|
| Forside | | Indhold | | Forrige |
Virkningsmekanismer for neurotoksisk effekt af mangan og kombinationseffekt af mangan og chlorpyrifos og maneb
9 Referencer
Alessio,L., Apostoli,P., Ferioli,A., and Lombardi,S. (1989) Interference of manganese on neuroendocrinal system in exposed workers. Preliminary report. Biol.Trace.Elem.Res., 21, 249-253.
Ali,M.M., Murthy,R.C., Mandal,S.K., and Chandra,S.V. (1985) Effect of low protein diet on manganese neurotoxicity: III. Brain neurotransmitter levels. Neurobehav.Toxicol.Teratol., 7, 427-431.
Ali,S.F., Hong,J.S., Wilson,W.E., Lamb,J.C., Moore,J.A., Mason,G.A., and Bondy,S.C. (1982) Subchronic dietary exposure of rats to chlordecone (Kepone) modifies levels of hypothalamic
beta-endorphin. Neurotoxicology, 3, 119-124.
Ali,S.F., Duhart,H.M., Newport,G.D., Lipe,G.W., and Slikker,W., Jr. (1995) Manganese-induced reactive oxygen species: comparison between Mn+2 and Mn+3. Neurodegeneration, 4, 329-334.
Arbejdsmiljøinstituttet (2004). Manganudsættelse ved metalstøbning og -forarbejdning i Danmark. En udredning om eksisterende viden med fokus på eksponering og helbredseffekter. Rapport.
Arlien-Soborg, P. (2001) Chronic Toxic Encephalopathy Following Occupational Manganese Exposure. 8th Meeting of the International Neurotoxicology Association, 87.
Aschner,M. (1999) Manganese homeostasis in the CNS. Environ.Res., 80, 105-109.
Aschner,M. (2000a) Manganese: brain transport and emerging research needs. Environ.Health. Perspect., 108, 429-432.
Aschner,M. (2000b) Neuron-astrocyte interactions: implications for cellular energetics and antioxidant levels. Neurotoxicology, 21, 1101-1107.
ATSDR. (2000) Toxicological Profile for Manganese (Update). U. S. Department of Health & Human services. Public Health Services. Agency for Toxic Substances and Disease Registry. September.
Autissier,N., Rochette,L., Dumas,P., Beley,A., Loireau,A., and Bralet,J. (1982) Dopamine and norepinephrine turnover in various regions of the rat brain after chronic manganese chloride administration.
Toxicology, 24, 175-182.
Baba,M., Nakajo,S., Tu,P.H., Tomita,T., Nakaya,K., Lee,V.M., Trojanowski,J.Q., and Iwatsubo,T. (1998) Aggregation of α-synuclein in Lewy bodies of sporadic Parkinson's disease and dementia
with Lewy bodies. Am. J. Pathol., 152, 879-884.
Bachurin,S.O., Tkachenko,S.E., and Lermontova,N.N. (1991) Pyridine derivatives: structure-activity relationships causing parkinsonism-like symptoms. Rev.Environ.Contam. Toxicol., 122, 1-36.
Baek,S.Y., Lee,M.J., Jung,H.S., Kim,H.J., Lee,C.R., Yoo,C., Lee,J.H., Lee,H., Yoon,C.S., Kim,Y.H., Park,J., Kim,J.W., Jeon,B.S., and Kim,Y. (2003) Effect of manganese exposure on MPTP
neurotoxicities. Neurotoxicology, 24, 657-665.
Ball,J. (2001) Current advances in Parkinson's disease. Trends Neurosci., 24, 367-369.
Barbeau,A. (1984) Manganese and extrapyramidal disorders (a critical review and tribute to Dr. George C. Cotzias). Neurotoxicology, 5, 13-35.
Barc,S., Page,G., Fauconneau,B., Barrier,L., and Huguet,F. (2001) A new in vitro approach for investigating the MPTP effect on DA uptake. Neurochem.Int., 38, 243-248.
Barlow,B.K., Thiruchelvam,M.J., Bennice,L., Cory-Slechta,D.A., Ballatori,N., and Richfield,E.K. (2003) Increased synaptosomal dopamine content and brain concentration of paraquat produced by
selective dithiocarbamates. J.Neurochem., 85, 1075-1086.
Barlow,B.K., Richfield,E.K., Cory-Slechta,D.A., and Thiruchelvam,M. (2004) A fetal risk factor for Parkinson's disease. Dev.Neurosci., 26, 11-23.
Barlow,B.K., Lee,D.W., Cory-Slechta,D.A., and Opanashuk,L.A. (2005) Modulation of antioxidant defense systems by the environmental pesticide maneb in dopaminergic cells. Neurotoxicology, 26,
63-75.
Betarbet,R., Sherer,T.B., MacKenzie,G., Garcia-Osuna,M., Panov,A.V., and Greenamyre,J.T. (2000) Chronic systemic pesticide exposure reproduces features of Parkinson's disease. Nat.Neurosci., 3,
1301-1306.
Bird,E.D., Anton,A.H., and Bullock,B. (1984) The effect of manganese inhalation on basal ganglia dopamine concentrations in rhesus monkey. Neurotoxicology, 5, 59-65.
Bloomquist,J.R., Barlow,R.L., Gillette,J.S., Li,W., and Kirby,M.L. (2002) Selective effects of insecticides on nigrostriatal dopaminergic nerve pathways. Neurotoxicology, 23, 537-544.
Bohlen Und,H.O. (2004) Synucleins and their relationship to Parkinson's disease. Cell Tissue Res., 318, 163-174.
Bonilla,E. and Diez-Ewald,M. (1974) Effect of L-DOPA on brain concentration of dopamine and homovanillic acid in rats after chronic manganese chloride administration. J.Neurochem., 22, 297-299.
Bougria,M., Vitorica,J., Cano,J., and Machado,A. (1995) Implication of dopamine transporter system on 1-methyl-4-phenylpyridinium and rotenone effect in striatal synaptosomes. Eur. J. Pharmacol.,
291, 407-415.
Brenneman,K.A., Wong,B.A., Buccellato,M.A., Costa,E.R., Gross,E.A., and Dorman,D.C. (2000) Direct olfactory transport of inhaled manganese ((54)MnCl(2)) to the rat brain: toxicokinetic
investigations in a unilateral nasal occlusion model. Toxicol. Appl. Pharmacol., 169, 238-248.
Calne,D.B., Chu,N.S., Huang,C.C., Lu,C.S., and Olanow,W. (1994) Manganism and idiopathic parkinsonism: similarities and differences. Neurology, 44, 1583-1586.
Castro,S.L. and Zigmond,M.J. (2001) Stress-induced increase in extracellular dopamine in striatum: role of glutamatergic action via N-methyl-D-aspartate receptors in substantia nigra. Brain Res., 901,
47-54.
Chandra,S.V. (1983) Psychiatric illness due to manganese poisoning. Acta Psychiatr.Scand.Suppl., 303, 49-54.
Chandra,S.V., Murthy,R.C., Husain,T., and Bansal,S.K. (1984) Effect of interaction of heavy metals on (Na+ -K+) ATPase and the uptake of 3H-DA and 3H-NA in rat brain synaptosomes. Acta
Pharmacol. Toxicol. (Copenh.), 54, 210-213.
Clegg,D.J. and van Gemert,M. (1999a) Determination of the reference dose for chlorpyrifos: proceedings of an expert panel. J.Toxicol.Environ.Health B Crit.Rev., 2, 211-255.
Clegg,D.J. and van Gemert,M. (1999b) Expert panel report of human studies on chlorpyrifos and/or other organophosphate exposures. J.Toxicol.Environ.Health B Crit.Rev., 2, 257-279.
Cohen,G. and Heikkila,R.E. (1974) The generation of hydrogen peroxide, superoxide radical, and hydroxyl radical by 6-hydroxydopamine, dialuric acid, and related cytotoxic agents. J.Biol.Chem., 249,
2447-2452.
Cohen,G. (2000) Oxidative stress, mitochondrial respiration, and Parkinson's disease. Ann.N.Y..Acad.Sci., 899, 112-120.
Cuervo,A.M., Stefanis,L., Fredenburg,R., Lansbury,P.T., and Sulzer,D. (2004) Impaired degradation of mutant α-synuclein by chaperone-mediated autophagy. Science, 305, 1292-1295.
Dalgaard,M., Nellemann,C., Lam,H.R., Sorensen,I.K., and Ladefoged,O. (2001) The acute effects of mono(2-ethylhexyl)phthalate (MEHP) on testes of prepubertal Wistar rats. Toxicol.Lett., 122, 69-79.
Davis,K.L., Yesavage,J.A., and Berger,P.A. (1978) Single case study. Possible organophosphate-induced parkinsonism. J.Nerv.Ment.Dis., 166, 222-225.
Deamer,N.J., O'Callaghan,J.P., and Genter,M.B. (1994) Olfactory toxicity resulting from dermal application of 2,6-dichlorobenzonitrile (dichlobenil) in the C57Bl mouse. Neurotoxicology, 15, 287-293.
Desaiah,D. (1985) Chlordecone interaction with catecholamine binding and uptake in rat brain synaptosomes. Neurotoxicology, 6, 159-165.
Desole,M.S., Esposito,G., Migheli,R., Fresu,L., Sircana,S., Zangani,D., Miele,M., and Miele,E. (1995) Cellular defence mechanisms in the striatum of young and aged rats subchronically exposed to
manganese. Neuropharmacology, 34, 289-295.
Dexter,D.T., Carter,C.J., Wells,F.R., Javoy-Agid,F., Agid,Y., Lees,A., Jenner,P., and Marsden,C.D. (1989) Basal lipid peroxidation in substantia nigra is increased in Parkinson's disease. J.Neurochem.,
52, 381-389.
Di Monte,D., Irwin,I., Kupsch,A., Cooper,S., DeLanney,L.E., and Langston,J.W. (1989) Diethyldithiocarbamate and disulfiram inhibit MPP+ and dopamine uptake by striatal synaptosomes. Eur.
J.Pharmacol., 166, 23-29.
Dorman,D.C., Struve,M.F., Vitarella,D., Byerly,F.L., Goetz,J., and Miller,R. (2000) Neurotoxicity of manganese chloride in neonatal and adult CD rats following subchronic (21-day) high-dose oral
exposure. J.Appl.Toxicol., 20, 179-187.
Ellman,G.L., Courtney,K.D., Andres,V., Jr., and Feather-Stone,R.M. (1961) A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem.Pharmacol., 7, 88-95.
Engel,L.S., Checkoway,H., Keifer,M.C., Seixas,N.S., Longstreth,W.T., Jr., Scott,K.C., Hudnell,K., Anger,W.K., and Camicioli,R. (2001) Parkinsonism and occupational exposure to pesticides. Occup
.Environ. Med., 58, 582-589.
Erikson,K.M. and Aschner,M. (2003) Manganese neurotoxicity and glutamate-GABA interaction. Neurochem.Int., 43, 475-480.
Erikson,K.M., Syversen,T., Steinnes,E., and Aschner,M. (2004b) Globus pallidus: a target brain region for divalent metal accumulation associated with dietary iron deficiency. J.Nutr.Biochem., 15,
335-341.
Erikson,K.M., Dobson,A.W., Dorman,D.C., and Aschner,M. (2004a) Manganese exposure and induced oxidative stress in the rat brain. Sci.Total Environ., 334-335, 409-416.
Fitsanakis,V.A., Amarnath,V., Moore,J.T., Montine,K.S., Zhang,J., and Montine,T.J. (2002) Catalysis of catechol oxidation by metal-dithiocarbamate complexes in pesticides. Free Radic.Biol.Med., 33,
1714-1723.
Gavin,C.E., Gunter,K.K., and Gunter,T.E. (1999) Manganese and calcium transport in mitochondria: implications for manganese toxicity. Neurotoxicology, 20, 445-453.
Gianutsos,G. and Murray,M.T. (1982) Alterations in brain dopamine and GABA following inorganic or organic manganese administration. Neurotoxicology, 3, 75-81.
Gianutsos,G., Morrow,G.R., and Morris,J.B. (1997) Accumulation of manganese in rat brain following intranasal administration. Fundam.Appl.Toxicol, 37, 102-105.
Gibb,W.R. and Lees,A.J. (1988) The relevance of the Lewy body to the pathogenesis of idiopathic Parkinson's disease. J.Neurol.Neurosurg.Psychiatry, 51, 745-752.
Golbe,L. (1998) Parkinson's disease: nature meets nurture. Lancet, 352, 1328-1329.
Gorell,J.M., Johnson,C.C., Rybicki,B.A., Peterson,E.L., Kortsha,G.X., Brown,G.G., and Richardson,R.J. (1997) Occupational exposures to metals as risk factors for Parkinson's disease. Neurology, 48,
650-658.
Gorell,J.M., Johnson,C.C., Rybicki,B.A., Peterson,E.L., and Richardson,R.J. (1998) The risk of Parkinson's disease with exposure to pesticides, farming, well water, and rural living. Neurology, 50,
1346-1350.
Gwiazda,R.H., Lee,D., Sheridan,J., and Smith,D.R. (2002) Low cumulative manganese exposure affects striatal GABA but not dopamine. Neurotoxicology, 23, 69-76.
Hartmann,A., Michel,P.P., Troadec,J.D., Mouatt-Prigent,A., Faucheux,B.A., Ruberg,M., Agid,Y., and Hirsch,E.C. (2001) Is Bax a mitochondrial mediator in apoptotic death of dopaminergic neurons in
Parkinson's disease? J.Neurochem., 76, 1785-1793.
Hartree,E.F. (1972) Determination of protein: a modification of the Lowry method that gives a linear photometric response. Anal.Biochem., 48, 422-427.
Hastings,T.G. (1995) Enzymatic oxidation of dopamine: the role of prostaglandin H synthase. J.Neurochem., 64, 919-924.
Henriksson,J., Tallkvist,J., and Tjalve,H. (1999) Transport of manganese via the olfactory pathway in rats: dosage dependency of the uptake and subcellular distribution of the metal in the olfactory
epithelium and the brain. Toxicol..Appl.Pharmacol., 156, 119-128.
Henriksson,J. and Tjalve,H. (2000) Manganese taken up into the CNS via the olfactory pathway in rats affects astrocytes.Toxicol.Sci., 55, 392-398.
Hirata,Y., Adachi,K., and Kiuchi,K. (1998) Activation of JNK pathway and induction of apoptosis by manganese in PC12 cells. J.Neurochem., 71, 1607-1615.
Ho,S.C., Woo,J., and Lee,C.M. (1989) Epidemiologic study of Parkinson's disease in Hong Kong. Neurology, 39, 1314-1318.
Holdiness,M.R. (1983) Chromatographic analysis of glutamic acid decarboxylase in biological samples. J.Chromatogr., 277, 1-24.
Huang,C.C., Weng,Y.H., Lu,C.S., Chu,N.S., and Yen,T.C. (2003) Dopamine transporter binding in chronic manganese intoxication. J.Neurol., 250, 1335-1339.
Huff,R.A., Abu-Qare,A.W., and Abou-Donia,M.B. (2001) Effects of sub-chronic in vivo chlorpyrifos exposure on muscarinic receptors and adenylate cyclase of rat striatum. Arch.Toxicol., 75, 480-486.
Hussain,T., Ali,M.M., and Chandra,S.V. (1987) The combined effect of Pb2+ and Mn2+ on monoamine uptake and Na+, K+-ATPase in striatal synaptosomes. J.Appl.Toxicol., 7, 277-280.
Ingersoll,R.T., Montgomery,E.B., Jr., and Aposhian,H.V. (1995) Central nervous system toxicity of manganese. I. Inhibition of spontaneous motor activity in rats after intrathecal administration of manganese
chloride. Fundam..Appl.Toxicol., 27, 106-113.
Ingersoll,R.T., Montgomery,E.B., Jr., and Aposhian,H.V. (1999) Central nervous system toxicity of manganese. II: Cocaine or reserpine inhibit manganese concentration in the rat brain. Neurotoxicology,
20, 467-476.
Jacobsen,H., Ostergaard,G., Lam,H.R., Poulsen,M.E., Frandsen,H., Ladefoged,O., and Meyer,O. (2004) Repeated dose 28-day oral toxicity study in Wistar rats with a mixture of five pesticides often
found as residues in food: alphacypermethrin, bromopropylate, carbendazim, chlorpyrifos and mancozeb. Food Chem.Toxicol., 42, 1269-1277.
Jellinger,K.A. and Stadelmann,C. (2000a) Mechanisms of cell death in neurodegenerative disorders. J.Neural Transm., 59, 95-114.
Jellinger,K.A. and Stadelmann,C.H. (2000b) The enigma of cell death in neurodegenerative disorders. J.Neural Transm., 60, 21-36.
Junn,E. and Mouradian,M.M. (2001) Apoptotic signaling in dopamine-induced cell death: the role of oxidative stress, p38 mitogen-activated protein kinase, cytochrome c and caspases. J.Neurochem., 78,
374-383.
Kanda,S., Bishop,J.F., Eglitis,M.A., Yang,Y., and Mouradian,M.M. (2000) Enhanced vulnerability to oxidative stress by α-synuclein mutations and C-terminal truncation. Neuroscience, 97, 279-284.
Kannan,K. and Jain,S.K. (2000) Oxidative stress and apoptosis. Pathophysiology, 7, 153-163.
Karen,D.J., Li,W., Harp,P.R., Gillette,J.S., and Bloomquis,J.R. (2001) Striatal dopaminergic pathways as a target for the insecticides permethrin and chlorpyrifos. Neurotoxicology, 22, 811-817.
Kawata,F. (1990) [Studies on monoamine metabolism in the rat brain with overdosage of manganese]. Nippon Hoigaku Zasshi, 44, 137-146.
Kessler,K.R., Wunderlich,G., Hefter,H., and Seitz,R.J. (2003) Secondary progressive chronic manganism associated with markedly decreased striatal D2 receptor density. Mov.Disord., 18, 217-218.
Koller,W., Vetere-Overfield,B., Gray,C., Alexander,C., Chin,T., Dolezal,J., Hassanein,R., and Tanner,C. (1990) Environmental risk factors in Parkinson's disease. Neurology, 40, 1218-1221.
Komura,J. and Sakamoto,M. (1992) Effects of manganese forms on biogenic amines in the brain and behavioral alterations in the mouse: long-term oral administration of several manganese compounds.
Environ.Res., 57, 34-44.
Kontou,S., Tsipi,D., and Tzia,C. (2004) Kinetics of maneb degradation during thermal treatment of tomatoes. J.Agric.Food Chem., 52, 1212-1219.
Kurosaki,R., Muramatsu,Y., Kato,H., and Araki,T. (2004) Biochemical, behavioral and immunohistochemical alterations in MPTP-treated mouse model of Parkinson's disease.
Pharmacol.Biochem.Behav., 78, 143-153.
Ladefoged,O., Strange,P., Moller,A., Lam,H.R., Ostergaard,G., Larsen,J.J., and Arlien-Soborg,P. (1991) Irreversible effects in rats of toluene (inhalation) exposure for six months. Pharmacol.Toxicol.,
68, 384-390.
Ladefoged,O., Lam,H.R., Østergaard,G., Nielsen,E., and Arlien-Søborg,P. (1995) Neurotoxicology - Review of Definitions, Methodology and Criteria. Miljøprojekt nr.282.Ministry of Environment
and Energy, Denmark.Danish Environmental Protection Agency,1-110.
Ladefoged,O., Lam,H.L., Sørensen,I.K., Thorup,I.P.K., and Edellfors,S. (2000) Chemical induced apoptosis. TemaNord, 578, 1-104.
Ladefoged,O., Hougaard,K.S., Hass,U., Sorensen,I.K., Lund,S.P., Svendsen,G.W., and Lam,H.R. (2004) Effects of combined prenatal stress and toluene exposure on apoptotic neurodegeneration in
cerebellum and hippocampus of rats. Basic Clin.Pharmacol.Toxicol., 94, 169-176.
Laemmli,U.K. (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227, 680-685.
Lafuente,A., Marquez,N., Pousada,Y., Pazo,D., and Esquifino,A.I. (2000) Possible estrogenic and/or antiandrogenic effects of methoxychlor on prolaktin release in male rats. Arch.Toxicol., 74, 270-275.
Lai,C.T. and Yu,P.H. (1997) Dopamine- and L-beta-3,4-dihydroxyphenylalanine hydrochloride (L-Dopa)-induced cytotoxicity towards catecholaminergic neuroblastoma SH-SY5Y cells. Effects of
oxidative stress and antioxidative factors. Biochem.Pharmacol., 53, 363-372.
Lai,J.C., Lim,L., and Davison,A.N. (1981) Differences in the inhibitory effect of Cd2+, Mn2+ and Al3+ on the uptake of dopamine by synaptosomes from forebrain and from striatum of the rat.
Biochem.Pharmacol., 30, 3123-3125.
Lai,J.C., Leung,T.K., and Lim,L. (1984) Differences in the neurotoxic effects of manganese during development and aging: some observations on brain regional neurotransmitter and non-neurotransmitter
metabolism in a developmental rat model of chronic manganese encephalopathy. Neurotoxicology, 5, 37-47.
Lai,J.C., Minski,M.J., Chan,A.W., Leung,T.K., and Lim,L. (1999) Manganese mineral interactions in brain. Neurotoxicology, 20, 433-444.
Lam,H.R., Ladefoged,O., Ostergaard,G., and O'Callaghan,J.P. (2000a) Inhalation exposure to white spirit causes region-dependent alterations in the levels of glial fibrillary acidic protein.
Neurotoxicol.Teratol., 22, 725-731.
Lam,H.R., Ladefoged,O., Ostergaard,G., Hass,U., Lund,S.P., and Simonsen,L. (2000b) Four weeks' inhalation exposure of Long Evans rats to 4-tert-butyltoluene: effect on evoked potentials, behaviour,
and brain neurochemistry. Pharmacol.Toxicol., 87, 11-17.
Lam,H.R., Lof,A., and Ladefoged,O. (1992) Brain concentrations of white spirit components and neurotransmitters following a three week inhalation exposure of rats. Pharmacol.Toxicol., 70, 394-396
Lee,M., Hyun,D., Halliwell,B., and Jenner,P. (2001) Effect of the overexpression of wild-type or mutant α-synuclein on cell susceptibility to insult. J.Neurochem., 76, 998-1009.
Leung,T.K., Lai,J.C., Tricklebank,M., Davison,A.N., and Lim,L. (1982) Chronic manganese treatment of rats alters synaptosomal uptake of dopamine and the behavioural response to amphetamine
administration. J.Neurochem., 39, 1496-1499.
Lewen,A., Matz,P., and Chan,P.H. (2000) Free radical pathways in CNS injury. J.Neurotrauma, 17, 871-890.
Lowry,O.H., Rosebrough,N.J., Farr,A.L., and Randall,R.J. (1951) Protein measurement with the Folin phenol reagent. J.Biol.Chem., 193, 265-275.
Malecki,E.A., Devenyi,A.G., Beard,J.L., and Connor,J.R. (1999) Existing and emerging mechanisms for transport of iron and manganese to the brain. J.Neurosci.Res., 56, 113-122.
Manzo,L., Artigas,F., Martinez,E., Mutti,A., Bergamaschi,E., Nicotera,P., Tonini,M., Candura,S.M., Ray,D.E., and Costa,L.G. (1996) Biochemical markers of neurotoxicity. A review of mechanistic
studies and applications. Hum.Exp.Toxicol., 15, S20-S35.
Marey-Semper,I., Gelman,M., and Levi-Strauss,M. (1993) The high sensitivity to rotenone of striatal dopamine uptake suggests the existence of a constitutive metabolic deficiency in dopaminergic neurons
from the substantia nigra. Eur.J.Neurosci., 5, 1029-1034.
Marsden,C.D. (1994) Parkinson's disease. J Neurol.Neurosurg.Psychiatry, 57, 672-681.
Mattson,M.P., Culmsee,C., and Yu,Z.F. (2000) Apoptotic and antiapoptotic mechanisms in stroke. Cell Tissue Res., 301, 173-187.
Mattson,M.P., Duan,W., Pedersen,W.A., and Culmsee,C. (2001) Neurodegenerative disorders and ischemic brain diseases. Apoptosis, 6, 69-81.
Meco,G., Bonifati,V., Vanacore,N., and Fabrizio,E. (1994) Parkinsonism after chronic exposure to the fungicide maneb (manganese ethylene-bis-dithiocarbamate). Scand.J.Work Environ.Health, 20,
301-305.
McGeer,P.L., Itagaki,S., Akiyama,H., and McGeer,E.G. (1988) Rate of cell death in parkinsonism indicates active neuropathological process. Ann.Neurol., 24, 574-576.
Miljøstyrelsen (2003c) Combined Actions and Interactions of Chemicals in Mixtures. Fødevarerapport 2003:12.
Miljøstyrelsen (2003a) Pesticides Research. No. 80. Report on the Health Effects of Selected Pesticides Coformulants. Rapport.
Miljøstyrelsen (2003b) Pesticides Research. No. 81. In Vivo Investigation of Dietary Exposure to 5 Pesticides. Rapport.
Montes,S., Alcaraz-Zubeldia,M., Muriel,P., and Rios,C. (2001) Striatal manganese accumulation induces changes in dopamine metabolism in the cirrhotic rat. Brain Res., 891, 123-129.
Mutti,A., Bergamaschi,E., Alinovi,R., Lucchini,R., Vettori,M.V., and Franchini,I. (1996) Serum prolaktin in subjects occupationally exposed to manganese. Ann.Clin.Lab.Sci., 26, 10-17.
Mutti,A. and Smargiassi,A. (1998) Selective vulnerability of dopaminergic systems to industrial chemicals: risk assessment of related neuroendocrine changes. Toxicol.Ind.Health, 14, 311-323.
Nelson,K., Golnick,J., Korn,T., and Angle,C. (1993) Manganese encephalopathy: utility of early magnetic resonance imaging. Br.J.Ind.Med., 50, 510-513.
Newland MC (1999) Animal models of manganese`s neurotoxicity. Neurotoxicology, 20, 415-32.
Newland,M.C., Ceckler,T.L., Kordower,J.H., and Weiss,B. (1989) Visualizing manganese in the primate basal ganglia with magnetic resonance imaging. Exp.Neurol., 106, 251-258.
Newsome,W.H. (1976) Residues of four ethylenebis(dithiocarbamates) and their decomposition products on field-sprayed tomatoes. J.Agric.Food Chem., 24, 999-1001.
Newsome,W.H. (1979) Residues of mancozeb, 2-imidazoline, and ethyleneurea in tomato and potato crops after field treatment with mancozeb. J.Agric.Food Chem., 27, 1188-1190.
Niu,Q., He,S., Chen,Y., and Dai,F. (2001) [Effect on manganese exposure on blood prolaktin and plasma renin activity]. Wei Sheng Yan Jiu, 30, 91-92.
Normandin,L., Panisset,M., and Zayed,J. (2002) Manganese neurotoxicity: behavioral, pathological, and biochemical effects following various routes of exposure. Rev.Environ.Health, 17, 189-217.
Normandin,L., Ann,B.L., Salehi,F., Pierre,A., Kennedy,G., Mergler,D., Butterworth,R.F., Philippe,S., and Zayed,J. (2004) Manganese distribution in the brain and neurobehavioral changes following
inhalation exposure of rats to three chemical forms of manganese. Neurotoxicology, 25, 433-441.
O'Callaghan,J.P., Miller,D.B., and Reinhard,J.F., Jr. (1990a) Characterization of the origins of astrocyte response to injury using the dopaminergic neurotoxicant,
1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine. Brain Res., 521, 73-80.
O'Callaghan,J.P., Miller,D.B., and Reinhard,J.F., Jr. (1990b) 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced damage of striatal dopaminergic fibers attenuates subsequent astrocyte
response to MPTP. Neurosci.Lett., 117, 228-233.
O'Callaghan,J.P. (1993) Quantitative features of reactive gliosis following toxicant-induced damage of the CNS. Ann.N.Y.Acad Sci., 679, 195-210.
O'Callaghan,J.P., Jensen,K.F., and Miller,D.B. (1995) Quantitative aspects of drug and toxicant-induced astrogliosis. Neurochem.Int., 26, 115-124.
Ostergaard,G., Lam,H.R., Ladefoged,O., and Arlien-Soborg,P. (1993) Effects of six months' white spirit inhalation exposure in adult and old rats. Pharmacol.Toxicol., 72, 34-39.
Page,G., Peeters,M., Najimi,M., Maloteaux,J.M., and Hermans,E. (2001) Modulation of the neuronal dopamine transporter activity by the metabotropic glutamate receptor mGluR5 in rat striatal
synaptosomes through phosphorylation mediated processes. J.Neurochem., 76, 1282-1290.
Panet,H., Barzilai,A., Daily,D., Melamed,E., and Offen,D. (2001) Activation of nuclear transcription factor kappa B (NF-kappaB) is essential for dopamine-induced apoptosis in PC12 cells.
J.Neurochem., 77, 391-398.
Patsakos,P.G., Liapis,K., Miliadis,G.E., and Zafiriou,K. (1992) Mancozeb residues on field sprayed apricots. Bull.Environ.Contam.Toxicol., 48, 756-761.
Rasmussen A.A, Thulstrup A.M, Kolstad H.A, and Ellekilde-Bonde J.P (2004) Risiko for ekstrapyramidal lidelse ved udsættelse for mangan under nutidige danske arbejdsforhold. Ugeskrift for Læger,
49, 4461-4464.
Roels,H., Meiers,G., Delos,M., Ortega,I., Lauwerys,R., Buchet,J.P., and Lison,D. (1997) Influence of the route of administration and the chemical form (MnCl2, MnO2) on the absorption and cerebral
distribution of manganese in rats. Arch.Toxicol., 71, 223-230.
Rossetti,V. and Lombard,A. (1996) Determination of glutamate decarboxylase by high-performance liquid chromatography. J.Chromatogr.B.Biomed.Appl., 681, 63-67.
Roth,J.A., Feng,L., Walowitz,J., and Browne,R.W. (2000) Manganese-induced rat pheochromocytoma (PC12) cell death is independent of caspase activation. J.Neurosci.Res, 61, 162-171.
Russell T (1992) Environmental risk factors in Parkinson’s disease. Food Chem.Toxicol., 30, 343-348.
Schoenberg,B.S. (1987) Environmental risk factors for Parkinson's disease: the epidemiologic evidence. Can.J.Neurol.Sci., 14, 407-413.
Semchuk,K.M., Love,E.J., and Lee,R.G. (1992) Parkinson's disease and exposure to agricultural work and pesticide chemicals. Neurology, 42, 1328-1335.
Shen,X.M. and Dryhurst,G. (1998) Iron- and manganese-catalyzed autoxidation of dopamine in the presence of L-cysteine: possible insights into iron- and manganese-mediated dopaminergic neurotoxicity.
Chem.Res.Toxicol., 11, 824-837.
Sloth,J. and Larsen,E.H. (2000) The application of inductively coupled plasma reaction cell mass spectrometry for measurement of selenium isotopes, isotope ratios and chromatographic detection of
selenoamino acids. J.Anal.At.Spectrom., 15, 669-672.
Slotkin,T.A., Tate,C.A., Cousins,M.M., and Seidler,F.J. (2002) Functional alterations in CNS catecholamine systems in adolescence and adulthood after neonatal chlorpyrifos exposure. Brain
Res.Dev.Brain Res., 133, 163-173.
Slotkin,T.A. (2004a) Cholinergic systems in brain development and disruption by neurotoxicants: nicotine, environmental tobacco smoke, organophosphates. Toxicol.Appl.Pharmacol., 198, 132-151.
Slotkin,T.A. (2004b) Guidelines for developmental neurotoxicity and their impact on organophosphate pesticides: a personal view from an academic perspective. Neurotoxicology, 25, 631-640.
Smargiassi,A. and Mutti,A. (1999) Peripheral biomarkers and exposure to manganese. Neurotoxicology, 20, 401-406.
St Pierre,A., Normandin,L., Carrier,G., Kennedy,G., Butterworth,R., and Zayed,J. (2001) Bioaccumulation and locomotor effect of manganese dust in rats. Inhal.Toxicol., 13, 623-632.
Stokes,A.H., Hastings,T.G., and Vrana,K.E. (1999) Cytotoxic and genotoxic potential of dopamine. J.Neurosci.Res., 55, 659-665.
Subhash,M.N. and Padmashree,T.S. (1990) Regional distribution of dopamine beta-hydroxylase and monoamine oxidase in the brains of rats exposed to manganese. Food Chem.Toxicol., 28, 567-570.
Subhash,M.N. and Padmashree,T.S. (1991) Effect of manganese on biogenic amine metabolism in regions of the rat brain. Food Chem.Toxicol., 29, 579-582.
Tatton,N.A. (2000) Increased caspase 3 and Bax immunoreactivity accompany nuclear GAPDH translocation and neuronal apoptosis in Parkinson's disease. Exp.Neurol., 166, 29-43.
Thiruchelvam,M., Brockel,B.J., Richfield,E.K., Baggs,R.B., and Cory-Slechta,D.A. (2000a) Potentiated and preferential effects of combined paraquat and maneb on nigrostriatal dopamine systems:
environmental risk factors for Parkinson's disease? Brain Res., 873, 225-234.
Thiruchelvam,M., Richfield,E.K., Baggs,R.B., Tank,A.W., and Cory-Slechta,D.A. (2000b) The nigrostriatal dopaminergic system as a preferential target of repeated exposures to combined paraquat and
maneb: implications for Parkinson's disease. J.Neurosci., 20, 9207-9214.
Thiruchelvam,M., Richfield,E.K., Goodman,B.M., Baggs,R.B., and Cory-Slechta,D.A. (2002) Developmental exposure to the pesticides paraquat and maneb and the Parkinson's disease phenotype.
Neurotoxicology, 23, 621-633.
Thiruchelvam,M., McCormack,A., Richfield,E.K., Baggs,R.B., Tank,A.W., Di Monte,D.A., and Cory-Slechta,D.A. (2003) Age-related irreversible progressive nigrostriatal dopaminergic neurotoxicity in
the paraquat and maneb model of the Parkinson's disease phenotype. Eur.J.Neurosci., 18, 589-600.
Tjalve,H., Henriksson,J., Tallkvist,J., Larsson,B.S., and Lindquist,N.G. (1996) Uptake of manganese and cadmium from the nasal mucosa into the central nervous system via olfactory pathways in rats.
Pharmacol.Toxicol., 79, 347-356.
Tjalve,H. and Henriksson,J. (1999) Uptake of metals in the brain via olfactory pathways. Neurotoxicology, 20, 181-195.
Tolwani,R.J., Jakowec,M.W., Petzinger,G.M., Green,S., and Waggie,K. (1999) Experimental models of Parkinson's disease: insights from many models. Lab.Anim.Sci., 49, 363-371.
Tomas-Camardiel,M., Herrera,A.J., Venero,J.L., Cruz Sanchez-Hidalgo,M., Cano,J., and Machado,A. (2002) Differential regulation of glutamic acid decarboxylase mRNA and tyrosine hydroxylase
mRNA expression in the aged manganese-treated rats. Brain Res.Mol.Brain Res., 103, 116-129.
Towbin,H., Staehelin,T., and Gordon,J. (1979) Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc.Natl.Acad.Sci.U.S.A, 76,
4350-4354.
Trojanowski,J.Q. and Lee,V.M. (2002) Parkinson's disease and related synucleinopathies are a new class of nervous system amyloidoses. Neurotoxicology, 23, 457-460.
Tuchsen,F. and Jensen,A.A. (2000) Agricultural work and the risk of Parkinson's disease in Denmark, 1981-1993. Scand.J.Work Environ.Health, 26, 359-362.
Uversky,V.N. (2004) Neurotoxicant-induced animal models of Parkinson's disease: understanding the role of rotenone, maneb and paraquat in neurodegeneration. Cell Tissue Res., 318 , 225-241.
Veldman,B.A., Wijn,A.M., Knoers,N., Praamstra,P., and Horstink,M.W. (1998) Genetic and environmental risk factors in Parkinson's disease. Clin.Neurol.Neurosurg., 100, 15-26.
Verity,M.A. (1999) Manganese neurotoxicity: a mechanistic hypothesis. Neurotoxicology, 20, 489-497.
Vitarella,D., Wong,B.A., Moss,O.R., and Dorman,D.C. (2000) Pharmacokinetics of inhaled manganese phosphate in male Sprague-Dawley rats following subacute (14-day) exposure.
Toxicol.Appl.Pharmacol., 163, 279-285.
Walker,Q.D. and Mailman,R.B. (1996) Triadimefon and triadimenol: effects on monoamine uptake and release. Toxicol.Appl.Pharmacol., 139, 227-233.
Witholt,R., Gwiazda,R.H., and Smith,D.R. (2000) The neurobehavioral effects of subchronic manganese exposure in the presence and absence of pre-parkinsonism. Neurotoxicol.Teratol., 22, 851-861.
Worley,C.G., Bombick,D., Allen,J.W., Suber,R.L., and Aschner,M. (2002) Effects of manganese on oxidative stress in CATH.a cells. Neurotoxicology, 23, 159-164.
Zayed,J., Ducic,S., Campanella,G., Panisset,J.C., Andre,P., Masson,H., and Roy,M. (1990) [Environmental factors in the etiology of Parkinson's disease]. Can.J.Neurol.Sci., 17, 286-291.
Zhang,D., He,X., Zhang,W., and Tan,J. (1998) [Effect of manganese on the growth and development of rat offspring]. Wei Sheng Yan Jiu, 27, 237-240.
Zhang,J., Fitsanakis,V.A., Gu,G., Jing,D., Ao,M., Amarnath,V., and Montine,T.J. (2003a) Manganese ethylene-bis-dithiocarbamate and selective dopaminergic neurodegeneration in rat: a link through
mitochondrial dysfunction. J.Neurochem., 84, 336-346.
Zhang,S., Zhou,Z., and Fu,J. (2003b) Effect of manganese chloride exposure on liver and brain mitochondria function in rats. Environ.Res., 93, 149-157.
Zheng,W., Zhao,Q., Slavkovich,V., Aschner,M., and Graziano,J.H. (1999) Alteration of iron homeostasis following chronic exposure to manganese in rats. Brain Res., 833, 125-132.
Zhou,Y., Shie,F.S., Piccardo,P., Montine,T.J., and Zhang,J. (2004) Proteasomal inhibition induced by manganese ethylene-bis-dithiocarbamate: relevance to Parkinson's disease. Neuroscience, 128,
281-291.
| Forside | | Indhold | | Forrige | | Top |
Version 1.0 August 2005, © Miljøstyrelsen.
|