Health hazards of child labor in the leather products and surgical instrument manufacturing industries of Sialkot, Pakistan.

[1]  L. Claudio,et al.  Cognitive performance among cohorts of children exposed to a waste disposal site containing heavy metals in Chile , 2017, International journal of environmental health research.

[2]  L. Vimercati,et al.  Non-occupational exposure to heavy metals of the residents of an industrial area and biomonitoring , 2016, Environmental Monitoring and Assessment.

[3]  K. Kordas,et al.  The Relation Between Low-Level Lead Exposure and Oxidative Stress: a Review of the Epidemiological Evidence in Children and Non-Occupationally Exposed Adults , 2016, Current Environmental Health Reports.

[4]  J. Leskinen,et al.  Physicochemical Characterization of Aerosol Generated in the Gas Tungsten Arc Welding of Stainless Steel. , 2016, The Annals of occupational hygiene.

[5]  Yi-Xin Wang,et al.  Associations of urinary metal levels with serum hormones, spermatozoa apoptosis and sperm DNA damage in a Chinese population. , 2016, Environment international.

[6]  R. N. Malik,et al.  Toxicity and oxidative stress induced by chromium in workers exposed from different occupational settings around the globe: A review , 2016, Environmental Science and Pollution Research.

[7]  R. N. Malik,et al.  Evaluating levels and health risk of heavy metals in exposed workers from surgical instrument manufacturing industries of Sialkot, Pakistan , 2016, Environmental Science and Pollution Research.

[8]  F. Cavaleri,et al.  Review of Amyotrophic Lateral Sclerosis, Parkinson's and Alzheimer's diseases helps further define pathology of the novel paradigm for Alzheimer's with heavy metals as primary disease cause. , 2015, Medical hypotheses.

[9]  A. Hursthouse,et al.  The Potential of Sequential Extraction in the Characterisation and Management of Wastes from Steel Processing: A Prospective Review , 2015, International journal of environmental research and public health.

[10]  Mauro Fasola,et al.  Human exposure to toxic metals via contaminated dust: Bio-accumulation trends and their potential risk estimation. , 2015, Chemosphere.

[11]  S. A. Lyon Measuring children’s work in South Asia: Perspectives from national household surveys , 2015 .

[12]  Heqing Shen,et al.  Toxic metals signature in the human seminal plasma of Pakistani population and their potential role in male infertility , 2015, Environmental Geochemistry and Health.

[13]  T. Nawrot,et al.  Metal exposure in schoolchildren and working children. A urinary biomonitoring study from Lahore, Pakistan. , 2014, International journal of hygiene and environmental health.

[14]  H. Lian,et al.  Magnetic solid-phase extraction combined with graphite furnace atomic absorption spectrometry for speciation of Cr(III) and Cr(VI) in environmental waters. , 2013, Talanta.

[15]  R. N. Malik,et al.  Heavy metals distribution and risk assessment in soils affected by tannery effluents , 2013 .

[16]  F. Khan,et al.  Toxic effects of chromium on tannery workers at Sialkot (Pakistan) , 2013, Toxicology and industrial health.

[17]  Perihan Binnur Kurt-Karakus,et al.  Determination of heavy metals in indoor dust from Istanbul, Turkey: estimation of the health risk. , 2012, Environment international.

[18]  Yang Liu,et al.  Human Exposure Pathways of Heavy Metals in a Lead-Zinc Mining Area, Jiangsu Province, China , 2012, PloS one.

[19]  K. Malik,et al.  The Constraints to Industry in Punjab, Pakistan , 2012 .

[20]  Jichun Wu,et al.  Bioaccessibility and health risk of arsenic and heavy metals (Cd, Co, Cr, Cu, Ni, Pb, Zn and Mn) in TSP and PM2.5 in Nanjing, China , 2012 .

[21]  T. Nawrot,et al.  Adverse Health Effects of Child Labor: High Exposure to Chromium and Oxidative DNA Damage in Children Manufacturing Surgical Instruments , 2012, Environmental health perspectives.

[22]  M. Valko,et al.  Advances in metal-induced oxidative stress and human disease. , 2011, Toxicology.

[23]  T. Kazi,et al.  Levels of Arsenic, Cadmium, Lead, Manganese and Zinc in Biological Samples of Paralysed Steel Mill Workers with Related to Controls , 2011, Biological Trace Element Research.

[24]  B. Halliwell Free radicals and antioxidants - quo vadis? , 2011, Trends in pharmacological sciences.

[25]  M. Ahamed,et al.  Environmental lead exposure as a risk for childhood aplastic anemia. , 2011, Bioscience trends.

[26]  Antonio F. Hernández,et al.  Biomonitorization of cadmium, chromium, manganese, nickel and lead in whole blood, urine, axillary hair and saliva in an occupationally exposed population. , 2011, The Science of the total environment.

[27]  H. Bartoń Advantages of the Use of Deciduous Teeth, Hair, and Blood Analysis for Lead and Cadmium Bio-Monitoring in Children. A Study of 6-Year-Old Children from Krakow (Poland) , 2010, Biological Trace Element Research.

[28]  S. Flora,et al.  Chelation in Metal Intoxication , 2010, International journal of environmental research and public health.

[29]  R. N. Malik,et al.  Metal contamination of surface soils of industrial city Sialkot, Pakistan: a multivariate and GIS approach , 2010, Environmental geochemistry and health.

[30]  Na Zheng,et al.  Health risk assessment of heavy metal exposure to street dust in the zinc smelting district, Northeast of China. , 2010, The Science of the total environment.

[31]  J. Angerer,et al.  Revised and new reference values for environmental pollutants in urine or blood of children in Germany derived from the German environmental survey on children 2003-2006 (GerES IV). , 2009, International journal of hygiene and environmental health.

[32]  A. Prasad,et al.  Zinc: role in immunity, oxidative stress and chronic inflammation , 2009, Current opinion in clinical nutrition and metabolic care.

[33]  M F Colmenarejo,et al.  Heavy metals removal from acid mine drainage water using biogenic hydrogen sulphide and effluent from anaerobic treatment: effect of pH. , 2009, Journal of hazardous materials.

[34]  Marta Esteban,et al.  Non-invasive matrices in human biomonitoring: a review. , 2009, Environment international.

[35]  R. N. Malik,et al.  Assessment of groundwater contamination in an industrial city, Sialkot, Pakistan , 2009 .

[36]  M. Ahamed,et al.  Oxidative stress and neurological disorders in relation to blood lead levels in children , 2008, Redox report : communications in free radical research.

[37]  Riffat Naseem Malik,et al.  Spatio-temporal variations in water quality of Nullah Aik-tributary of the river Chenab, Pakistan , 2008, Environmental monitoring and assessment.

[38]  J. Strain,et al.  Marginal copper deficiency and atherosclerosis , 2007, Biological Trace Element Research.

[39]  M. Ahamed,et al.  Delta-aminolevulinic acid dehydratase inhibition and oxidative stress in relation to blood lead among urban adolescents , 2006, Human & experimental toxicology.

[40]  M. Bhutta Fair trade for surgical instruments , 2006, BMJ : British Medical Journal.

[41]  J. Tanus-Santos,et al.  A Critical Review of Biomarkers Used for Monitoring Human Exposure to Lead: Advantages, Limitations, and Future Needs , 2005, Environmental health perspectives.

[42]  C. Fraga,et al.  Relevance, essentiality and toxicity of trace elements in human health. , 2005, Molecular aspects of medicine.

[43]  S. Wilbur,et al.  Toxicological profile for nickel , 2005 .

[44]  Archana P Kumar,et al.  Environmental exposure to lead and its correlation with biochemical indices in children. , 2005, The Science of the total environment.

[45]  R. Ribeiro,et al.  Scalp hair analysis as a tool in assessing human exposure to heavy metals (S. Domingos mine, Portugal). , 2004, The Science of the total environment.

[46]  M. Linnainmaa,et al.  Dermal exposure to chromium in the grinding of stainless and acid-proof steel. , 2004, The Annals of occupational hygiene.

[47]  J. Freedman,et al.  Copper-inducible transcription: regulation by metal- and oxidative stress-responsive pathways. , 2004, American journal of physiology. Cell physiology.

[48]  A. Boneh,et al.  Pamidronate treatment improves bone mineral density in children with Menkes disease , 2002, Journal of Inherited Metabolic Disease.

[49]  L. Winn Homologous recombination initiated by benzene metabolites: a potential role of oxidative stress. , 2003, Toxicological sciences : an official journal of the Society of Toxicology.

[50]  C. Fraga,et al.  Iron toxicity and antioxidant nutrients. , 2002, Toxicology.

[51]  T. Mariani,et al.  Superoxide dismutase multigene family: a comparison of the CuZn-SOD (SOD1), Mn-SOD (SOD2), and EC-SOD (SOD3) gene structures, evolution, and expression. , 2002, Free radical biology & medicine.

[52]  E. Hossny,et al.  Environmental exposure of the pediatric age groups in Cairo City and its suburbs to cadmium pollution. , 2001, The Science of the total environment.

[53]  S. Caroli,et al.  Application of routine estimation of Pb isotopic ratios by inductively coupled plasma mass spectrometry for studying the Pb origin in hair of children living in polluted areas. A pilot study , 2000 .

[54]  Y. S. Diniz,et al.  TOXIC MECHANISM OF CADMIUM EXPOSURE ON CARDIAC TISSUE , 2000 .

[55]  J. Nielsen,et al.  Plasma malondialdehyde as biomarker for oxidative stress : reference interval and effects of life-style factors , 1996 .

[56]  J. Staessen,et al.  Impact of environmental cadmium pollution on cadmium exposure and body burden. , 1992, Archives of environmental health.

[57]  Y. Sun,et al.  A simple method for clinical assay of superoxide dismutase. , 1988, Clinical chemistry.

[58]  A. Tossavainen,et al.  Exceptional pharmacokinetics of trivalent chromium during occupational exposure to chromium lignosulfonate dust. , 1983, Scandinavian journal of work, environment & health.

[59]  I. Fridovich,et al.  Superoxide dismutase: improved assays and an assay applicable to acrylamide gels. , 1971, Analytical biochemistry.

[60]  B. Brodie,et al.  Ascorbic acid in aromatic hydroxylation. I. A model system for aromatic hydroxylation. , 1954, The Journal of biological chemistry.