Aluviones y resiliencia en Atacama: construyendo saberes sobre riesgos y desastres

Metales y metaloides en muestras de polvo depositado en diferentes sectores de Atacama 195 González-Puebla E, González-Horta C, Infante-Ramírez R, Sanin LH, Levario-Carrillo M, Sánchez- Ramírez B. (2012) .Altered expressions of MMP-2, MMP-9, and TIMP-2 in placentas from wo- men exposed to lead. Human and Experimental Toxicology 31 : 662-670. Grandjean P, Jensen BM, Sando SH, Jorgensen PJ, Antonsen S. (1989). Delayed blood regeneration in lead exposure: an effect on reserve capacity. American Journal of Public Health 79 : 1385- 1388. Graziano JH, Slavkovic V, Factor-Litvak P, Popovac D, Ahmedi X, Mehmeti A. (1991). Depressed serum erythropoietin in pregnant women with elevated blood lead. Archives of Environmen- tal Health 46: 347-350. Guerra-Tamayo JL, Hernández-Cadena L, Tellez-Rojo MM, Mercado-García AS, Solano-González M, Hernández-Avila M, Hu H. (2003). Tiempo para el embarazo y exposición a plomo. Salud Pública México 45 Suppl 2: S189–S195. Hamadani JD, Tofail F, Nermell B, Gardner R, Shiraji S, Bottai M, Arifeen SE, Huda SN, Vahter M. (2011). Critical windows of exposure for arsenic-associated impairment of cognitive function in pre-school girls and boys: a population-based cohort study. International Journal of Epide- miology 40 : 1593-604. Hansen JM, Zhang H, Jones DP. Differential oxidation of thioredoxin-1, thioredoxin-2, and glu- tathione by metal ions (2006). Free Radical Molecular Medicine 40 : 138-145. Hsieh TJ, Chen YC, Li CW, Liu GC, Chiu YW, Chuang HY (2009). A proton magnetic resonance spec- troscopy study of the chronic lead effect on the Basal ganglion and frontal and occipital lobes in middle-age adults. Environmental Health Perspectives 117 : 941-945. Jackson HC & Kitchen I. (1989). Perinatal lead exposure impairs opioid but not non-opioid stress- induced antinociception in developing rats. British Journal of Pharmacology 97: 1338–1342. Kitchen I & Kelly M. (1993). Effect of perinatal lead treatment on morphine dependence in the adult rat. Neurotoxicology 14 : 125-129. Massaro TF, Miller GD, Massaro EJ. (1986). Low-level lead exposure affects latent learning in the rat. Neurobehavioral Toxicology and Teratology 8 : 109–113. McDowell & Kitchen I. (1988). Perinatal lead exposure alters the development of δ - but not μ-opioid receptors in rat brain. British Journal of Pharmacology 94 : 933-937. Nation JR, Cardon AL, Heard HM, Valles R, Bratton GR. (2003). Perinatal lead exposure and relapse to drug-seeking behavior in the rat: a cocaine reinstatement study. Psychopharmacology 168 : 236-243. Nation JR, Smith KR, Bratton GR. (2004). Early developmental lead exposure increases sensitivity to cocaine in a self-administration paradigm. Pharmacology Biochemistry and Behavior 77: 127-135. Needleman H, Gunnoe C, Leviton A, Reed M, Peresie H, Maher C, Barrett P. ( 1979). Deficits in psychological and classroom performance of children with elevated dentine lead levels. The New England Journal of Medicine 300 : 689-695. Needleman HL & Landrigan PJ. (1981). The health effects of low level exposure to lead. Annual Review of Public Health 2: 277-298. Needleman HL, Schell A, Bellinger D, Leviton A y Allred EN. (1990). The long-term effects of expo- sure to low doses of lead in childhood. An 11-year follow-up report . The New England Journal of Medicine 322 : 83–88. Needleman HL, Riess JA, Tobin MJ, Biesecker GE, Greenhouse JB. (1996). Bone lead levels and de- linquent behavior. Journal of the Americal Medical Association 275 : 363-369.