Biophysical injury mechanisms in electrical shock trauma.
about
Case-control study of occupational exposure to electric shocks and magnetic fields and mortality from amyotrophic lateral sclerosis in the US, 1991-1999Establishing safety limits for transcranial direct current stimulationA comparison of efficacy and toxicity between electroporation and adenoviral gene transferTransport lattice models of heat transport in skin with spatially heterogeneous, temperature-dependent perfusionA numerical investigation of the electric and thermal cell kill distributions in electroporation-based therapies in tissueMicrosecond thermal ablation of skin for transdermal drug delivery.Electroablation: a method for neurectomy and localized tissue injury.Examination of local and systemic in vivo responses to electrical injury using an electrical burn delivery system.Impact of posttraumatic stress disorder and depression on neuropsychological functioning in electrical injury survivors.Interaction between lipid monolayers and poloxamer 188: an X-ray reflectivity and diffraction study.Thermal stability of proteins.Poloxamer 188 (p188) as a membrane resealing reagent in biomedical applications.Cardiac stimulation with high voltage discharge from stun guns.Multi-organ injuries due to a lightning strike: a case report highlighting the importance of a multi-disciplinary approach.A brief overview of electroporation pulse strength-duration space: a region where additional intracellular effects are expected.Visceral injury in electrical shock trauma: proposed guideline for the management of abdominal electrocution and literature review.US and CT of the Liver after Electric Shock.Abiotic Gene Transfer: Rare or Rampant?Pulse timing during irreversible electroporation achieves enhanced destruction in a hindlimb model of cancer.Gene electrotransfer: from biophysical mechanisms to in vivo applications : Part 2 - In vivo developments and present clinical applications.Apoptosis initiation and angiogenesis inhibition: melanoma targets for nanosecond pulsed electric fields.Electrical burn causing a unique pattern of neurological injuryA parametric study delineating irreversible electroporation from thermal damage based on a minimally invasive intracranial procedureA case of peripheral neuropathy from contact with military radar equipment.Role of Na,K pumps in restoring contractility following loss of cell membrane integrity in rat skeletal muscle.A method to establish a mouse model of bone marrow microenvironment injury.Diagnostic use of infrared thermography in a patient with chronic pain following electrocution: a case report.Addressing neurodynamic irritability in a patient with adhesive capsulitis: a case report.Direct electrical injury to brachial plexus.Volume Resuscitation in Patients With High-Voltage Electrical Injuries.Mathematical modeling of irreversible electroporation for treatment planning.Active microdroplet merging by hydrodynamic flow control using a pneumatic actuator-assisted pillar structure.Towards solid tumor treatment by irreversible electroporation: intrinsic redistribution of fields and currents in tissue.Characterization of Cell Membrane Permeability In Vitro Part I: Transport Behavior Induced by Single-Pulse Electric Fields
P2860
Q23923926-75D37F8B-29EB-47A6-B2ED-DDE91FEB9322Q24643924-A8EB26C1-9F99-4130-844E-C4BB40F08245Q24799546-ADA02E30-7BFE-498B-9CC5-0ED9B3C55FC3Q24802604-47E553EF-269C-44BE-81AF-C5AAB7D05A6CQ28541799-F964A3D9-7C0C-4E82-9E6C-B94D59C5AD73Q30464486-77737FFF-A760-4247-AE69-4B8CCE09004BQ30572612-1BEF1AC6-76F1-4A8A-B315-E531CCD26792Q31040885-A5446A1B-9286-4A90-8F3E-AC33E8F8C477Q34327934-AB8EA0C2-1A2A-49D1-B686-B038D9964985Q34351701-0470625B-F713-4E9D-BE0E-4F57B6D026C6Q36420048-35D3F88A-939B-4127-8594-40705A5B6F55Q37130733-0B6439B8-988A-49BF-812F-152823D9F9D5Q37152374-4DE5B46F-F39A-4963-BDAB-0C309F96EDE2Q37598140-FC27D989-62D0-407C-8582-4A8CAB66A6CCQ37999969-377FCD0D-6318-47E4-AE70-52446DF6A223Q38195608-08C65737-4511-463C-AF5A-91BF66534D44Q38831599-360F2168-843B-4523-A41D-7FB97A3C677FQ38882806-63CFDB16-8312-4F35-B302-9CB152C02300Q38951902-99C7B9CB-6A1A-403D-BBFE-7023C63D1D1DQ39310355-12414520-75CC-4BB1-8D9E-A8474F497C70Q39718508-714CCC94-87F2-4D1B-97E8-96A2179799DAQ40355496-F03517C4-5E51-4156-A44E-3C105B3B2523Q42233592-3798E3C7-94AD-42E7-9EE0-224879F92F89Q42949512-6ADECDDD-94C9-425C-B0D0-02A3B1341BBBQ45294779-55657226-E61C-4B77-8926-AEE28D4CEB09Q45741137-4129103C-9C0B-49EB-B42E-93727299595BQ46917119-DBC93830-22D8-4597-A01E-08967F7A9C91Q47655305-F8581BD1-4020-4ACA-8BDD-81E88AF3E76FQ49323843-3BA1B86F-2C4B-4E65-B13D-24DEDF55F838Q49814797-A219CA16-529E-4FEA-A2C0-8BE6E106A282Q50946462-354A30FD-81D5-4532-B232-A3710AD97A0FQ51513423-EAE24F40-8B01-4BC5-8BC0-3B872BDA3857Q53536921-ED9B873C-71CC-49DB-B388-2213289332CAQ58710974-C552B83F-DD62-4261-B021-E3375ED00D56
P2860
Biophysical injury mechanisms in electrical shock trauma.
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Biophysical injury mechanisms in electrical shock trauma.
@ast
Biophysical injury mechanisms in electrical shock trauma.
@en
Biophysical injury mechanisms in electrical shock trauma.
@nl
type
label
Biophysical injury mechanisms in electrical shock trauma.
@ast
Biophysical injury mechanisms in electrical shock trauma.
@en
Biophysical injury mechanisms in electrical shock trauma.
@nl
prefLabel
Biophysical injury mechanisms in electrical shock trauma.
@ast
Biophysical injury mechanisms in electrical shock trauma.
@en
Biophysical injury mechanisms in electrical shock trauma.
@nl
P2093
P1476
Biophysical injury mechanisms in electrical shock trauma.
@en
P2093
P304
P356
10.1146/ANNUREV.BIOENG.2.1.477
P407
P577
2000-01-01T00:00:00Z