about
Use of a fluorescence spectroscopy technique to study the adsorption of sodium dodecylsulfonate on liposomes.Different stratum corneum lipid liposomes as models to evaluate the effect of the sodium dodecyl sulfate.Ceramides and skin function.Changes in antioxidant enzymes in humans with long-term exposure to pesticides.Bicelles: lipid nanostructured platforms with potential dermal applications.Sorption-desorption test for functional assessment of skin treated with a lipid system that mimics epidermal lamellar bodies.Lamellar body mimetic system: An up-to-down repairing strategy of the stratum corneum lipid structure.Bicellar systems as a new colloidal delivery strategy for skin.Bicellar systems for in vitro percutaneous absorption of diclofenac.Advanced lipid systems containing β-carotene: stability under UV-vis radiation and application on porcine skin in vitro.A unique bicellar nanosystem combining two effects on stratum corneum lipids.Conformational changes in stratum corneum lipids by effect of bicellar systems.Liposomes as protective agents of stratum corneum against octyl glucoside: a study based on high-resolution, low-temperature scanning electron microscopy.Bicellar systems as vehicle for the treatment of impaired skin.Influence of the temperature in the adsorption of sodium dodecyl sulfate on phosphatidylcholine liposomes.Morphological effects of ceramide on DMPC/DHPC bicelles.A lamellar body mimetic system for the treatment of oxazolone-induced atopic dermatitis in hairless mice.Reducing the Harmful Effects of Infrared Radiation on the Skin Using Bicosomes Incorporating β-Carotene.The first fluorogenic sensor for sphingosine-1-phosphate lyase activity in intact cells.Bicelles: New Lipid Nanosystems for Dermatological Applications.Vesicular nanostructures composed of oleic acid and phosphatidylcholine: Effect of pH and molar ratio.Influence of the Level of Cholesteryl Sulfate Present in Stratum Corneum Lipid Liposomes on Their Stability Against Triton X-100.Use of high-pressure freeze fixation and freeze fracture electron microscopy to study the influence of the phospholipid molar ratio in the morphology and alignment of bicellesNew arrangement of proteins and lipids in the stratum corneum cornified envelopeEffect of Sodium Dodecyl Sulfate at Different Hydration Conditions on Dioleoyl Phosphatidylcholine Bilayers Studied by Grazing Incidence X-ray DiffractionInfluence of ceramides in the solubilization of stratum corneum lipid liposomes by C(12)-betaine/sodium dodecyl sulfate mixturesUse of a fluorescence spectroscopy technique to study the adsorption of sodium dodecylsulfonate on liposomesTransmission electron microscopy and light scattering studies on the interaction of a nonionic/anionic surfactant mixture with phosphatidylcholine liposomesAlterations in stratum corneum lipid liposomes due to the action of triton X-100. Influence of the level of ceramides on this processDirect formation of mixed micelles in the solubilization of phospholipid liposomes by Triton X-100Exploring the interaction of the surfactant N-terminal domain of gamma-Zein with soybean phosphatidylcholine liposomesSolubilization of phosphatidylcholine liposomes by the amphoteric surfactant dodecyl betaineInfluence of the level of ceramides in the permeability of stratum corneum lipid liposomes caused by sodium dodecyl sulfateInfluence of the level of ceramides on the permeability of stratum corneum lipid liposomes caused by a C12-betaine/sodium dodecyl sulfate mixtureStudy and formation of vesicle systems with low polydispersity index by ultrasound methodBicellar systems as modifiers of skin lipid structureLipid nanostructures: self-assembly and effect on skin propertiesApplication of bicellar systems on skin: diffusion and molecular organization effectsBarrier function of intact and impaired skin: percutaneous penetration of caffeine and salicylic acidCharacterization of new DOPC/DHPC platform for dermal applications
P50
Q31860454-D577CA7F-9946-4765-9102-52EB46810BBFQ34088706-AB071987-9288-43EF-A492-38A28A512A91Q34173318-9A998DC7-0732-4641-8079-F1025DB9EEBCQ34641580-EBF26F69-C7AD-48C3-8A76-1B35A77BF6B0Q37960435-90729CAE-25D2-4029-8417-4D228A9A959CQ38744320-800BF42C-83B9-4AE7-84BE-ECCC11934196Q38852166-A138F925-CF7D-44F2-8206-DD124928A836Q39671303-C5FC4AE8-9CF2-41DA-ADB6-676D79BB04F6Q39928113-A6FCCC55-4221-4770-8BE0-77A4C8816808Q41604813-35E29559-686C-4C42-ACD3-0D410B029428Q41614222-426D9501-2A45-45B3-9646-55B31C790E1CQ43280080-F1AD4FFA-46DD-4CC3-BA6A-DD5E5ABEF2ADQ43505996-03FD7787-C3FD-4116-879D-6484E1F0922BQ44465344-8B437FC7-48E0-4C6F-8D17-0D1F2388B6BCQ44466330-194B67CB-1F5E-48FD-8BDB-DC0CF6C2F1EDQ46665784-49EE2CAE-747E-4039-8BB6-8094F9945892Q50208448-3DA8274F-7984-411E-9D7B-36D81940FD7FQ51662808-C2560C7C-3E3D-464A-9FC5-3389352C1763Q53319527-C05762C5-99F0-472E-81EC-C796E2EE249BQ53353206-87FCF030-2EA5-4920-943D-81B7EB4DF6BCQ53405303-65276059-E9FB-419D-BD7B-0A56B3EC5678Q54093030-16E2FA99-1021-4622-A6A7-F9ED3068E18CQ57186260-724E2049-E469-4C97-B907-C5DB9BD6541DQ57359316-0734AC96-8432-4F38-85E5-A5C979FC87B4Q61845023-324AD4E8-05AC-41D6-A97B-328FBA801A23Q73032001-2C565BDC-F58B-49A3-92BE-30E313EEAC8AQ73604871-BCC7D291-8C5D-4C57-9456-71AD690FE9E9Q74092716-0A851506-9BC9-4004-B88B-3A0FBF1437D8Q74272424-0DE037A9-DDB3-4490-8948-31EE3D7177EFQ74586423-9792A754-9791-4CCF-916E-9E92D4C49C4BQ75383295-C2A9D9B1-4362-45F0-8863-83A522BE79A2Q77167321-BBC2D88A-927F-44A5-A2AC-BA6B1F917504Q77435570-5C4E3383-8D48-428C-8B5F-E73C9C542F50Q77850563-3E07AA79-18B1-40EB-8FD5-2DEEB57C245EQ82789491-4B5B52A3-3F85-48AE-8443-43EEE7F9F8C6Q83483407-A49DF8F8-8483-4B4C-81CE-A95519076528Q83807942-B06FCEA6-31A4-4019-867A-F1102812DCC8Q84031944-AE316403-D7E0-4D23-AE4C-31505909DFB9Q84431360-D869F476-5190-4735-A744-68CD08052BC5Q85793492-C17FC5E2-B6E5-4436-BE0D-30DB38B632E3
P50
description
researcher
@en
name
O Lopez
@en
O Lopez
@nl
type
label
O Lopez
@en
O Lopez
@nl
prefLabel
O Lopez
@en
O Lopez
@nl
P106
P31
P496
0000-0002-3320-5964