Epidemic lead absorption near an ore smelter. The role of particulate lead.
about
Recent advances in assessment of workplace exposure - epidemiologic linkage of medical and environmental dataOccupational lead poisoning in the United States: clinical and biochemical findings related to blood lead levelsOccupational and community exposures to toxic metals: lead, cadmium, mercury and arsenicIdentification of sources of lead in children in a primary zinc-lead smelter environment.Environmental justice: building a unified vision of health and the environment.Occupational lead poisoning, animal deaths, and environmental contamination at a scrap smelterSources of lead in the urban environmentA review on the importance of metals and metalloids in atmospheric dust and aerosol from mining operationsA case report of lead paint poisoning during renovation of a Victorian farmhouseUnraveling the chronic toxicity of lead: an essential priority for environmental healthPossibilities of detecting health effects by studies of populations exposed to chemicals from waste disposal sitesRecognition and management of children with increased lead absorptionEvaluation of lead levels in children living near a Los Angeles county battery recycling facility.Soil is an important pathway of human lead exposure.High concentrations of heavy metals in neighborhoods near ore smelters in northern MexicoFollow-up screening of lead-poisoned children near an auto battery recycling plant, Haina, Dominican Republic.Age and sensitivity to lead toxicity: a review.Toxicological properties of lead.Surface soil as a potential source of lead exposure for young childrenBlood lead in the 21st Century: The sub-microgram challengeAn integrated exposure/pharmacokinetic based approach to the assessment of complex exposures. Lead: a case study.Estimating Children's Soil/Dust Ingestion Rates through Retrospective Analyses of Blood Lead Biomonitoring from the Bunker Hill Superfund Site in Idaho.A personal perspective on the initial federal health-based regulation to remove lead from gasoline.Mechanistic approaches in the study of testicular toxicity: toxicants that affect the endocrine regulation of the testis.Accumulation, elimination, sequestration, and genetic variation of lead (Pb2+) loads within and between generations of Drosophila melanogaster.Household surface lead dust: its accumulation in vacant homes.Blood lead levels in children from lower socioeconomic communities in Denver, Colorado.Is airborne lead from combustion of leaded gasoline a possible health hazard? Observations on 277 Fontana (California) area residents.Lead-contaminated drinking waters in the public schools of Philadelphia.Pathogenetic considerations of pica in lead poisoning.Urinary heavy metals in Hispanics 40-85 years old in Doña Ana County, New Mexico.The effect of soil abatement on blood lead levels in children living near a former smelting and milling operation.Environmental lead and young children.Commentary: flawed science delays smelter cleanup and worsens health.Letter to the editor regarding a study of the routes of contamination by lead and cadmium in Santo Amaro, Brazil.The rise of a Titan: Irving J. Selikoff and his campaign for independent science.A utility for organoleads: selective alkyl and aryl group transfer to tin.Elevated blood lead and erythrocyte protoporphyrin levels of children near a battery-recycling plant in Haina, Dominican Republic.Reducing lead in air and preventing childhood exposure near lead smelters: learning from the U.S. experience.[The toxicological estimation of the heavy metal content (Cd, Hg, Pb) in food for infants and small children].
P2860
Q23919543-6FF8DBC2-E90D-4AAC-82E8-293EC76611E7Q23922448-421F700D-18B4-4196-9BB1-3003016C0E40Q23922879-CEFD27FD-7DCA-491B-B360-2F88E97D696DQ24810670-3DA71DC1-5BB1-4B2A-ACBA-234E69DFFD3CQ24811802-7DBDDEBB-63FA-42E7-B906-CC6881CD3764Q26341326-BAE6E8E2-324F-411B-9ABE-A6BD6A64E5B2Q26341346-F0FBDF4C-A8B7-4490-8B8C-4977EB59191AQ26995899-2CF4B579-B918-4A2C-BC37-D513A21D69B0Q28387895-6C388B6B-059F-497C-8C82-8B7ACB4764CAQ28388703-DEC8F0C8-2976-4475-AEE2-1354F12696ACQ28391045-C3443530-DF6D-45FB-A580-48DB72A6A425Q28768101-BF9AF677-E2BB-406D-954D-5521EE4058B7Q34635559-6E58294D-99E8-4875-9CB1-4DB17A0E9122Q34940027-564CBC7A-2DDD-4043-97F3-372CB68EF1A8Q35030168-340B3AB7-F183-4191-BB4C-AADD76BAC62AQ35030655-B5768A58-2638-4932-921F-4904E23BB3A4Q35133115-D4D14F56-9AFB-4A6C-87C3-294E1218A0C8Q35133212-E71F5B72-283C-49B3-8599-98A7C7D12850Q35228501-6C332BFD-FDDD-41FF-ADA0-0338986D21CCQ35683788-78E811B8-207D-44AF-BF92-D7A1E3633578Q36924663-150B36C4-1CC0-46AB-AAA4-BB435A08DDD1Q37230316-17FA4A41-C807-44CF-BA22-336CE785E9C1Q37291831-CDBFC66E-52A3-477A-BA97-00313A988349Q38692448-F5A33517-982A-40AA-A3CD-ADB0212BB5ADQ38811792-B1525401-792F-43F1-9F19-41B58DC05F1CQ39143030-D6EAC7F5-6D72-4B18-8CFD-52072FE6DB34Q39394641-0202DDEB-AE42-4402-9695-24A81A38A055Q39448533-28056981-F592-441C-BBC5-177C329AF9FEQ39694452-7500EE7D-B3A6-40B6-B9FA-75889A3E58B5Q41039730-715E5EC7-FD62-43F0-B644-9DCF6ADFCE5DQ41051916-2F51A58F-5D5D-4B0C-9BCE-311F5D26FB4CQ41172276-F9763668-CE8E-4FA7-9A8A-73C2925CF647Q42950225-C9054093-CFC9-4FD2-8842-8BD2BD5F65C2Q43324051-2BF9F459-5713-4D3F-A420-EDDDF0C40D94Q45239871-CA565551-175C-4877-9855-4B819DB97949Q47964144-EF904974-4288-4D58-B977-DDE3EB6E7A2AQ50045978-C6463C35-CD98-4CAB-A01A-DE40B7842A18Q50108415-E6A0B4F4-3388-45EF-BBC4-95AAB9958A22Q50594499-047061A2-68D0-48F1-A9FC-391F7521CD0CQ53509328-CCA262D9-B259-42B0-9B17-B7133CC0B962
P2860
Epidemic lead absorption near an ore smelter. The role of particulate lead.
description
1975 nî lūn-bûn
@nan
1975 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1975 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1975年の論文
@ja
1975年論文
@yue
1975年論文
@zh-hant
1975年論文
@zh-hk
1975年論文
@zh-mo
1975年論文
@zh-tw
1975年论文
@wuu
name
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@ast
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@en
type
label
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@ast
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@en
prefLabel
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@ast
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@en
P2093
P1476
Epidemic lead absorption near an ore smelter. The role of particulate lead.
@en
P2093
Barthel WF
Candelaria RM
Gehlbach SH
Landrigan PJ
Rosenblum BF
Sanders JF
Shoults JM
Staehling NW
P304
P356
10.1056/NEJM197501162920302
P407
P577
1975-01-01T00:00:00Z