ABSTRACT
BACKGROUND: Petcoke is a remnant of the oil refining process that contains Ni and other heavy metals. Undesired human exposure to these compounds may result from petcoke combustion in plants located in the vicinity of the cities. AIM: To compare levels of urinary Ni in schoolchildren residing in cities exposed and not exposed to petcoke pollution. MATERIAL AND METHODS: A cross sectional study was done in schoolchildren aged 7 to 8 years old in two cities in northern Chile: Mejillones (n = 59), near to a petcoke plant, and Tocopilla (n = 56) as the reference city. First, morning urinary samples were collected and urinary Ni was determined by Atomic Absorption Spectrometry. Socioeconomic and environmental exposure information of families was obtained applying a questionnaire to parents. Multiple linear regression was performed to identify other variables that may explain urinary Ni differences among the cities. RESULTS: Median level of Ni was higher in Mejillones (4.9 fig/L) than in Tocopilla (3.9 fig/L). Residing in the exposed city was the most important explaining factor (B = 0.26; IC 0.107 - 0.428). Additionally years of residency was associated with urinary Ni (B = 0.03; IC 0.004 - 0.060). CONCLUSIONS: Urinary Ni in schoolchildren is higher in the city exposed to petcoke emissions. The difference does not imply that there are concrete hazards for the population's health. However, it warns about the existence of a higher exposure in places where petcoke is used.
Subject(s)
Coke/toxicity , Environmental Health , Environmental Pollutants/urine , Environmental Pollution/adverse effects , Nickel/urine , Particulate Matter/chemistry , Child , Chile , Cross-Sectional Studies , Health Surveys , Humans , Nickel/toxicity , Risk Factors , Socioeconomic FactorsABSTRACT
Background: Petcoke is a remmant of the oil refiningprocess that contains Ni and other heavy metáis. Undesired human exposure to these compounds may result from petcoke combustión in plants located in the vicinity ofthe cities. Aim: To compare levéis of urinary Ni in schoolchildren residing in cities exposed and not exposed to petcoke pollution. Material and methods: A cross sectional study was done in schoolchildren aged 7 to 8 years oíd in two cities in northern Chile: Mejillones (n = 59), near to a petcoke plant and Tocopilla (n = 56) as the reference city. First, morning urinary samples were collected and urinary Ni was determined by Atomic Absorption Spectrometry. Socioeconomic and environmental exposure information of families was obtained applying a questionnaire to parents. Múltiple linear regression was performed to identify other variables that may explain urinary Ni differences among the cities. Results: Median level of Ni was higher in Mejillones (4.9 fig/L) than in Tocopilla (3.9 fig/L). Residing in the exposed city was the most important explaining factor (B = 0.26; IC 0.107 - 0.428). Additionally years of residency was associated with urinary Ni (B = 0.03; IC 0.004 - 0.060). Conclusions: Urinary Ni in schoolchildren is higher in the city exposed to petcoke emissions. The difference does not imply that there are concrete hazards for the population s health. However, it warns about the existence of a higher exposure in places where petcoke is used.
Subject(s)
Child , Humans , Coke/toxicity , Environmental Health , Environmental Pollutants/urine , Environmental Pollution/adverse effects , Nickel/urine , Particulate Matter/chemistry , Chile , Cross-Sectional Studies , Health Surveys , Nickel/toxicity , Risk Factors , Socioeconomic FactorsABSTRACT
Background: Lactating children are specially susceptible to lead toxicity due to their underdeveloped nervous system, lower body mass, higher intestinal absorption and lower elimination rates. Aim: To determine the effects of lead exposure, comparing Chilean lactating children residing in rural areas with low lead exposure, and in urban areas with high lead exposure. Material and methods: Newborns from public maternity hospitals of the rural locality of San Felipe and from Metropolitan Santiago, were recruited for the study. On admission to the study, umbilical cord and maternal blood samples were obtained and an inquiry about perinatal, sociohereditary and lead exposure history was done. Children were followed every 6 months until 24 months of age, measuring blood parameters and neurobehavioral development using Bayley scales. Results: Three hundred twelve children from Santiago and 113 from San Felipe were studied. Maternal and children blood lead levels were higher in Santiago, but lower than those reported in other international studies. At 24 months of age, 4.5 percent of children from Santiago and 0.7 percent of children from San Felipe had levels over 10 µg/dl. No differences in neurobehavioral development were observed between children of both cities. At 24 months, scores of MDI scales were 91 in Santiago and 97 in San Felipe. The figures for PDI scale were 93 in Santiago and 93 in San Felipe. Main risk factors for a retarded neurobehavioral development were socioeconomic level with a mean Odds ratio of 3.5 (0.99-12.4), male sex with an Odds ratio of 2.3 (1.09-5.07) and stimulation at home with an Odds ratio of 0.7 (0.53-0.82. Conclusions: In this cohort of children, no effect of lead levels on neurobehavioral development was found
Subject(s)
Humans , Infant , Infant, Newborn , Lead Poisoning/diagnosis , Psychomotor Performance , Environmental Exposure/adverse effects , Child Development/drug effects , Neonatal Screening , Lead/blood , Lead Poisoning/psychology , Lead Poisoning/blood , Socioeconomic Factors , Rural Population , Urban PopulationABSTRACT
Background: in Chile, there are several sources of environmental lead exposure. However, the few studies about lead levels in Chilean infants, do not allow to establish the prevalence of high lead in this population. Aim: to measure blood lead levels in nursing infants, living in rural and urban areas, from birth until two years of age. Subjects and methods: newborns from public maternity hospitals in Santiago and a rural area were selected for the study. An umbilical cord blood sample was obtained at bird and venous blood samples thereafter, every 6 months until the age of 24 months. Lead levels were measured by atomic absorption spectrophotometry atmospheric lead was measured simultaneously every week in Santiago and the rural area. Results: three hundred twelve children from Santiago and 113 from the rural area completed the 24 months follow-up. The mean lead exposure for infants living in Santiago and in the rural area was 1.23 ñ 0.66 and 0.19 ñ 0.15 µg/m3 respective (p < 0.001). Mean blood levels were always higher in infants from Santiago, compared to those from the rural area. At 24 months, 4,5 percent of children from Santiago and 0,7 percent of children from the rural area had blood lead levels over 10 µg/dl. Significant risk factors for high lead levels were recent paining of the house where the infant lives, eating soil bitting banisters and familiar labor exposure to lead. Conclusions: infants living in an urban area and exposed to increased atmospheric lead levels have higher blood lead levels than infants living in a rural area
Subject(s)
Humans , Male , Female , Infant , Lead Poisoning/diagnosis , Environmental Exposure/analysis , Environmental Monitoring , Risk Factors , Follow-Up Studies , Lead/blood , Rural Population/statistics & numerical data , Urban Population/statistics & numerical dataABSTRACT
La intoxicación por plomo en los niños es una enfermedad provocada por el hombre. En Chile la magnitud del problema no ha sido medida. En E.U.A. se ha estimado que aproximadamente 4% de los niños tienen concentraciones sanguíneas de plomo elevadas, ascendiendo esta cifra a 18% de los niños negros pobres. Las principales fuentes de plomo que causan intoxicación sintomática son las pinturas plomadas utilizadas en el interior y exterior de las casas; el aire contaminado debido al uso de gasolina plomada y emisiones industriales; la tierra y polvo a los que el plomo puede ser transferido desde cualquier fuente; los alimentos y el agua contaminada; barnices plomados usados en cerámicas y otras fuentes ocupacionales. El plomo produce efectos neurológicos (hiperactividad, trastornos de la atención, retardo del desarrollo intelectual), psicológicos (trastornos conductuales), hematológicos (reducción de la síntesis del grupo Hem, anemia), metabólicos (reducción en la concentración de 1 a 25 dihidroxivitamina D y trastornos en el metabolismo de la pirimidina eritrocitaria). Nuevos datos sugieren que la exposición prenatal al plomo se podría relacionar con anormalidades congénitas menores, retardo del crecimiento y tumores renales