Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
about
Membrane electroporation: a molecular dynamics simulation.What you always needed to know about electroporation based DNA vaccinesLipopolyplex for Therapeutic Gene Delivery and Its Application for the Treatment of Parkinson's DiseasePolymers influencing transportability profile of drugThe membrane-active tri-block copolymer pluronic F-68 profoundly rescues rat hippocampal neurons from oxygen-glucose deprivation-induced death through early inhibition of apoptosisBinding of amphiphilic and triphilic block copolymers to lipid model membranes: the role of perfluorinated moieties.Recombinant MG53 protein modulates therapeutic cell membrane repair in treatment of muscular dystrophyMitigation of impedance changes due to electroporation therapy using bursts of high-frequency bipolar pulses.The origin of long-range attraction between hydrophobes in waterStructural and functional recovery of electropermeabilized skeletal muscle in-vivo after treatment with surfactant poloxamer 188.Gene printer: laser-scanning targeted transfection of cultured cardiac neonatal rat cells.Dystrophic Cardiomyopathy-Potential Role of Calcium in Pathogenesis, Treatment and Novel TherapiesChronic administration of membrane sealant prevents severe cardiac injury and ventricular dilatation in dystrophic dogs.Membrane sealant Poloxamer P188 protects against isoproterenol induced cardiomyopathy in dystrophin deficient mice.Self-assembled lipid nanomedicines for siRNA tumor targeting.Pluronics and MDR reversal: an update.Electrodelivery of drugs into cancer cells in the presence of poloxamer 188.Poloxamer 188 decreases susceptibility of artificial lipid membranes to electroporation.Membrane skeleton restraint of surface shape change during fusion of erythrocyte membranes: evidence from use of osmotic and dielectrophoretic microforces as probesEffects of PEO-PPO-PEO triblock copolymers on phospholipid membrane integrity under osmotic stressMillisecond measurement of transport during and after an electroporation pulseThe importance of electric field distribution for effective in vivo electroporation of tissuesDirect observation of poloxamer 188 insertion into lipid monolayers.Plasmid injection and application of electric pulses alter endogenous mRNA and protein expression in B16.F10 mouse melanomasCellular engineering: molecular repair of membranes to rescue cells of the damaged nervous system.Interaction between lipid monolayers and poloxamer 188: an X-ray reflectivity and diffraction study.Surfactant copolymers prevent aggregation of heat denatured lysozyme.Poloxamer 188 protects neurons against ischemia/reperfusion injury through preserving integrity of cell membranes and blood brain barrier.An approach to electrical modeling of single and multiple cells.Poloxamer [corrected] 188 has a deleterious effect on dystrophic skeletal muscle function.Poloxamer surfactant preserves cell viability during photoacoustic delivery of molecules into cells.Poloxamer 188 facilitates the repair of alveolus resident cells in ventilator-injured lungs.Chronic Dosing with Membrane Sealant Poloxamer 188 NF Improves Respiratory Dysfunction in Dystrophic Mdx and Mdx/Utrophin-/- MiceClusterin Seals the Ocular Surface Barrier in Mouse Dry Eye.Resealing of electroporation of porcine epidermis using phospholipids and poloxamers.Membrane-stabilizing copolymers confer marked protection to dystrophic skeletal muscle in vivo.Genetic modification of hematopoietic stem cells with nonviral systems: past progress and future prospects.Affinity for, and localization of, PEG-functionalized silica nanoparticles to sites of damage in an ex vivo spinal cord injury model.Micro-/nanofluidics based cell electroporation.Cardiomyopathy of Duchenne muscular dystrophy: pathogenesis and prospect of membrane sealants as a new therapeutic approach.
P2860
Q24538632-69F28AC3-2866-44BB-91F3-E4F2741910A0Q24602340-568FDDBA-B391-4E7F-9B6A-F3B6626A0F5FQ26752578-9B19D384-6FD0-436D-A35D-4C8FC4B1E9FAQ26862824-E1EFA4B3-E47A-4DD8-B1D6-B3A45AE351AFQ28386144-E82363FB-2D3D-4AE5-A763-E38FAE60E6E6Q30317264-8E1A6776-F8DE-48DF-A2BF-F0AEB82F1B58Q30545559-D7D84A6B-8F8C-4E6F-ACC9-E9A63D4A3F23Q30664148-243C6225-2071-43CF-A255-522778470D2FQ31062062-5CD87165-AA13-483D-A3CA-33474108F771Q31106750-86F94BBF-F15A-4746-B3FB-002335033CFBQ33254358-C7C1169C-5567-4519-AF16-EEAF78831865Q33608478-DA159B34-9E7F-4CCA-9482-3F07D722A84FQ33755416-46D273BF-A65E-41FD-8ED1-40203A72A41AQ33901556-4C714E65-B8E0-4F12-B58A-B4E010FD51E6Q33907953-030544B5-CBC9-43DB-AAE7-018718E91FA2Q34005678-BD0CC3F0-C22B-414A-958C-8917281FB8D3Q34035528-7A5BCA61-6FD3-495A-A441-5FA1C0ED6AABQ34041297-90228441-8340-4159-9D13-CE1E3BA084D0Q34047803-E75DE010-85C5-4111-A6F4-5A22090DE0FEQ34087123-7072C187-2AF0-4B69-AD70-2FA3FDF4FF6BQ34129399-030CF844-1B7A-467A-8827-3AF532D48B2FQ34167690-C25B9298-770A-4DE2-BFA3-6145BEA0D166Q34177409-1FC95488-2C8D-4874-B3B0-0273FBADE18FQ34311495-6DA1DE82-12B6-4EA6-9645-8FCD03C68105Q34336446-4BCFAD9C-7AAB-4C3E-8999-3F28F1B4D2B5Q34351701-A8835BBE-0D75-426C-A79D-49A76B6B094EQ34521984-FA367664-6586-4039-BECB-ED09D9C91375Q34684723-F7CE18D4-2926-41AC-998A-639506EFBF0EQ34867710-611EAABF-7AEA-4EA3-A2C2-B5C1ADE07835Q35123905-AC6CD51F-A8B8-40E1-BBB4-37D0E67B907CQ35237140-EB270B7A-3FEC-40DF-8851-A3CC00DD456CQ35528482-AE714B9E-AEDE-4683-A242-4EAC3C9DF7B6Q35738899-8E0CC0BE-D69B-4D32-AEFA-2F5BC64E2580Q35786703-E97FC008-BA38-40AE-A107-E5E72D89C68DQ36088989-8B8B6BF2-0160-4E37-A729-39CA10EEF3ECQ36270889-DE1823CB-61B8-41AA-A370-C911810C4A19Q36288888-BD6F1B98-726E-4041-B48B-26F0F6C6A045Q36547886-6B7B5468-ACDF-4B4B-8F46-DF9F2EB4C08AQ36564846-42B43044-8B1B-4506-8DD2-C1335B8F922FQ36691646-EE84F2ED-E19D-499A-BC61-B9E8498597C2
P2860
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 1992
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@en
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@nl
type
label
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@en
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@nl
prefLabel
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@en
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@nl
P2093
P2860
P356
P1476
Surfactant-induced sealing of electropermeabilized skeletal muscle membranes in vivo.
@en
P2093
P2860
P304
P356
10.1073/PNAS.89.10.4524
P407
P577
1992-05-01T00:00:00Z