Các vấn đề về hô hấp và dị ứng ở người lao động nông nghiệp tiếp xúc với thuốc bảo vệ thực vật tại Costa Rica P3

Các vấn đề về hô hấp và dị ứng ở người lao động nông nghiệp tiếp xúc với thuốc bảo vệ thực vật tại Costa Rica P3

Nguyễn Hồng Thái
Thứ Bảy, 30/05/2026 13 phút đọc
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References
Alhanti et al., 2022
B. Alhanti, B. Van Wendel De Joode, M. Soto Martinez, A.M. Mora, L. Córdoba Gamboa, B. Reich, C.H. Lindh, M. Quirós Lépiz, J.A. Hoppin
Environmental exposures contribute to respiratory and allergic symptoms among women living in the banana growing regions of Costa Rica
Occup. Environ. Med., 79 (2022), pp. 469-476, 10.1136/oemed-2021-107611
View at publisherView in ScopusGoogle Scholar
American Thoracic Society, 2005
American Thoracic Society
Patient information series. Chronic obstructive pulmonary disease (COPD)
Am. J. Respir. Crit. Care Med., 171 (2005), pp. P3-P4
Google Scholar
Buralli et al., 2018
R.J. Buralli, H. Ribeiro, T. Mauad, L.F. Amato-Lourenço, J.M. Salge, F.A. Diaz-Quijano, R.S. Leão, R.C. Marques, D.S. Silva, J.R.D. Guimarães
Respiratory condition of family farmers exposed to pesticides in the state of Rio de Janeiro, Brazil
Int. J. Environ. Res. Public Health, 15 (2018), p. 1203, 10.3390/ijerph15061203
View at publisherView in ScopusGoogle Scholar
Burney et al., 1994
P. Burney, C. Luczynska, S. Chinn, D. Jarvis
The European Community respiratory health survey
Eur. Respir. J., 7 (1994), pp. 954-960, 10.1183/09031936.94.07050954
View in ScopusGoogle Scholar
Cedergreen et al., 2007
N. Cedergreen, P. Kudsk, S.K. Mathiassen, J.C. Streibig
Combination effects of herbicides on plants and algae: do species and test systems matter
Pest Manag. Sci., 63 (2007), pp. 282-295, 10.1002/ps.1353
View in ScopusGoogle Scholar
Cezar-Vaz et al., 2016
M.R. Cezar-Vaz, C.A. Bonow, M.C.V.A.D. Mello, M.R.S.D. Silva
Abordagem socioambiental na enfermagem: focalizando o trabalho rural e uso de agrotóxicos
Rev. Bras. Enferm., 69 (2016), pp. 1179-1187, 10.1590/0034-7167-2016-0364
View in ScopusGoogle Scholar
Chakraborty et al., 2009
S. Chakraborty, S. Mukherjee, S. Roychoudhury, S. Siddique, T. Lahiri, M.R. Ray
Chronic exposures to cholinesterase-inhibiting pesticides adversely affect respiratory health of agricultural workers in India
J. Occup. Health, 51 (2009), pp. 488-497, 10.1539/joh.L9070
View in ScopusGoogle Scholar
Chatzi et al., 2007
L. Chatzi, A. Alegakis, N. Tzanakis, N. Siafakas, M. Kogevinas, C. Lionis
Association of allergic rhinitis with pesticide use among grape farmers in Crete, Greece
Occup. Environ. Med., 64 (2007), pp. 417-421, 10.1136/oem.2006.029835
View in ScopusGoogle Scholar
Colicino et al., 2020
E. Colicino, N.F. Pedretti, S.A. Busgang, C. Gennings
Per- and poly-fluoroalkyl substances and bone mineral density: results from the Bayesian weighted quantile sum regression
Environ. Epidemiol., 4 (2020), Article e092, 10.1097/EE9.0000000000000092
View in ScopusGoogle Scholar
DeBord et al., 2022
D.G. DeBord, D. Shoemaker, C. B’Hymer, J. Snawder, DABT, NIOSH
Application of Biological Monitoring Methods for Chemical Exposures in Occupational Health. Электронный Ресурс Httpswww Cdc Govnioshdocketreviewdocket301pdfsRevised-DART-NMAM-Biomonitoring-Watermark-9-27-17 Pdf
(2022)
Google Scholar
Díaz-Criollo et al., 2020
S. Díaz-Criollo, M. Palma, A.A. Monroy-García, A.J. Idrovo, D. Combariza, M.E. Varona-Uribe
Chronic pesticide mixture exposure including paraquat and respiratory outcomes among Colombian farmers
Ind. Health, 58 (2020), pp. 15-21, 10.2486/indhealth.2018-0111
View in ScopusGoogle Scholar
Eisen et al., 2012
E.A. Eisen, S. Picciotto, J.M. Robins
Healthy worker effect
A.H. El-Shaarawi, W.W. Piegorsch (Eds.), Encyclopedia of Environmetrics, Wiley (2012), 10.1002/9780470057339.vah007.pub2
Google Scholar
Eskenazi et al., 2023
B. Eskenazi, R.B. Gunier, S. Rauch, K. Kogut, E.R. Perito, X. Mendez, C. Limbach, N. Holland, A. Bradman, K.G. Harley, P.J. Mills, A.M. Mora
Association of lifetime exposure to glyphosate and aminomethylphosphonic acid (AMPA) with liver inflammation and metabolic syndrome at young adulthood: findings from the CHAMACOS study
Environ. Health Perspect., 131 (2023), Article 037001, 10.1289/EHP11721
View in ScopusGoogle Scholar
Fareed et al., 2013
Mohd Fareed, M.K. Pathak, V. Bihari, R. Kamal, A.K. Srivastava, C.N. Kesavachandran
Adverse respiratory health and hematological alterations among agricultural workers occupationally exposed to organophosphate pesticides: a cross-sectional study in North India
PloS One, 8 (2013), Article e69755, 10.1371/journal.pone.0069755
View in ScopusGoogle Scholar
Faria et al., 2005
N.M.X. Faria, L.A. Facchini, A.G. Fassa, E. Tomasi
Pesticides and respiratory symptoms among farmers
Rev. Saude Publica, 39 (2005), pp. 973-981
CrossrefView in ScopusGoogle Scholar
Fieten et al., 2009
K.B. Fieten, H. Kromhout, D. Heederik, B. Van Wendel De Joode
Pesticide exposure and respiratory health of indigenous women in Costa Rica
Am. J. Epidemiol., 169 (2009), pp. 1500-1506, 10.1093/aje/kwp060
View in ScopusGoogle Scholar
Food and Agriculture Organization, 2024
Food and Agriculture Organization
FAOSTAT food and agricultural data, pesticide use data 2024 Lỗi giao diện: file 'snippets/shortcode-WWW.bwt' không được tìm thấy
Pestic. Use (2024)
https://www.fao.org/faostat/en/#data/RP
(URL, accessed 3.15.24)
Google Scholar
Freisthler et al., 2022
M.S. Freisthler, C.R. Robbins, C.M. Benbrook, H.A. Young, D.M. Haas, P.D. Winchester, M.J. Perry
Association between increasing agricultural use of 2,4-D and population biomarkers of exposure: findings from the National Health and nutrition examination survey, 2001–2014
Environ. Health, 21 (2022), p. 23, 10.1186/s12940-021-00815-x
View in ScopusGoogle Scholar
Fryer et al., 2004
A.D. Fryer, P.J. Lein, A.S. Howard, B.L. Yost, R.A. Beckles, D.A. Jett
Mechanisms of organophosphate insecticide-induced airway hyperreactivity
Am. J. Phys. Lung Cell. Mol. Phys., 286 (2004), pp. L963-L969, 10.1152/ajplung.00343.2003
View in ScopusGoogle Scholar
Fuhrimann et al., 2019
S. Fuhrimann, M.S. Winkler, P. Staudacher, F.T. Weiss, C. Stamm, R.I. Eggen, C.H. Lindh, J.A. Menezes-Filho, J.M. Baker, F. Ramírez-Muñoz, R. Gutiérrez-Vargas, A.M. Mora
Exposure to pesticides and health effects on farm owners and workers from conventional and organic agricultural farms in Costa Rica: protocol for a cross-sectional study
JMIR Res. Protoc., 8 (2019), Article e10914, 10.2196/10914
View in ScopusGoogle Scholar
Gascon et al., 2012
M. Gascon, H. Kromhout, D. Heederik, W. Eduard, B. Van Wendel De Joode
Respiratory, allergy and eye problems in bagasse-exposed sugar cane workers in Costa Rica
Occup. Environ. Med., 69 (2012), pp. 331-338, 10.1136/oemed-2011-100029
View in ScopusGoogle Scholar
Gatidou et al., 2015
G. Gatidou, A.S. Stasinakis, E.I. Iatrou
Assessing single and joint toxicity of three phenylurea herbicides using Lemna minor and Vibrio fischeri bioassays
Chemosphere, 119 (2015), pp. S69-S74, 10.1016/j.chemosphere.2014.04.030
View PDF
View articleView in ScopusGoogle Scholar
Hansen et al., 2021
M.R.H. Hansen, E. Jørs, A. Sandbæk, D. Sekabojja, J.C. Ssempebwa, R. Mubeezi, P. Staudacher, S. Fuhrimann, T. Sigsgaard, A. Burdorf, B.M. Bibby, V. Schlünssen
Organophosphate and carbamate insecticide exposure is related to lung function change among smallholder farmers: a prospective study
Thorax, 76 (2021), pp. 780-789, 10.1136/thoraxjnl-2020-214609
View in ScopusGoogle Scholar
Helsel, 2011
D.R. Helsel
Statistics for Censored Environmental Data Using Minitab and R
John Wiley & Sons (2011)
Google Scholar
Henneberger et al., 2014
P.K. Henneberger, X. Liang, S.J. London, D.M. Umbach, D.P. Sandler, J.A. Hoppin
Exacerbation of symptoms in agricultural pesticide applicators with asthma
Int. Arch. Occup. Environ. Health, 87 (2014), pp. 423-432, 10.1007/s00420-013-0881-x
View in ScopusGoogle Scholar
Hoppin et al., 2002
J.A. Hoppin, D.M. Umbach, S.J. London, M.C.R. Alavanja, D.P. Sandler
Chemical predictors of wheeze among farmer pesticide applicators in the agricultural health study
Am. J. Respir. Crit. Care Med., 165 (2002), pp. 683-689, 10.1164/ajrccm.165.5.2106074
View in ScopusGoogle Scholar
Hoppin et al., 2006
J.A. Hoppin, D.M. Umbach, S.J. London, C.F. Lynch, M.C.R. Alavanja, D.P. Sandler
Pesticides associated with wheeze among commercial pesticide applicators in the agricultural health study
Am. J. Epidemiol., 163 (2006), pp. 1129-1137, 10.1093/aje/kwj138
View in ScopusGoogle Scholar
Hoppin et al., 2008
J.A. Hoppin, D.M. Umbach, S.J. London, P.K. Henneberger, G.J. Kullman, M.C.R. Alavanja, D.P. Sandler
Pesticides and atopic and nonatopic asthma among farm women in the agricultural health study
Am. J. Respir. Crit. Care Med., 177 (2008), pp. 11-18, 10.1164/rccm.200706-821OC
View in ScopusGoogle Scholar
Hoppin et al., 2009
J.A. Hoppin, D.M. Umbach, S.J. London, P.K. Henneberger, G.J. Kullman, J. Coble, M.C.R. Alavanja, L.E. Beane Freeman, D.P. Sandler
Pesticide use and adult-onset asthma among male farmers in the agricultural health study
Eur. Respir. J., 34 (2009), pp. 1296-1303, 10.1183/09031936.00005509
View in ScopusGoogle Scholar
Hoppin et al., 2017
J.A. Hoppin, D.M. Umbach, S. Long, S.J. London, P.K. Henneberger, A. Blair, M. Alavanja, L.E.B. Freeman, D.P. Sandler
Pesticides are associated with allergic and non-allergic wheeze among male farmers
Environ. Health Perspect., 125 (2017), pp. 535-543, 10.1289/EHP315
View in ScopusGoogle Scholar
Hunninghake et al., 2010
G.M. Hunninghake, M.E. Soto-Quirós, L. Avila, H.P. Kim, J. Lasky-Su, N. Rafaels, I. Ruczinski, T.H. Beaty, R.A. Mathias, K.C. Barnes, J.B. Wilk, G.T. O’Connor, W. James Gauderman, H. Vora, J.W. Baurley, F. Gilliland, C. Liang, J.S. Sylvia, B.J. Klanderman, S.S. Sharma, B.E. Himes, C.J. Bossley, E. Israel, B.A. Raby, A. Bush, A.M. Choi, S.T. Weiss, J.C. Celedón
TSLP polymorphisms are associated with asthma in a sex-specific fashion
Allergy, 65 (2010), pp. 1566-1575, 10.1111/j.1398-9995.2010.02415.x
View in ScopusGoogle Scholar
Inglis et al., 2018
A. Inglis, A. Ahmed, B. Wundervald, E. Prado
Jags: Just Another Gibbs Sampler. Maynooth: Lỗi giao diện: file 'snippets/shortcode-sn.bwt' không được tìm thấy
(2018)
Google Scholar
Ioannou et al., 2023
E. Ioannou, S. Oikonomou, N. Efthymiou, A. Constantinou, T. Delplancke, P. Charisiadis, K.C. Makris
A time differentiated dietary intervention effect on the biomarkers of exposure to pyrethroids and neonicotinoids pesticides
iScience, 26 (2023), Article 105847, 10.1016/j.isci.2022.105847
View PDF
View articleView in ScopusGoogle Scholar
Jornsatian and Bodhisuwan, 2022
C. Jornsatian, W. Bodhisuwan
Bayesian inference for negative binomial—beta exponential distribution and its regression model
Lobachevskii J. Math., 43 (2022), pp. 2501-2514, 10.1134/S1995080222120162
View in ScopusGoogle Scholar
Kogevinas et al., 1999
M. Kogevinas, J.M. Antó, J. Sunyer, A. Tobias, H. Kromhout, P. Burney
Occupational asthma in Europe and other industrialised areas: a population-based study
Lancet, 353 (1999), pp. 1750-1754, 10.1016/S0140-6736(98)07397-8
View PDF
View articleView in ScopusGoogle Scholar
Laetz et al., 2009
C.A. Laetz, D.H. Baldwin, T.K. Collier, V. Hebert, J.D. Stark, N.L. Scholz
The synergistic toxicity of pesticide mixtures: implications for risk assessment and the conservation of endangered Pacific Salmon
Environ. Health Perspect., 117 (2009), pp. 348-353, 10.1289/ehp.0800096
View in ScopusGoogle Scholar
LaKind et al., 2019
J.S. LaKind, F. Idri, D.Q. Naiman, M.-A. Verner
Biomonitoring and nonpersistent chemicals—understanding and addressing variability and exposure misclassification
Curr. Environ. Health Rep., 6 (2019), pp. 16-21, 10.1007/s40572-019-0227-2
View in ScopusGoogle Scholar
Lein, 2004
P.J. Lein
Organophosphorus insecticides induce airway hyperreactivity by decreasing neuronal M2 muscarinic receptor function independent of acetylcholinesterase inhibition
Toxicol. Sci., 83 (2004), pp. 166-176, 10.1093/toxsci/kfi001
Google Scholar
Li et al., 2015
J.N. Li, X.L. Li, J. He, J.X. Wang, M. Zhao, X.B. Liang, S.Y. Zhao, M.N. Ma, Y. Liu, Y.B. Wang, H. Chen, G.F. Qiao, B.Y. Li
Sex- and afferent-specific differences in histamine receptor expression in vagal afferents of rats: a potential mechanism for sexual dimorphism in prevalence and severity of asthma
Neuroscience, 303 (2015), pp. 166-177, 10.1016/j.neuroscience.2015.06.049
View PDF
View articleView in ScopusGoogle Scholar
Lubin et al., 2004
J.H. Lubin, J.S. Colt, D. Camann, S. Davis, J.R. Cerhan, R.K. Severson, L. Bernstein, P. Hartge
Epidemiologic evaluation of measurement data in the presence of detection limits
Environ. Health Perspect., 112 (2004), pp. 1691-1696, 10.1289/ehp.7199
View in ScopusGoogle Scholar
Mamane et al., 2015
A. Mamane, I. Baldi, J.-F. Tessier, C. Raherison, G. Bouvier
Occupational exposure to pesticides and respiratory health
Eur. Respir. Rev., 24 (2015), pp. 306-319, 10.1183/16000617.00006014
View in ScopusGoogle Scholar
McGraw and Wong, 1996
K.O. McGraw, S.P. Wong
Forming inferences about some intraclass correlation coefficients
Psychol. Methods, 1 (1996), pp. 30-46, 10.1037/1082-989X.1.1.30
View in ScopusGoogle Scholar
Mora et al., 2022
A.M. Mora, J.M. Baker, C. Hyland, M.G. Rodríguez-Zamora, D. Rojas-Valverde, M.S. Winkler, P. Staudacher, V.A. Palzes, R. Gutiérrez-Vargas, C. Lindh, A.L. Reiss, B. Eskenazi, S. Fuhrimann, S.K. Sagiv
Pesticide exposure and cortical brain activation among farmworkers in Costa Rica
NeuroToxicology, 93 (2022), pp. 200-210, 10.1016/j.neuro.2022.10.004
View PDF
View articleView in ScopusGoogle Scholar
Mwanga et al., 2016
H. Mwanga, M. Dalvie, T. Singh, K. Channa, M. Jeebhay
Relationship between pesticide metabolites, cytokine patterns, and asthma-related outcomes in rural women workers
Int. J. Environ. Res. Public Health, 13 (2016), p. 957, 10.3390/ijerph13100957
View in ScopusGoogle Scholar
Ndlovu et al., 2014
V. Ndlovu, M.A. Dalvie, M.F. Jeebhay
Asthma associated with pesticide exposure among women in rural Western cape of South Africa
Am. J. Ind. Med., 57 (2014), pp. 1331-1343, 10.1002/ajim.22384
View in ScopusGoogle Scholar
Norén et al., 2020
E. Norén, C. Lindh, L. Rylander, A. Glynn, J. Axelsson, M. Littorin, M. Faniband, E. Larsson, C. Nielsen
Concentrations and temporal trends in pesticide biomarkers in urine of Swedish adolescents, 2000–2017
J. Expo. Sci. Environ. Epidemiol., 30 (2020), pp. 756-767, 10.1038/s41370-020-0212-8
View in ScopusGoogle Scholar
Ohayo-Mitoko et al., 2000
G.J.A. Ohayo-Mitoko, H. Kromhout, J.M. Simwa, J.S.M. Boleij, D. Heederik
Self reported symptoms and inhibition of acetylcholinesterase activity among Kenyan agricultural workers
Occup. Environ. Med., 57 (2000), pp. 195-200, 10.1136/oem.57.3.195
View in ScopusGoogle Scholar
Okuyama et al., 2011
K. Okuyama, Y. Hamanaka, T. Kawano, Y. Ohkawara, M. Takayanagi, T. Kikuchi, I. Ohno
T cell subsets related with a sex difference in IL-5 production
Int. Arch. Allergy Immunol., 155 (2011), pp. 21-26, 10.1159/000327261
View in ScopusGoogle Scholar
Proskocil et al., 2008
B.J. Proskocil, D.A. Bruun, J.K. Lorton, K.C. Blensly, D.B. Jacoby, P.J. Lein, A.D. Fryer
Antigen sensitization influences organophosphorus pesticide–induced airway hyperreactivity
Environ. Health Perspect., 116 (2008), pp. 381-388, 10.1289/ehp.10694
View in ScopusGoogle Scholar
Proskocil et al., 2015
B.J. Proskocil, D.A. Bruun, J.A. Garg, C.C. Villagomez, D.B. Jacoby, P.J. Lein, A.D. Fryer
The influence of sensitization on mechanisms of organophosphorus pesticide–induced airway hyperreactivity
Am. J. Respir. Cell Mol. Biol., 53 (2015), pp. 738-747, 10.1165/rcmb.2014-0444OC
View in ScopusGoogle Scholar
Rodríguez-Zamora et al., 2018
M.G. Rodríguez-Zamora, J.-P. Zock, B. Van Wendel De Joode, A.M. Mora
Respiratory health outcomes, rhinitis, and eczema in workers from grain storage facilities in Costa Rica
Ann. Work Exposures Health, 62 (2018), pp. 1077-1086, 10.1093/annweh/wxy068
View in ScopusGoogle Scholar
Ross, 2022
K. Ross
10.1 Introduction to JAGS|An introduction to Bayesian reasoning and methods
An Introduction to Bayesian Reasoning and Methods (2022)
Google Scholar
Santos et al., 2011
M.J.G. Santos, R. Morgado, N.G.C. Ferreira, A.M.V.M. Soares, S. Loureiro
Evaluation of the joint effect of glyphosate and dimethoate using a small-scale terrestrial ecosystem
Ecotoxicol. Environ. Saf., 74 (2011), pp. 1994-2001, 10.1016/j.ecoenv.2011.06.003
View PDF
View articleView in ScopusGoogle Scholar
Sapbamrer and Seesen, 2020
R. Sapbamrer, M. Seesen
A Systematic Review of Association between Pesticide Exposure and Respiratory Outcomes among Farmers and Farmworkers
Malays. J. Med, Health Sci (2020), p. 16
Google Scholar
Shaffo et al., 2018
F.C. Shaffo, A.C. Grodzki, A.D. Fryer, P.J. Lein
Mechanisms of organophosphorus pesticide toxicity in the context of airway hyperreactivity and asthma. Am. J. Physiol.-lung cell
Mol. Physiol., 315 (2018), pp. L485-L501, 10.1152/ajplung.00211.2018
View in ScopusGoogle Scholar
Slager et al., 2009
R.E. Slager, J.A. Poole, T.D. LeVan, D.P. Sandler, M.C.R. Alavanja, J.A. Hoppin
Rhinitis associated with pesticide exposure among commercial pesticide applicators in the agricultural health study
Occup. Environ. Med., 66 (2009), pp. 718-724, 10.1136/oem.2008.041798
View in ScopusGoogle Scholar
Slager et al., 2010
R.E. Slager, S.L. Simpson, T.D. LeVan, J.A. Poole, D.P. Sandler, J.A. Hoppin
Rhinitis associated with pesticide use among private pesticide applicators in the agricultural health study
J. Toxicol. Environ. Health A, 73 (2010), pp. 1382-1393, 10.1080/15287394.2010.497443
View in ScopusGoogle Scholar
Staudacher et al., 2020
P. Staudacher, S. Fuhrimann, A. Farnham, A.M. Mora, A. Atuhaire, C. Niwagaba, C. Stamm, R.I. Eggen, M.S. Winkler
Comparative analysis of pesticide use determinants among smallholder farmers from Costa Rica and Uganda
Environ. Health Insights, 14 (2020), Article 117863022097241, 10.1177/1178630220972417
Google Scholar
Sunyer et al., 2007
J. Sunyer, J. Pekkanen, R. Garcia-Esteban, C. Svanes, N. Künzli, C. Janson, R. De Marco, J.M. Antó, P. Burney
Asthma score: predictive ability and risk factors
Allergy, 62 (2007), pp. 142-148, 10.1111/j.1398-9995.2006.01184.x
View in ScopusGoogle Scholar
Tarmure et al., 2020
S. Tarmure, T. Alexescu, O. Orasan, V. Negrean, A. Sitar-Taut, S. Coste, D. Todea
Influence of pesticides on respiratory pathology – a literature review
Ann. Agric. Environ. Med., 27 (2020), pp. 194-200, 10.26444/aaem/121899
View in ScopusGoogle Scholar
Vehtari et al., 2017a
A. Vehtari, J. Gabry, M. Magnusson, Y. Yao, P.-C. Bürkner, T. Paananen, A. Gelman
LOO Package Glossary Lỗi giao diện: file 'snippets/shortcode-WWW.bwt' không được tìm thấy
LOO Package Gloss (2017)
https://mc-stan.org/loo/reference/loo-glossary.html
(URL, accessed 9.8.24)
Google Scholar
Vehtari et al., 2017b
A. Vehtari, A. Gelman, J. Gabry
Practical Bayesian model evaluation using leave-one-out cross-validation and WAIC
Stat. Comput., 27 (2017), pp. 1413-1432, 10.1007/s11222-016-9696-4
View in ScopusGoogle Scholar
Wang et al., 2017
Y. Wang, L. Lv, Y. Yu, G. Yang, Z. Xu, Q. Wang, L. Cai
Single and joint toxic effects of five selected pesticides on the early life stages of zebrafish (Denio rerio)
Chemosphere, 170 (2017), pp. 61-67, 10.1016/j.chemosphere.2016.12.025
View PDF
View articleGoogle Scholar
Wei et al., 2021
F. Wei, D. Wang, H. Li, J. You
Joint toxicity of imidacloprid and azoxystrobin to Chironomus dilutus at organism, cell, and gene levels
Aquat. Toxicol., 233 (2021), Article 105783, 10.1016/j.aquatox.2021.105783
View PDF
View articleView in ScopusGoogle Scholar
Winkler et al., 2019
M. Winkler, C. Stamm, K. Ingold, A.M. Mora, C. Niwagaba, F. Weiss
Environmental Exposures, Health Effects and Institutional Determinants of Pesticide Use in Two Tropical Settings
(2019)
Google Scholar
Zúñiga-Venegas et al., 2022
L.A. Zúñiga-Venegas, C. Hyland, M.T. Muñoz-Quezada, L. Quirós-Alcalá, M. Butinof, R. Buralli, A. Cardenas, R.A. Fernandez, C. Foerster, N. Gouveia, J.P. Gutiérrez Jara, B.A. Lucero, M.P. Muñoz, M. Ramírez-Santana, A.R. Smith, N. Tirado, B. Van Wendel De Joode, G.M. Calaf, A.J. Handal, A. Soares Da Silva, S. Cortés, A.M. Mora
Health effects of pesticide exposure in Latin American and the Caribbean populations: a scoping review
Environ. Health Perspect., 130 (2022), Article 096002, 10.1289/EHP9934
View in ScopusGoogle Scholar

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