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BACKGROUND: Maternal overweight and obesity have been associated with an increased risk of atopic dermatitis (AD) in the offspring, but the underlying mechanisms are unclear. Vernix caseosa (VC) is a proteolipid material covering the fetus produced during skin development. However, whether maternal prepregnancy weight excess influences fetal skin development is unknown. Characterizing the VC of newborns from mothers with prepregnancy overweight and obesity might reveal AD-prone alterations during fetal skin development. OBJECTIVE: We sought to explore AD biomarkers and staphylococcal loads in VC from the offspring of mothers who were overweight/obese (O/O) before pregnancy versus in those from offspring of normal weight mothers. METHODS: The VC of newborns of 14 O/O and 12 normal weight mothers were collected immediately after birth. Biomarkers were determined by ELISA and staphylococcal species by quantitative PCR. RESULTS: The VC from the O/O group showed decreased expression of skin barrier proteins (filaggrin and loricrin) and increased levels of proinflammatory biomarkers (IgA, thymic stromal lymphopoietin [TSLP], S100A8, IL-25, and IL-33). No differences in concentrations of antimicrobial peptides and enzymes were detected. The VC from the O/O group had a lower Staphylococcus epidermidis and Staphylococcus hominis commensal bacterial load, whereas Staphylococcus aureus bacterial load was not significantly different between the 2 groups. Maternal body mass index was negatively correlated with VC filaggrin expression and S epidermidis load and was positively associated with TSLP concentration. One-year follow-up established that the offspring of O/O mothers had a higher incidence of AD that was specifically linked with decreased VC filaggrin expression and lower S epidermidis load. CONCLUSIONS: VC from neonates of mothers with prepregnancy overweight and obesity exhibit skin barrier molecular alterations and staphylococcal dysbiosis that suggest early mechanistic clues to this population's increased risk of AD.
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Dermatite Atópica , Obesidade Materna , Verniz Caseoso , Humanos , Recém-Nascido , Feminino , Gravidez , Dermatite Atópica/patologia , Proteínas Filagrinas , Obesidade Materna/metabolismo , Obesidade Materna/patologia , Verniz Caseoso/metabolismo , Sobrepeso , Pele/patologia , Citocinas/metabolismo , Linfopoietina do Estroma do Timo , Obesidade/patologia , Biomarcadores/metabolismoRESUMO
During the COVID-19 pandemic, the importance of vaccinating children against SARS-CoV-2 was rapidly established. This study describes the safety of CoronaVac® in children and adolescents between 3- and 17-years-old in a multicenter study in Chile with two vaccine doses in a 4-week interval. For all participants, immediate adverse events (AEs), serious AEs (SAEs), and AEs of special interest (AESIs) were registered throughout the study. In the safety subgroup, AEs were recorded 28 days after each dose. COVID-19 surveillance was performed throughout the study. A total of 1139 individuals received the first and 1102 the second dose of CoronaVac®; 835 were in the safety subgroup. The first dose showed the highest number of AEs: up to 22.2% of participants reported any local and 17.1% systemic AE. AEs were more frequent in adolescents after the first dose, were transient, and mainly mild. Pain at the inoculation site was the most frequent AE for all ages. Fever was the most frequent systemic AE for 3-5 years old and headache in 6-17 years old. No SAEs or AESIs related to vaccination occurred. Most of the COVID-19 cases were mild and managed as outpatients. CoronaVac® was safe and well tolerated in children and adolescents, with different safety patterns according to age.
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Transdermal administration of molecules across the skin has gained interest because it can be considered a non-invasive route compared with traditional ones. However, going through the skin is challenging due to the presence of the stratum corneum, the main barrier of substances. For this reason, the goal of this research was the combination of omega-3 (ω-3) and a dextran sulfate assembly in a nanostructure form, which allows passage through the skin and improves the bioavailability and the therapeutic profiles of active molecules, such as imiquimod. Here we report a new colloidal system, named dextran nanocapsules, with ω-3 in its nucleus and a coat made of dextran sulfate with a size ~150 nm, monomodal distribution, and negative zeta potential (~-33 mV). This nanosystem encapsulates imiquimod with high efficacy (~86%) and can release it in a controlled fashion following Korsmeyer-Peppas kinetics. This formulation is stable under storage and physiological conditions. Furthermore, a freeze-dried product could be produced with different cryoprotectants and presents a good security profile in the HaCaT cell line. Ex vivo assays with newborn pig skin showed that dextran nanocapsules promote transdermal delivery and retention 10 times higher than non-encapsulated imiquimod. These promising results make this nanosystem an efficient vehicle for imiquimod transdermal delivery.
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Multiple vaccines against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have been evaluated in clinical trials. However, trials addressing the immune response in the pediatric population are scarce. The inactivated vaccine CoronaVac has been shown to be safe and immunogenic in a phase 1/2 clinical trial in a pediatric cohort in China. Here, we report interim safety and immunogenicity results of a phase 3 clinical trial for CoronaVac in healthy children and adolescents in Chile. Participants 3 to 17 years old received two doses of CoronaVac in a 4-week interval until 31 December 2021. Local and systemic adverse reactions were registered for volunteers who received one or two doses of CoronaVac. Whole-blood samples were collected from a subgroup of 148 participants for humoral and cellular immunity analyses. The main adverse reaction reported after the first and second doses was pain at the injection site. Four weeks after the second dose, an increase in neutralizing antibody titer was observed in subjects relative to their baseline visit. Similar results were found for activation of specific CD4+ T cells. Neutralizing antibodies were identified against the Delta and Omicron variants. However, these titers were lower than those for the D614G strain. Importantly, comparable CD4+ T cell responses were detected against these variants of concern. Therefore, CoronaVac is safe and immunogenic in subjects 3 to 17 years old, inducing neutralizing antibody secretion and activating CD4+ T cells against SARS-CoV-2 and its variants. (This study has been registered at ClinicalTrials.gov under no. NCT04992260.) IMPORTANCE This work evaluated the immune response induced by two doses of CoronaVac separated by 4 weeks in healthy children and adolescents in Chile. To date, few studies have described the effects of CoronaVac in the pediatric population. Therefore, it is essential to generate knowledge regarding the protection of vaccines in this population. Along these lines, we reported the anti-S humoral response and cellular immune response to several SARS-CoV-2 proteins that have been published and recently studied. Here, we show that a vaccination schedule consisting of two doses separated by 4 weeks induces the secretion of neutralizing antibodies against SARS-CoV-2. Furthermore, CoronaVac induces the activation of CD4+ T cells upon stimulation with peptides from the proteome of SARS-CoV-2. These results indicate that, even though the neutralizing antibody response induced by vaccination decreases against the Delta and Omicron variants, the cellular response against these variants is comparable to the response against the ancestral strain D614G, even being significantly higher against Omicron.
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COVID-19 , SARS-CoV-2 , Adolescente , Humanos , Criança , Pré-Escolar , Anticorpos Neutralizantes , Vacinas de Produtos Inativados , Anticorpos AntiviraisRESUMO
Two pegylated lipid nanocapsules for triamcinolone transdermal delivery were designed. Both present a size close to 50 nm and a single monomodal distribution in particle size (PI < 0.2), with a zeta potential of - 20 ± 2 and + 18 ± 1, respectively. The triamcinolone encapsulation efficacy varied between 68 and 80%. They proved to be stable under storage conditions (4 °C) for at least 6 months and at a physiological temperature, using different media, for 48 h. Also, they were shown not to affect cell viability at the concentrations used. For ex vivo transdermal experiments, newborn pig skin was used. With respect to the triamcinolone transdermal penetration, the nanocapsules were demonstrated to have an absorption promoting effect, both when the drug nanocapsules were in solution or loaded into the hydrogel, quantifying between 2 and 15 times more absorbed drug than the control. In addition, regarding the triamcinolone retained in the skin, it is observed that lipid nanocapsules act as triamcinolone promoters when the nanosystems were in solution and when they were included in the hydrogel. This vehicle showed a greater triamcinolone reservoir effect in comparison to the nanocapsules, proving to be a good vehicle to formulate triamcinolone transdermal delivery.
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Nanocápsulas , Animais , Hidrogéis , Lipídeos , Tamanho da Partícula , Polietilenoglicóis , Suínos , TriancinolonaRESUMO
The World Health Organization estimates that the pandemic caused by the SARS-CoV-2 virus claimed more than 3 million lives in 2020 alone. This situation has highlighted the importance of vaccination programs and the urgency of working on new technologies that allow an efficient, safe, and effective immunization. From this perspective, nanomedicine has provided novel tools for the design of the new generation of vaccines. Among the challenges of the new vaccine generations is the search for alternative routes of antigen delivery due to costs, risks, need for trained personnel, and low acceptance in the population associated with the parenteral route. Along these lines, transdermal immunization has been raised as a promising alternative for antigen delivery and vaccination based on a large absorption surface and an abundance of immune system cells. These features contribute to a high barrier capacity and high immunological efficiency for transdermal immunization. However, the stratum corneum barrier constitutes a significant challenge for generating new pharmaceutical forms for transdermal antigen delivery. This review addresses the biological bases for transdermal immunomodulation and the technological advances in the field of nanomedicine, from the passage of antigens facilitated by devices to cross the stratum corneum, to the design of nanosystems, with an emphasis on the importance of design and composition towards the new generation of needle-free nanometric transdermal systems.
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PURPOSE: Design imiquimod-loaded chitosan nanocapsules for transdermal delivery and evaluate the depth of imiquimod transdermal absorption as well as the kinetics of this absorption using Raman Microscopy, an innovative strategy to evaluate transdermal absorption. This nanovehicle included Compritol 888ATO®, a novel excipient for formulating nanosystems whose administration through the skin has not been studied until now. METHODS: Nanocapsules were made by solvent displacement method and their physicochemical properties was measured by DLS and laser-Doppler. For transdermal experiments, newborn pig skin was used. The Raman spectra were obtained using a laser excitation source at 532 nm and a 20/50X oil immersion objective. RESULTS: The designed nanocapsules, presented nanometric size (180 nm), a polydispersity index <0.2 and a zeta potential +17. The controlled release effect of Compritol was observed, with the finding that half of the drug was released at 24 h in comparison with control (p < 0.05). It was verified through Raman microscopy that imiquimod transdermal penetration is dynamic, the nanocapsules take around 50 min to penetrate the stratum corneum and 24 h after transdermal administration, the drug was in the inner layers of the skin. CONCLUSIONS: This study demonstrated the utility of Raman Microscopy to evaluate the drugs transdermal penetration of in the different layers of the skin. Graphical Abstract New imiquimod nanocapsules: evaluation of their skin absorption by Raman Microscopy and effect of the compritol 888ATO® in the imiquimod release profile.
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Quitosana/farmacocinética , Sistemas de Liberação de Medicamentos/métodos , Ácidos Graxos/farmacocinética , Imiquimode/farmacocinética , Nanocápsulas/administração & dosagem , Pele/metabolismo , Administração Cutânea , Animais , Quitosana/administração & dosagem , Quitosana/química , Ácidos Graxos/administração & dosagem , Ácidos Graxos/química , Imiquimode/administração & dosagem , Imiquimode/química , Nanocápsulas/química , Microscopia Óptica não Linear/métodos , Absorção Cutânea , SuínosRESUMO
The in vitro iontophoretic transdermal delivery of chlorpromazine (CPZ) across pig skin was investigated. Anodal iontophoresis considerably increased CPZ skin penetration and accumulation compared with the passive controls. The effect of CPZ concentration in the donor solution was studied (1.4-8.2 mM). A higher penetration was observed with an increase of the concentration. In addition, the effect of NaCl concentration was also studied (154-200 mM). As expected, CPZ iontophoretic transport decreased with NaCl content. Finally, the influence of the current density (0.20-0.50 mA/cm(2)) was investigated. The iontophoretic transport of CPZ tends to increase with current density, although this effect was not statistically significant between 0.35 and 0.5 mA/cm(2). On the whole, this work shows that iontophoresis may be used to improve the transdermal delivery of CPZ for the treatment of chronic psychosis.
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Antipsicóticos/farmacocinética , Clorpromazina/farmacocinética , Iontoforese , Absorção Cutânea , Administração Cutânea , Animais , Antipsicóticos/administração & dosagem , Clorpromazina/administração & dosagem , Relação Dose-Resposta a Droga , Técnicas In Vitro , Transtornos Psicóticos/tratamento farmacológico , Pele/metabolismo , Cloreto de Sódio/química , SuínosRESUMO
The molecules 2-pyridin-3-yl-1H-benzimidazole and 2-pyridin-3-yl-1-(3,4,5-trimethoxybenzoyl)-1H-benzimidazole are compounds that have been synthesized with the aim of finding new inhibitors of the reverse transcriptase enzyme, which is key in the process of cellular contagion of HIV. Because of the possible biological activity of these molecules, it is important to determine if some factors exist that condition their absorption across membranes. In this article, we studied the transdermal absorption of both molecules when included in solutions and microemulsions; the latter of these systems is known for their capacity to promote absorption. On the basis of the results obtained, it was determined that the absorption of 2-pyridin-3-yl-1H-benzimidazole is better in solutions than in microemulsions. This is attributed to the system of microemulsions used (myristic isopropyl ester/water/Tween 80: Span 80: 1.2 Octanediol 3:1:1.2 v/v/v), which does not provide an adequate thermodynamic activity for this molecule. In contrast, the absorption of 2-pyridin-3-yl-1-(3,4,5-trimethoxybenzoyl)-1H-benzimidazole is independent of the vehicle in which it is in, a fact attributable to the limitation of absorption due to parameters proper to this molecule, such as the value of its Log Poct, its molecular weight, or its low solubility in water. In addition, it was possible to implement a methodology based on HPLC to determine the Log P of these compounds. In this way, it was determined that the inclusion of 3,4,5-trimethoxybenzoyl moiety to the molecule 2-pyridin-3-yl-1H-benzimidazole, despite increasing the Log Poct value of this molecule up to a value considered optimal for absorption through membranes, did not produce an increase in transdermal absorption. In fact, its molar absorption diminished by more than 50%, which is attributable to the increase of molecular weight and the decrease of affinity for water that the inclusion of this group causes.