Environmental Engineering Reference
In-Depth Information
Croy, I. 1973. Ein kasuistischer Beitrag zur Ätiologie der Urtikaria durch Pilzbekämpfungsmittel auf
Captan-Basis.
Z. Gesamte. Hyg.
19: 710-711.
Dannaker, C. J., Maibach, H. I., and O'Malley, M. 1993. Contact urticaria and anaphylaxis to the fun-
gicide chlorothalonil.
Cutis
52: 312-315.
de Groot, A. C. 2008.
Patch Testing. Test Concentrations and Vehicles for 4350 Chemicals.
Acdegroot
Publishing: Wapserveen.
Delvaux, E. L., Verstraete, J., Hautfenne, A., De Sart, F., and Goffin, G. 1975. Les polychloro dibenzo-
p-dioxines.
Toxicology
3: 187-206.
Dennis, L. K., Lynch, C. F., Sandler, D. P., and Alavanja, M. C. 2010. Pesticide use and cutaneous
melanoma in pesticide applicators in the agricultural heath study.
Environ. Health Perspect.
118:
812-817.
Downey, D. C. 1999. Porphyria and chemicals.
Med. Hypotheses
53: 166-171.
English, J. S. 2004. Current concepts of irritant contact dermatitis.
Occup. Environ. Med.
61: 722-726.
Ezendam, J., Hassing, I., Bleumink, R., Vos, J. G., and Pieters, R. 2004. Hexachlorobenzene-induced
immunopathology in Brown Norway rats is partly mediated by T cells.
Toxicol. Sci.
78: 88-95.
Fortes, C., Mastroeni, S., Melchi, F., et al. 2007. The association between residential pesticide use and
cutaneous melanoma.
Eur. J. Cancer
43: 1066-1075.
Fregert, S. 1967. Allergic contact dermatitis from the pesticides captan and phaltan.
Contact Dermatitis
Newsletter
(2): 11.
Fukuyama, T., Kosaka, T., Tajima, Y., et al. 2010a. Prior exposure to organophosphorus and organo-
chlorine pesticides increases the allergic potential of environmental chemical allergens in a
local lymph node assay.
Toxicol. Lett.
199: 347-356.
Fukuyama, T., Tajima, Y., Ueda, H., et al. 2010b. Apoptosis in immunocytes induced by several types
of pesticides.
J. Immunotoxicol.
7: 39-56.
Fuortes, L. 1999. Urticaria due to airborne permethrin exposure.
Vet. Hum. Toxicol.
41: 92-93.
Garcia-Bravo, B., Rodriguez-Pichardo, A., de Pierola, S. F., and Camacho, F. 1995. Airborne erythema-
multiforme-like eruption due to pyrethrum.
Contact Dermatitis
33: 433.
Germolec, D. R., Spalding, J., Yu, H. S., et al. 1998. Arsenic enhancement of skin neoplasia by chronic
stimulation of growth factors.
Am. J. Pathol.
153: 1775-1785.
Gober, M. D. and Gaspari, A. A. 2008. Allergic contact dermatitis.
Curr. Dir. Autoimmun.
10: 1-26.
Guo, Y. L., Wang, B. J., Lee, C. C., Wang, J. D. 1996. Prevalence of dermatoses and skin sensitisation
associated with use of pesticides in fruit farmers of southern Taiwan.
Occup. Environ. Med.
53:
427-431.
Haustein, U. F. 1968. Chlorkohlenwasserstoffhaltiges Pestizid als Ursache einer toxischen Alopezie.
Z. Haut. Geschlechtskr.
43: 105-108.
Hearn, C. E. and Keir, W. 1971. Nail damage in spray operators exposed to paraquat.
Br. J. Ind. Med.
28: 399-403.
Helmdach, F. and Schlenzka, K. 1984. Die Entwicklung der Berufsekzeme in der Landwirtschaft des
Bezirkes Magdeburg seit 1966. 1. Mitteilung.
Dermatol. Monatsschr.
170: 625-631.
Heras-Mendaza, F., Casado-Farinas, I., Paredes-Gascon, M., and Conde-Salazar, L. 2008. Erythema
multiforme-like eruption due to an irritant contact dermatitis from a glyphosate pesticide.
Contact Dermatitis
59: 54-56.
Higo, A., Ohtake, N., Saruwatari, K., and Kanzaki, T. 1996. Photoallergic contact dermatitis from
mancozeb, an agricultural fungicide.
Contact Dermatitis
35: 183.
Hindson, C. and Diffey, B. 1984. Phototoxicity of glyphosate in a weedkiller.
Contact Dermatitis
10:
51-52.
Hogan, D. J. and Tanglertsampan, C. 1992. The less common occupational dermatoses.
Occup. Med.
7: 385-401.
Holsapple, M. P. 2002. Autoimmunity by pesticides: A critical review of the state of the science.
Toxicol. Lett.
127: 101-109.
Horiuchi, N., Oguchi, S., Nagami, H., and Nishigaki, Y. 2008. Pesticide-related dermatitis in Saku
district, Japan, 1975-2000.
Int. J. Occup. Environ. Health
14: 25-34.
Howard, J. K. 1979. A clinical survey of paraquat formulation workers.
Br. J. Ind. Med.
36: 220-223.
Search WWH ::
Custom Search