Gelatin-based microspheres crosslinked with glutaraldehyde and rutin oriented to cosmetics

Glutaraldehyde (GTA) has been extensively used as a gelatin crosslinking agent, however, new natural ones have been suggested as more biocompatible. Polyphenols are possible candidates and the flavonols, such as rutin (RUT), also exhibit potential synergism with sunscreens and antioxidant agents used in cosmetics. In this work, gelatin microspheres (M0) were obtained and crosslinked with GTA 10 mM (MG) or RUT 10 mM (MR), dissolved in acetone:NaOH 0,01M (70:30 v/v). MG exhibited crosslinking extent of 54.4%. Gelatin, M0, MG and MR did not elicit any signs of skin damage, regarding the formation of erythema, the barrier function disruption and negative interference in the stratum corneum hydration. Oily dispersions containing M0, MG or MR, isolated or combined with benzophenone-3 or octyl methoxycinnamate, suggested that the microspheres, at a 5.0% w/w, had no additional chemical or physical photoprotective effect in vitro. Crosslinking with RUT had occurred, but in a lower degree than GTA. Microspheres had not improved sun protection parameters, although, non-treated gelatin interfered positively with the SPF for both UV filters. The in vivo studies demonstrated that these materials had very good skin compatibility

Preparation and characterization of gelatin microspheres crosslinked with flavonoid for sunscreening application.

O glutaraldeído tem sido amplamente utilizado para reticulação química da gelatina, no entanto, substâncias de origem natural têm sido propostas como agentes reticulantes de melhor biocompatibilidade. Uma alternativa viável são os polifenois tais como os flavonois que também apresentam o potencial de sinergia com filtros solares e agentes antioxidantes utilizados em formulações cosméticas. No presente trabalho, microesferas de gelatina obtidas por polimerização em emulsão utilizando tensoativo e extração com solvente foram reticuladas com 10 mM de glutaraldeído (GTA) ou com 10 mM rutina (RUT) dissolvidos em acetona:NaOH 0,01 M. As características físico-químicas foram avaliadas por meio de: microscopia eletrônica de varredura, determinação do potencial de intumescimento por microscopia óptica comum, determinação de grupos aminos livres por reação com ácido 2,4,6- trinitrobenzenossulfônico, determinação de área superficial e porosidade por adsorção gasosa, determinação de densidade verdadeira por picnometria de gás hélio, distribuição granulometria por difração a laser, termogravimetria e análise térmica diferencial. Devido a interferentes, não foi possível mensurar a extensão de reticulação das microesferas reticuladas com RUT, porém os demais resultados obtidos sugerem que ocorreu reticulação mas em menor extensão que o GTA. A aplicabilidade em fotoproteção foi avaliada in vitro por espectrofotometria de refletância difusa em dispersões oleosas contendo benzofenona-3 e/ou octilmetoxicinamato. Os resultados observados indicaram que na concentração de 5% p/p as microesferas não reticuladas ou reticuladas com GTA ou RUT não apresentam eficácia fotoprotetora ou efeito sinérgico com os filtros químicos estudados.Glutaraldehyde has been widely used as gelatin chemical cross-linking agent. However new natural cross-linking agents has been proposed as a more biocompatible source. Polyphenols are feasible candidates and the flavonols also exhibit potential synergism with sunscreens and antioxidant agents used in cosmetics formulations. In this study, gelatin microspheres obtained by polymerization in water-in-oil emulsion technique with tensoative and extraction with solvent were crosslinked with glutaraldehyde 10 mM (GTA) or with rutin 10 mM (RUT) solved in acetone:NaOH 0,01M. The physicochemical properties were evaluated by: scanning electron microscopy, swelling potential by optical microscopy, degree of cross-linking by 2,4,6-trinitro-benzensulfonic acid, surface area and porosity by gas adsorption, true density by hellium pycnometry, granulometry by laser light diffraction, thermogravimetry and differential scanning calorimetry. Due to interferents, was not possible to measure degree of cross-linking of gelatin microspheres crosslinked with RUT, however other findings suggest that crosslinking has occurred but in a lower degree than GTA crosslinking. Applicability in sun protection was evaluated in vitro by diffuse transmitance measurements in oily dispersion with benzophenone-3 and/or octyl methoxycinnamate. These results showed that at 5% w/w gelatin microspheres crosslinked with GTA or RUT did not exhibit sun protection efficacy or synergism with UV chemical filters that were evaluated

Gelatin-based microspheres crosslinked with glutaraldehyde and rutin oriented to cosmetics

ABSTRACT Glutaraldehyde (GTA) has been extensively used as a gelatin crosslinking agent, however, new natural ones have been suggested as more biocompatible. Polyphenols are possible candidates and the flavonols, such as rutin (RUT), also exhibit potential synergism with sunscreens and antioxidant agents used in cosmetics. In this work, gelatin microspheres (M0) were obtained and crosslinked with GTA 10 mM (MG) or RUT 10 mM (MR), dissolved in acetone:NaOH 0,01M (70:30 v/v). MG exhibited crosslinking extent of 54.4%. Gelatin, M0, MG and MR did not elicit any signs of skin damage, regarding the formation of erythema, the barrier function disruption and negative interference in the stratum corneum hydration. Oily dispersions containing M0, MG or MR, isolated or combined with benzophenone-3 or octyl methoxycinnamate, suggested that the microspheres, at a 5.0% w/w, had no additional chemical or physical photoprotective effect in vitro. Crosslinking with RUT had occurred, but in a lower degree than GTA. Microspheres had not improved sun protection parameters, although, non-treated gelatin interfered positively with the SPF for both UV filters. The in vivo studies demonstrated that these materials had very good skin compatibility

Subacute Sclerosing Panencephalitis in Children: The Archetype of Non-Vaccination

Subacute sclerosing panencephalitis (SSPE) is a late complication of measles virus infection that occurs in previously healthy children. This disease has no specific cure and is associated with a high degree of disability and mortality. In recent years, there has been an increase in its incidence in relation to a reduction in vaccination adherence, accentuated by the COVID-19 pandemic. In this article, we take stock of the current evidence on SSPE and report our personal clinical experience. We emphasise that, to date, the only effective protection strategy against this disease is vaccination against the measles virus