order to verify whether they are as inert as they are supposed to be; (ii) to develop a new methodology to rule the formulation of commercial products focused at the manipulation of the ratio between its constituents that can maintain the efficacy against the target pests but having reduced environmental toxicity. Winner Top®’s active ingredients (nicosulfuron and terbuthylazine) were tested singly and in mixture, considering the ratio used in the commercial formulation and alternative ratios. The commercial formulation was also tested to assess the contribution of formulants to the overall toxicity of the herbicide. Two microalgae (Raphidocelis subcapitata and Chlorella vulgaris) and two macrophytes (Lemna minor and Lemna gibba) were used as non-target organisms in these tests intending to evaluate growth inhibition. A vegetative vigour test was also performed with a target organism, the purslane (Portulaca oleracea), in order to test the efficacy of alternative formulations to that used in the commercial product. These formulations were established taking into account the concentrations of each ingredient that did not have intolerable effects on Lemna minor. Single chemical tests revealed that terbuthylazine was the strongest microalgae growth inhibitor and nicosulfuron was the strongest macrophyte growth inhibitor. On the other hand, the mixture of the a.i.s at the formulation ratio was apparently more toxic than the commercial formulation, thus Winner Top® formulants are not inert. On the other hand, mixture toxicity tests indicated that the combination of the active ingredients has a effect-level dependent antagonistic action in inhibiting the growth of non-target organisms. These evidences reinforce the need to consider the formulations, rather than only their isolated components, in risk assessment prior to the authorization for pesticides marketing. The efficacy against the target species of tested alternative formulations was equivalent or higher than that of the commercial formulation. Moreover, one of the active ingredients does not add any relevant lethal potential to the formulation. These results suggest that the rational manipulation of the ratio between formulation components, based on expected environmental effects, may be an alternative for agrochemical industries that aim to develop environmentally friendly formulations. Considering the present example, it is also noteworthy that this modification of the modus operandi in the development of pesticide formulations does not necessarily imply losses in efficacy.

Published

2016