Bibiana Vallejo scite author profile

Bibiana Vallejo

5Publications

29Citation Statements Received

84Citation Statements Given

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105

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Universidad Nacional de Colombia

Publications

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The Effect of UVB Irradiation and Oxidative Stress on the Skin Barrier—A New Method to Evaluate Sun Protection Factor Based on Electrical Impedance Spectroscopy

Hernández

Vallejo

Ruzgas

et al. 2019

Sensors

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Sunlight is vital for several biochemical processes of the skin organ. However, acute or chronic exposure to ultraviolet radiation (UVR) has several harmful effects on the skin structure and function, especially in the case of the failing function of antioxidative enzymes, which may lead to substantial tissue damage due to the increased presence of reactive oxygen species (ROS). The aim of this work was to investigate the combined effect of ultraviolet B (UVB) irradiation and oxidative stress on the skin barrier integrity. For this, we employed electrical impedance spectroscopy (EIS) to characterize changes of the electrical properties of excised pig skin membranes after various exposure conditions of UVB irradiation, oxidative stress, and the inhibition of antioxidative enzymatic processes. The oxidative stress was regulated by adding hydrogen peroxide (H2O2) as a source of ROS, while sodium azide (NaN3) was used as an inhibitor of the antioxidative enzyme catalase, which is naturally present throughout the epidermis. By screening for the combined effect of UVB and oxidative stress on the skin membrane electrical properties, we developed a new protocol for evaluating these parameters in a simple in vitro setup. Strikingly, the results show that exposure to extreme UVB irradiation does not affect the skin membrane resistance, implying that the skin barrier remains macroscopically intact. Likewise, exposure to only oxidative stress conditions, without UVB irradiation, does not affect the skin membrane resistance. In contrast to these observations, the combination of UVB irradiation and oxidative stress conditions results in a drastic decrease of the skin membrane resistance, indicating that the integrity of the skin barrier is compromised. Further, the skin membrane effective capacitance remained more or less unaffected by UVB exposure, irrespective of simultaneous exposure of oxidative stress. The EIS results were concluded to be associated with clear signs of macroscopic tissue damage of the epidermis as visualized with microscopy after exposure to UVB irradiation under oxidative stress conditions. Finally, the novel methodology was tested by performing an assessment of cosmetic sunscreen formulations with varying sun protection factor (SPF), with an overall successful outcome, showing good correlation between SPF value and protection capacity in terms of skin resistance change. The results from this study allow for the development of new skin sensors based on EIS for the detection of skin tissue damage from exposure to UVB irradiation and oxidative stress and provide a new, more comprehensive methodology, taking into account both the influence of UVB irradiation and oxidative stress, for in vitro determination of SPF in cosmetic formulations.

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New concepts for transdermal delivery of oxygen based on catalase biochemical reactions studied by oxygen electrode amperometry

Hernández

Boutonnet

Svensson³

et al. 2019

Journal of Controlled Release

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11A bio-inspired coating consisting of pectin (polygalacturonic acid) and cationic cellulose nano-12 fibers were successfully produced by the Layer-by-layer method. The build-up and the morphol-13 ogy of the resulting coatings were studied with spectroscopic ellipsometry and atomic force mi-14 croscopy, respectively. The coating was able to survive the exposure of a simulated gastric fluid, 15 but was partially degraded upon exposure to pectinase enzyme, which simulate the action of the 16 microbial symbionts present in the human colon. Prior to exposure, the oxygen permeability co-17 efficient of the coating (0.033 ml (STP) mm m -2 day -1 atm -1 at 23°C and 20% RH) was in the 18 same order of magnitude as for ethylene vinyl alcohol films (0.001-0.01 ml (STP) mm m -2 day -19 1 atm -1 ). However after exposure to the mimicked gastrointestinal (GI) tract conditions, the con-20 tribution of coating to the overall barrier properties was not measurable. 21 22

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In vitroanalysis regarding the safety of components used in a film-based therapeutic system loaded with meglumine antimoniate and its activity towardLeishmania majorexperimental infections: a preliminary study

Gutierrez

Vallejo

Barbosa

et al. 2013

Immunopharmacology and Immunotoxicology

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Owing to its biocompatibility properties and its ability to promote the scar healing process, chitosan is employed in tissue engineering for the manufacture of formulations. To control the characteristic skin ulcers of cutaneous leishmaniasis (CL), the use of a biopolymeric system that favors the scar healing process and releases an active agent such as meglumine antimoniate may be a better option. For these reasons, here we analyzed the cytotoxic capabilities of excipients [medium molecular weight chitosan (MMWC), lactic acid (LA) and polyvinylpyrrolidone (PVP)], used for the formulation of a film-based therapeutic system that releases meglumine antimoniate and were evaluated on human macrophages [monocyte-derived macrophages (MDMs)], L929 fibroblasts and parasites (Leishmania major promastigotes and intracellular amastigotes). The ability of excipients to modulate the cytokines production involved in the scar healing process was compared with film-based therapeutic system. The efficiency of a film-based therapeutic system loaded with meglumine antimoniate was compared with conventional formulation (Albiventriz(®)). We found that MMWC was toxic for two parasite forms. In contrast, measurement of interleukin levels did not show any evidence of preferential secretion as a side effect of treating human macrophages with MMWC. Finally, the efficiency of a polymeric film-based therapeutic system that was loaded with meglumine antimoniate could not be determined due to the high degree of toxicity observed in infected MDMs; moreover, these compounds do not induce any apparent immunomodulatory effects. Our findings suggest that the final concentrations of each excipients (MMWC, LA and PVP) that were used in the polymeric film were suitable vehicles for active pharmaceutical compound delivery and did not selectively affect (enhancing or diminishing immune activity) macrophages.

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Technological Development in the Production Processes of Small and Medium Enterprises in the Pharmaceutical Sector in Bogotá, Colombia

Vallejo

Plazas

2012

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Design of a Device for Recording Bioelectric Signals with Surface Electrodes, in the Evaluation of the Effect of Ultraviolet Radiation on a Tissue

Garay

Hernández

López

et al. 2018

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Bibiana Vallejo

The Effect of UVB Irradiation and Oxidative Stress on the Skin Barrier—A New Method to Evaluate Sun Protection Factor Based on Electrical Impedance Spectroscopy

New concepts for transdermal delivery of oxygen based on catalase biochemical reactions studied by oxygen electrode amperometry

In vitroanalysis regarding the safety of components used in a film-based therapeutic system loaded with meglumine antimoniate and its activity towardLeishmania majorexperimental infections: a preliminary study

Technological Development in the Production Processes of Small and Medium Enterprises in the Pharmaceutical Sector in Bogotá, Colombia

Design of a Device for Recording Bioelectric Signals with Surface Electrodes, in the Evaluation of the Effect of Ultraviolet Radiation on a Tissue

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