about
Hydroxocobalamin for acute cyanide poisoning: new data from preclinical and clinical studies; new results from the prehospital emergency settingHydroxocobalamin in cyanide poisoningChemical alternatives assessment of different flame retardants – A case study including multi-walled carbon nanotubes as synergistCyanide and the human brain: perspectives from a model of food (cassava) poisoning.A case of cyanide poisoning and the use of arterial blood gas analysis to direct therapy.Noninvasive in vivo monitoring of cyanide toxicity and treatment using diffuse optical spectroscopy in a rabbit modelImpairment of mitochondrial respiration following ex vivo cyanide exposure in peripheral blood mononuclear cells.Temperature dependence of Henry's law constant for hydrogen cyanide. Generation of trace standard gaseous hydrogen cyanide.Effect of hyperbaric oxygen therapy on whole blood cyanide concentrations in carbon monoxide intoxicated patients from fire accidentsCan carbon monoxide-poisoned victims be organ donors?Cobinamide is superior to other treatments in a mouse model of cyanide poisoningEmpiric management of cyanide toxicity associated with smoke inhalation.Swedish forensic data 1992-2009 suggest hydrogen cyanide as an important cause of death in fire victims.The combination of cobinamide and sulfanegen is highly effective in mouse models of cyanide poisoning.Impaired mitochondrial respiration and protein nitration in the rat hippocampus after acute inhalation of combustion smoke.Unique cyanide adduct in human serum albumin: potential as a surrogate exposure marker.Rapid point of care analyzer for the measurement of cyanide in blood.Cyanide: an unreported cause of neurological complications following smoke inhalation.Nitrocobinamide, a new cyanide antidote that can be administered by intramuscular injection.A disposable blood cyanide sensor.Cyanide: critical issues in diagnosis and treatment.Development of sulfanegen for mass cyanide casualties.Smoke inhalation lung injury: an update.Antagonism of nitric oxide toward the inhibition of cytochrome c oxidase by carbon monoxide and cyanide.Cyanide intoxication as part of smoke inhalation--a review on diagnosis and treatment from the emergency perspective.Structure fires, smoke production, and smoke alarms.Toxic inhalational exposures.Smoke inhalation injury in a pregnant patient: a literature review of the evidence and current best practices in the setting of a classic case.Therapeutic properties of green tea against environmental insults.Thermal Injuries in Veterinary Forensic Pathology.A countermeasure development pipeline.Concentrations of cyanide in blood samples of corpses after smoke inhalation of varying origin.Determinants of Mortality and the Lethal Area 50 Index (LA50) in Burn Patients Admitted to a Large Burn Center; A Single Center Experience.Application of biological monitoring for exposure assessment following chemical incidents: a procedure for decision making.Thermal Burns and Smoke Inhalation: A Simulation Session.Threats to life in residential structure fires.Patterns of asthma symptoms and perceptions of harm from seasonal atmospheric events in rural Western Montana.Background levels of hydrogen cyanide in human breath measured by infrared cavity ring down spectroscopy.Pediatric inhalation injury.Combined administration of hyperbaric oxygen and hydroxocobalamin improves cerebral metabolism after acute cyanide poisoning in rats.
P2860
Q28264759-41019D56-BFF4-4EFD-BA03-D1CCD5F10882Q28279530-8499B309-3579-4413-A224-2CBC016D4A0FQ29247870-A475E827-C2BD-4BC6-8656-A8EE90024E1DQ30151893-C63860F3-4A9D-4F93-91A8-7C676A747D30Q30452241-1A549969-8EF0-4EDD-BB4B-EB62FF28DAA6Q33479652-0E09B152-8E19-498E-890F-1B2CD83D3769Q33625395-9D357089-68D1-42AD-8DD4-A0183D05714AQ33792311-9192BF55-995A-4175-8BD7-8694F2B829E1Q33948627-0D696D1B-B005-4F6F-B02E-64B7747C209BQ34001550-7425C02E-8AE8-4206-9BF6-AA3D14C8EB17Q34023446-E6155C56-103E-4FE7-955E-A3339A64DC8CQ34159636-A59B3B66-01B3-473A-B162-D6B5B12AD075Q34173503-07AE2447-822F-49B9-ABB2-3C95A4380DEAQ34198860-F15ACACE-6F15-40E8-83FA-052381E0324FQ34258077-7EE3B3A6-2026-42A3-9B12-CFB330FD7FDBQ34952809-351CE020-5B0A-43BF-925B-2EF30417E535Q35017124-355FA3B6-BDBC-4296-88E7-47D88CE28DB7Q35520058-AA458B84-EA75-4A3A-A4C4-0892120187F5Q35826321-A1975DE0-EADB-4611-B146-41BCB7951119Q36682414-CAD501B8-6E28-4141-920B-4600FBA4D890Q36794132-7352087E-80B6-4425-9D7A-D7C50F7A0CC1Q37083426-1C804A1E-D87A-4332-B1EA-5F1FA3B211DDQ37191027-3531EC9F-D243-4FF1-85F7-1821B085D7B4Q37411623-9648AEAE-E6EA-4CB6-8C72-1B292AC9AE10Q37849352-0B73BDF1-589A-48E3-AFCA-F634043C6B68Q37904657-E8DEF77F-B8FC-4A7D-8039-710366D72B65Q37974622-34BC6A8F-4DD2-4300-8253-53E8B2E195FBQ37980324-11063E3A-3452-434D-9E53-1FF4B9E60114Q38813046-5517E68F-19C4-4998-B8C4-F38DD34B10EBQ38815479-AC1D0A07-F623-4917-90FC-52250A9A5875Q38979776-CB531AEF-19CE-4FBA-8548-A28E428D3C02Q39548121-FFA5F8D1-E845-4A10-B399-22C568A75613Q40088406-FC180B9E-2CCB-493E-BAA2-FFED2021E16EQ41990053-9E4F935D-3E17-4175-9038-6C2AD2338942Q43155923-5066D2B3-054B-4D44-BEEA-A25500FACF59Q43498235-39B2A695-D1E9-40A4-B524-E9410A181143Q44582188-CAF0B07A-7EC6-41D8-AE07-B1EC975BDEA9Q45966668-D53C746B-CC50-4507-A5A5-E19641034C08Q45975561-EE207FC2-8B3B-4089-84F0-2C4B52048A2CQ46388407-503E5E64-BDAF-4DD5-A1E9-2F8FE32D3D9E
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Toxicity of fire smoke.
@ast
Toxicity of fire smoke.
@en
type
label
Toxicity of fire smoke.
@ast
Toxicity of fire smoke.
@en
prefLabel
Toxicity of fire smoke.
@ast
Toxicity of fire smoke.
@en
P2860
P356
P1476
Toxicity of fire smoke.
@en
P2093
Yves Alarie
P2860
P304
P356
10.1080/20024091064246
P407
P577
2002-07-01T00:00:00Z