Published in J Toxicol Environ Health A on December 01, 2007
Carbon nanotubes degraded by neutrophil myeloperoxidase induce less pulmonary inflammation. Nat Nanotechnol (2010) 2.26
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Raw single-wall carbon nanotubes induce oxidative stress and activate MAPKs, AP-1, NF-kappaB, and Akt in normal and malignant human mesothelial cells. Environ Health Perspect (2008) 1.40
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Oxidatively damaged DNA in rats exposed by oral gavage to C60 fullerenes and single-walled carbon nanotubes. Environ Health Perspect (2008) 1.16
Adverse effects of industrial multiwalled carbon nanotubes on human pulmonary cells. J Toxicol Environ Health A (2009) 1.13
Mesothelioma: Do asbestos and carbon nanotubes pose the same health risk? Part Fibre Toxicol (2009) 1.10
Synthesis and biodistribution of oligonucleotide-functionalized, tumor-targetable carbon nanotubes. Nano Lett (2008) 1.09
A natural vanishing act: the enzyme-catalyzed degradation of carbon nanomaterials. Acc Chem Res (2012) 1.08
Long-term effects of carbon containing engineered nanomaterials and asbestos in the lung: one year postexposure comparisons. Am J Physiol Lung Cell Mol Physiol (2013) 1.01
Biodegradation of single-walled carbon nanotubes by eosinophil peroxidase. Small (2013) 1.01
In vitro genotoxicity testing strategy for nanomaterials and the adaptation of current OECD guidelines. Mutat Res (2011) 0.98
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Cytotoxicity, cytocompatibility, cell-labeling efficiency, and in vitro cellular magnetic resonance imaging of gadolinium-catalyzed single-walled carbon nanotubes. J Biomed Mater Res A (2013) 0.88
Effect of antioxidants on enzyme-catalysed biodegradation of carbon nanotubes. J Mater Chem B Mater Biol Med (2013) 0.87
Acute toxicity of intravenously administered titanium dioxide nanoparticles in mice. PLoS One (2013) 0.86
Comet assay: a method to evaluate genotoxicity of nano-drug delivery system. Bioimpacts (2011) 0.84
Appropriate in vitro methods for genotoxicity testing of silver nanoparticles. Environ Health Toxicol (2013) 0.82
Transport of metal oxide nanoparticles and single-walled carbon nanotubes in human mucus. Nanotoxicology (2011) 0.82
Intracellular fate of carbon nanotubes inside murine macrophages: pH-dependent detachment of iron catalyst nanoparticles. Part Fibre Toxicol (2013) 0.81
Nano-risk Science: application of toxicogenomics in an adverse outcome pathway framework for risk assessment of multi-walled carbon nanotubes. Part Fibre Toxicol (2016) 0.80
Pulmonary toxicity and fibrogenic response of carbon nanotubes. Toxicol Mech Methods (2013) 0.79
Effects of multiwalled carbon nanotubes and triclocarban on several eukaryotic cell lines: elucidating cytotoxicity, endocrine disruption, and reactive oxygen species generation. Nanoscale Res Lett (2014) 0.77
Potential Occupational Risks Associated with Pulmonary Toxicity of Carbon Nanotubes. Occup Med Health Aff (2015) 0.77
Comparative and mechanistic genotoxicity assessment of nanomaterials via a quantitative toxicogenomics approach across multiple species. Environ Sci Technol (2014) 0.76
Cytotoxicity and genotoxicity of panel of single- and multiwalled carbon nanotubes: in vitro effects on normal Syrian hamster embryo and immortalized v79 hamster lung cells. J Toxicol (2014) 0.76
Biodegradation of Single-Walled Carbon Nanotubes in Macrophages through Respiratory Burst Modulation. Int J Mol Sci (2016) 0.76
Cytogenetic evaluation of functionalized single-walled carbon nanotube in mice bone marrow cells. Environ Toxicol (2015) 0.76
Behavior and Potential Impacts of Metal-Based Engineered Nanoparticles in Aquatic Environments. Nanomaterials (Basel) (2017) 0.75
Unusual inflammatory and fibrogenic pulmonary responses to single-walled carbon nanotubes in mice. Am J Physiol Lung Cell Mol Physiol (2005) 7.28
Principles for characterizing the potential human health effects from exposure to nanomaterials: elements of a screening strategy. Part Fibre Toxicol (2005) 6.04
Exposure to carbon nanotube material: aerosol release during the handling of unrefined single-walled carbon nanotube material. J Toxicol Environ Health A (2004) 3.96
A review of carbon nanotube toxicity and assessment of potential occupational and environmental health risks. Crit Rev Toxicol (2006) 3.52
Mouse pulmonary dose- and time course-responses induced by exposure to multi-walled carbon nanotubes. Toxicology (2009) 3.52
Exposure to carbon nanotube material: assessment of nanotube cytotoxicity using human keratinocyte cells. J Toxicol Environ Health A (2003) 2.82
Evaluating the toxicity of airborne particulate matter and nanoparticles by measuring oxidative stress potential--a workshop report and consensus statement. Inhal Toxicol (2008) 2.53
Systemic microvascular dysfunction and inflammation after pulmonary particulate matter exposure. Environ Health Perspect (2006) 2.38
Carbon nanotubes degraded by neutrophil myeloperoxidase induce less pulmonary inflammation. Nat Nanotechnol (2010) 2.26
Lipid accumulation and dendritic cell dysfunction in cancer. Nat Med (2010) 2.21
Pulmonary fibrotic response to aspiration of multi-walled carbon nanotubes. Part Fibre Toxicol (2011) 2.08
Distribution and persistence of pleural penetrations by multi-walled carbon nanotubes. Part Fibre Toxicol (2010) 2.05
Targeting mitochondria. Acc Chem Res (2008) 2.03
Cytochrome c/cardiolipin relations in mitochondria: a kiss of death. Free Radic Biol Med (2009) 2.00
Surface modification of Sylgard-184 poly(dimethyl siloxane) networks by ultraviolet and ultraviolet/ozone treatment. J Colloid Interface Sci (2002) 1.84
Cyanidin-3-glucoside, a natural product derived from blackberry, exhibits chemopreventive and chemotherapeutic activity. J Biol Chem (2006) 1.78
Quantitative techniques for assessing and controlling the dispersion and biological effects of multiwalled carbon nanotubes in mammalian tissue culture cells. ACS Nano (2010) 1.78
Particulate matter exposure impairs systemic microvascular endothelium-dependent dilation. Environ Health Perspect (2004) 1.77
Decreased dissolution of ZnO by iron doping yields nanoparticles with reduced toxicity in the rodent lung and zebrafish embryos. ACS Nano (2011) 1.75
Surface area of particle administered versus mass in determining the pulmonary toxicity of ultrafine and fine carbon black: comparison to ultrafine titanium dioxide. Part Fibre Toxicol (2009) 1.74
Dispersal state of multiwalled carbon nanotubes elicits profibrogenic cellular responses that correlate with fibrogenesis biomarkers and fibrosis in the murine lung. ACS Nano (2011) 1.74
The effect of 3D hydrogel scaffold modulus on osteoblast differentiation and mineralization revealed by combinatorial screening. Biomaterials (2010) 1.71
Acute pulmonary dose-responses to inhaled multi-walled carbon nanotubes. Nanotoxicology (2012) 1.70
Therapeutic hypothermia preserves antioxidant defenses after severe traumatic brain injury in infants and children. Crit Care Med (2009) 1.70
S-nitrosoalbumin-mediated relaxation is enhanced by ascorbate and copper: effects in pregnancy and preeclampsia plasma. Hypertension (2004) 1.69
Titanium dioxide nanoparticles: a review of current toxicological data. Part Fibre Toxicol (2013) 1.67
Pulmonary response to intratracheal instillation of ultrafine versus fine titanium dioxide: role of particle surface area. Part Fibre Toxicol (2008) 1.66
Meeting report: hazard assessment for nanoparticles--report from an interdisciplinary workshop. Environ Health Perspect (2007) 1.64
Peroxidase activity and structural transitions of cytochrome c bound to cardiolipin-containing membranes. Biochemistry (2006) 1.62
Concept of assessing nanoparticle hazards considering nanoparticle dosemetric and chemical/biological response metrics. J Toxicol Environ Health A (2010) 1.61
Biodegradation of single-walled carbon nanotubes through enzymatic catalysis. Nano Lett (2008) 1.60
Sequential exposure to carbon nanotubes and bacteria enhances pulmonary inflammation and infectivity. Am J Respir Cell Mol Biol (2007) 1.60
Lipidomics identifies cardiolipin oxidation as a mitochondrial target for redox therapy of brain injury. Nat Neurosci (2012) 1.58
Pulmonary nanoparticle exposure disrupts systemic microvascular nitric oxide signaling. Toxicol Sci (2009) 1.55
Respiratory toxicologic pathology of inhaled diacetyl in sprague-dawley rats. Toxicol Pathol (2008) 1.54
Time course for inhibition of lipopolysaccharide-induced lung injury by genistein: relationship to alteration in nuclear factor-kappaB activity and inflammatory agents. Crit Care Med (2003) 1.52
Interlaboratory evaluation of rodent pulmonary responses to engineered nanomaterials: the NIEHS Nano GO Consortium. Environ Health Perspect (2013) 1.52
Mitochondrial targeting of selective electron scavengers: synthesis and biological analysis of hemigramicidin-TEMPO conjugates. J Am Chem Soc (2005) 1.50
Hexavalent chromium content in stainless steel welding fumes is dependent on the welding process and shield gas type. J Environ Monit (2008) 1.50
Cerium oxide nanoparticle-induced pulmonary inflammation and alveolar macrophage functional change in rats. Nanotoxicology (2010) 1.50
Confirmation of gene expression-based prediction of survival in non-small cell lung cancer. Clin Cancer Res (2008) 1.49
Nanoparticle inhalation augments particle-dependent systemic microvascular dysfunction. Part Fibre Toxicol (2008) 1.49
Starving neurons show sex difference in autophagy. J Biol Chem (2008) 1.49
Thioredoxin and lipoic acid catalyze the denitrosation of low molecular weight and protein S-nitrosothiols. J Am Chem Soc (2005) 1.45
Mechanisms of carbon nanotube-induced toxicity: focus on oxidative stress. Toxicol Appl Pharmacol (2012) 1.45
Direct fibrogenic effects of dispersed single-walled carbon nanotubes on human lung fibroblasts. J Toxicol Environ Health A (2010) 1.45
Sharpening the focus on occupational safety and health in nanotechnology. Scand J Work Environ Health (2008) 1.44
Cis-4-[(18)F]fluoro-L-proline PET imaging of pulmonary fibrosis in a rabbit model. J Nucl Med (2002) 1.43
An in vivo and in vitro toxicological characterisation of realistic nanoscale CeO₂ inhalation exposures. Nanotoxicology (2012) 1.43
Assessment of antioxidant reserves and oxidative stress in cerebrospinal fluid after severe traumatic brain injury in infants and children. Pediatr Res (2002) 1.42
Iron oxide nanoparticles induce human microvascular endothelial cell permeability through reactive oxygen species production and microtubule remodeling. Part Fibre Toxicol (2009) 1.41
The multiple functions of cytochrome c and their regulation in life and death decisions of the mammalian cell: From respiration to apoptosis. Mitochondrion (2011) 1.40
Raw single-wall carbon nanotubes induce oxidative stress and activate MAPKs, AP-1, NF-kappaB, and Akt in normal and malignant human mesothelial cells. Environ Health Perspect (2008) 1.40
Inhibition of activator protein-1, NF-kappaB, and MAPKs and induction of phase 2 detoxifying enzyme activity by chlorogenic acid. J Biol Chem (2005) 1.39
A mitochondria-targeted nitroxide/hemigramicidin S conjugate protects mouse embryonic cells against gamma irradiation. Int J Radiat Oncol Biol Phys (2008) 1.39
Dispersion of single-walled carbon nanotubes by a natural lung surfactant for pulmonary in vitro and in vivo toxicity studies. Part Fibre Toxicol (2010) 1.38
Cardiolipin switch in mitochondria: shutting off the reduction of cytochrome c and turning on the peroxidase activity. Biochemistry (2007) 1.36
Structural requirements for optimized delivery, inhibition of oxidative stress, and antiapoptotic activity of targeted nitroxides. J Pharmacol Exp Ther (2006) 1.36
Mechanistic investigations of horseradish peroxidase-catalyzed degradation of single-walled carbon nanotubes. J Am Chem Soc (2009) 1.34
Distribution and fibrotic response following inhalation exposure to multi-walled carbon nanotubes. Part Fibre Toxicol (2013) 1.33
Macrophage recognition of externalized phosphatidylserine and phagocytosis of apoptotic Jurkat cells--existence of a threshold. Arch Biochem Biophys (2003) 1.33
Carbon nanotube dosimetry: from workplace exposure assessment to inhalation toxicology. Part Fibre Toxicol (2013) 1.33
Multiwalled carbon nanotubes induce a fibrogenic response by stimulating reactive oxygen species production, activating NF-κB signaling, and promoting fibroblast-to-myofibroblast transformation. Chem Res Toxicol (2011) 1.32
Impaired clearance and enhanced pulmonary inflammatory/fibrotic response to carbon nanotubes in myeloperoxidase-deficient mice. PLoS One (2012) 1.32
Vacuolar leukoencephalopathy with widespread astrogliosis in mice lacking transcription factor Nrf2. Am J Pathol (2007) 1.31
Respiratory and olfactory cytotoxicity of inhaled 2,3-pentanedione in Sprague-Dawley rats. Am J Pathol (2012) 1.30
Extrapulmonary transport of MWCNT following inhalation exposure. Part Fibre Toxicol (2013) 1.29
Two strategies for the development of mitochondrion-targeted small molecule radiation damage mitigators. Int J Radiat Oncol Biol Phys (2011) 1.29
Selective early cardiolipin peroxidation after traumatic brain injury: an oxidative lipidomics analysis. Ann Neurol (2007) 1.29
Occupational toxicology of nickel and nickel compounds. J Environ Pathol Toxicol Oncol (2009) 1.27
Close encounters of the small kind: adverse effects of man-made materials interfacing with the nano-cosmos of biological systems. Annu Rev Pharmacol Toxicol (2010) 1.27
A mitochondria-targeted triphenylphosphonium-conjugated nitroxide functions as a radioprotector/mitigator. Radiat Res (2009) 1.26
Design, construction, and characterization of a novel robotic welding fume generator and inhalation exposure system for laboratory animals. J Occup Environ Hyg (2006) 1.26
The microRNA-200 family targets multiple non-small cell lung cancer prognostic markers in H1299 cells and BEAS-2B cells. Int J Oncol (2013) 1.25
Enhanced oxidative stress in iNOS-deficient mice after traumatic brain injury: support for a neuroprotective role of iNOS. J Cereb Blood Flow Metab (2005) 1.23
Cross-talk between lung and systemic circulation during carbon nanotube respiratory exposure. Potential biomarkers. Nano Lett (2009) 1.22
Oxidative stress in immature brain after traumatic brain injury. Dev Neurosci (2006) 1.22
Bench-to-bedside review: Mitochondrial injury, oxidative stress and apoptosis--there is nothing more practical than a good theory. Crit Care (2008) 1.22