about
Design of a novel instrumentation for measurement of blood flow while gripping a handleCarbon nanotube dosimetry: from workplace exposure assessment to inhalation toxicologyDevelopment and characterization of a resistance spot welding aerosol generator and inhalation exposure systemNanotechnology: toxicologic pathologyClassification of voluntary cough sound and airflow patterns for detecting abnormal pulmonary functionMulti-walled carbon nanotubes: sampling criteria and aerosol characterizationmRNAs and miRNAs in whole blood associated with lung hyperplasia, fibrosis, and bronchiolo-alveolar adenoma and adenocarcinoma after multi-walled carbon nanotube inhalation exposure in miceA model of the recruitment-derecruitment and volume of lung units in an excised lung as it is inflated-deflated between minimum and maximum lung volumeAcute pulmonary dose-responses to inhaled multi-walled carbon nanotubesModel predictions of the recruitment of lung units and the lung surface area-volume relationship during inflation.Design, construction, and characterization of a novel robotic welding fume generator and inhalation exposure system for laboratory animalsEvaluation of pulmonary and systemic toxicity of oil dispersant (COREXIT EC9500A®) following acute repeated inhalation exposurePulmonary effects after acute inhalation of oil dispersant (COREXIT EC9500A) in ratsPulmonary and cardiovascular responses of rats to inhalation of silver nanoparticlesModifying welding process parameters can reduce the neurotoxic potential of manganese-containing welding fumesNeurotoxicity following acute inhalation exposure to the oil dispersant COREXIT EC9500ANeurotoxicity following acute inhalation of aerosols generated during resistance spot weld-bonding of carbon steelAcute effects of COREXIT EC9500A on cardiovascular functions in ratsHyperthyroidism increases the risk of ozone-induced lung toxicity in ratsIncreased susceptibility of the lungs of hyperthyroid rats to oxidant injury: specificity of effectsIncreased susceptibility of hyperthyroid rats to ozone: early events and mechanismsPromotion of lung adenocarcinoma following inhalation exposure to multi-walled carbon nanotubesEffects of acute inhalation of aerosols generated during resistance spot welding with mild-steel on pulmonary, vascular and immune responses in ratsAn in vivo and in vitro toxicological characterisation of realistic nanoscale CeO2 inhalation exposuresImpairment of coronary arteriolar endothelium-dependent dilation after multi-walled carbon nanotube inhalation: a time-course studyMolecular insights into the progression of crystalline silica-induced pulmonary toxicity in ratsBlood gene expression profiling detects silica exposure and toxicityTranscriptomics analysis of lungs and peripheral blood of silica-exposed ratsDistribution and fibrotic response following inhalation exposure to multi-walled carbon nanotubesExtrapulmonary transport of MWCNT following inhalation exposurePulmonary and cardiovascular responses of rats to inhalation of a commercial antimicrobial spray containing titanium dioxide nanoparticlesA system for recording high fidelity cough sound and airflow characteristicsThe influence of inhaled multi-walled carbon nanotubes on the autonomic nervous systemComputer-controlled ozone inhalation exposure systemComputer controlled multi-walled carbon nanotube inhalation exposure systemComputer-automated silica aerosol generator and animal inhalation exposure systemAsymmetric and axisymmetric constant curvature liquid-gas interfaces in pulmonary airways.A computer-controlled whole-body inhalation exposure system for the oil dispersant COREXIT EC9500AInhalation of multi-walled carbon nanotubes affects lung resistance and compliance and evokes airway hyperreactivity to methacholine in ratsDevelopment and characterization of a murine model of repeated dry exposure to aerosolized fungal conidia
P50
Q23909377-807A755A-5CB9-4C82-A66C-502A5D4D731DQ23909542-333CDCFB-40D6-446A-9FFE-763D314209E0Q23909734-7F40DCF2-9EA6-4C2B-B303-937CB1FFAC56Q23909945-BFF6FCFA-8AEE-46AA-BAD9-833BEEE0C0B9Q23910193-0584BC26-6AF1-4E63-A156-7966D75F4881Q23910346-4735463E-50C3-4793-928C-9A10B28D90DDQ23910476-432C373B-0E8A-42CA-8738-59EE27462675Q23911410-16F0D349-3AE2-4191-A5B6-7275F58EE90CQ23911531-6144FD78-1715-49FB-A60F-A35A24BC7B77Q23911700-0FD30807-95C0-4E52-8AA2-323A023FC58BQ23914307-F2CCED2B-6BBF-4FAF-8EA9-5C802C0D1C95Q23914721-B87C824F-F815-45D6-92F0-C2DDB236AEB9Q23914726-94516C70-07B5-408C-BB38-86496556C3B5Q23914727-47656999-B7AF-44A6-B843-8D47133F852EQ23916362-1FEF38B4-D46E-48B1-85F5-9AD1301AA509Q23916365-23BB0D79-DB8C-4A4C-8D9E-724E3F5A717DQ23916371-1D3BA99A-3A4E-4522-81BB-AD783D7310C9Q23916428-2ACAF76E-B80C-46DC-B50F-62491E2761C8Q23916556-2D33EC24-6992-49A0-955A-0185CDBBDF03Q23916557-1907623A-E636-40DD-BCB3-4EB27DF02B1BQ23916563-81DC578A-D9CA-4E29-ADCB-200DD8236C9AQ23916996-52A78F37-2593-45E4-A58F-A94AEDED131DQ23919200-EC014B6A-0C90-4D57-A83E-7F7893DE7D35Q23919511-DA2A613B-6EBB-4BC1-B651-D6286C9B36B3Q23919580-8AEF7F1F-363C-40BC-9521-D5908897C4E9Q23919913-5B928385-40E3-458E-BD32-3004A0DF8763Q23919914-F9DAEC36-CBF5-4205-ADAC-C685F3DA79A9Q23919916-E5180D33-B3D9-4BAD-BF59-DCD729D5007FQ23920371-551A531C-EDB9-4F0C-A68E-01A546AFC80FQ23920372-66694896-9183-4144-8AE2-F4A39D94EEACQ23923500-9CF19A28-01AF-403E-A3D1-993B8DEAD31EQ23923511-D3C30126-B412-40FB-B75A-F725EA7B2E1EQ23923518-44BC44DD-4E59-467F-8F2B-3880BEE8FB01Q23923541-D2503399-38D7-4BE4-83F7-2C0DD3367D21Q23923542-DA6776AE-6E12-40D3-A458-2D2F9BFBD8C2Q23923543-C0C25EA5-AC29-4B38-91D6-95781D56E4A0Q23923698-4C49B854-3F12-476C-B886-CC61DA97E971Q23923823-C059BE92-2CB0-4C1A-A69C-7131D7C2C256Q24091346-DD189715-3310-44B9-93E2-73A9EFAC984EQ24169987-B2D38C36-C6B8-491F-9485-60D7880946DB
P50
description
researcher at NIOSH
@en
name
Walter G. McKinney
@en
Walter G. McKinney
@nl
type
label
Walter G. McKinney
@en
Walter G. McKinney
@nl
altLabel
Walter McKinney
@en
prefLabel
Walter G. McKinney
@en
Walter G. McKinney
@nl
P2038
Walter_Mckinney