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Oral mucositis is the most common and severe non-hematological complication associated with cancer radiotherapy, chemotherapy, or their combination. Treatment of oral mucositis focuses on pain management and the use of natural anti-inflammatory, sometimes weakly antiseptic mouth rinses in combination with optimal oral cavity hygiene. To prevent negative effects of rinsing, accurate testing of oral care products is necessary. Due to their ability to mimic realistic in-vivo conditions, 3D models may be an appropriate option in compatibility testing of anti-inflammatory and antiseptically effective mouth rinses. We present a 3D model of oral mucosa based on the cell line TR-146 with a physical barrier, characterized by high transepithelial electrical resistance (TEER) and confirmed cell integrity. Histological characterization of the 3D mucosa model showed a stratified, non-keratinized multilayer of epithelial cells similar to that of human oral mucosa. By means of immuno-staining, tissue-specific expression of cytokeratin 13 and 14 was shown. Incubation of the 3D mucosa model with the rinses had no effects on cell viability, but TEER decreased 24h after incubation in all solutions except ProntOral®. Analogous to skin models, the established 3D model meets the quality control criteria of OECD guidelines and may therefore be suitable for comparing the cytocompatibility of oral rinses.
Hair follicles constitute important drug delivery targets for skin antisepsis since they contain ≈25% of the skin microbiome. Nanoparticles are known to penetrate deeply into hair follicles. By massaging the skin, the follicular penetration process is enhanced based on a ratchet effect. Subsequently, an intrafollicular drug release can be initiated by various trigger mechanisms. Here, we present novel ultraviolet A (UVA)-responsive nanocapsules (NCs) with a size between 400 and 600 nm containing hydroxyethyl starch (HES) functionalized by an o-nitrobenzyl linker. A phase transfer into phosphate-buffered saline (PBS) and ethanol was carried out, during which an aggregation of the particles was observed by means of dynamic light scattering (DLS). The highest stabilization for the target medium ethanol as well as UVA-dependent release of ethanol from the HES-NCs was achieved by adding 0.1% betaine monohydrate. Furthermore, sufficient cytocompatibility of the HES-NCs was demonstrated. On ex vivo porcine ear skin, a strong UVA-induced release of the model drug sulforhodamine 101 (SR101) could be demonstrated after application of the NCs in cyclohexane using laser scanning microscopy. In a final experiment, a microbial reduction comparable to that of an ethanol control was demonstrated on ex vivo porcine ear skin using a novel UVA-LED lamp for triggering the release of ethanol from HES-NCs. Our study provides first indications that an advanced skin antisepsis based on the eradication of intrafollicular microorganisms could be achieved by the topical application of UVA-responsive NCs.
Multiple evidence in animal models and in humans suggest a beneficial role of cold physical
plasma in wound treatment. Yet, risk assessment studies are important to further foster therapeutic
advancement and acceptance of cold plasma in clinics. Accordingly, we investigated the long-term
side effects of repetitive plasma treatment over 14 consecutive days in a rodent full-thickness ear
wound model. Subsequently, animals were housed for 350 days and sacrificed thereafter. In blood,
systemic changes of the pro-inflammatory cytokines interleukin 1β and tumor necrosis factor α
were absent. Similarly, tumor marker levels of α-fetoprotein and calcitonin remained unchanged.
Using quantitative PCR, the expression levels of several cytokines and tumor markers in liver,
lung, and skin were found to be similar in the control and treatment group as well. Likewise,
histological and immunohistochemical analysis failed to detect abnormal morphological changes
and the presence of tumor markers such as carcinoembryonic antigen, α-fetoprotein, or the neighbor
of Punc 11. Absence of neoplastic lesions was confirmed by non-invasive imaging methods such as
anatomical magnetic resonance imaging and positron emission tomography-computed tomography.
Our results suggest that the beneficial effects of cold plasma in wound healing come without apparent
side effects including tumor formation or chronic inflammation.
Contaminated surfaces have been discussed as a possible source of severe acute respiratory
syndrome coronavirus-2 (SARS-CoV-2). Under experimental conditions, SARS-CoV-2 can remain
infectious on surfaces for several days. However, the frequency of SARS-CoV-2 detection on surfaces
in healthcare settings and the public is currently not known. A systematic literature review was
performed. On surfaces around COVID-19 cases in healthcare settings (42 studies), the SARS-CoV2 RNA detection rates mostly were between 0% and 27% (Ct values mostly > 30). Detection of
infectious SARS-CoV-2 was only successful in one of seven studies in 9.2% of 76 samples. Most of the
positive samples were obtained next to a patient with frequent sputum spitting during sampling.
Eight studies were found with data from public surfaces and RNA detection rates between 0% and
22.1% (Ct values mostly > 30). Detection of infectious virus was not attempted. Similar results
were found in samples from surfaces around confirmed COVID-19 cases in non-healthcare settings
(7 studies) and from personal protective equipment (10 studies). Therefore, it seems plausible to
assume that inanimate surfaces are not a relevant source for transmission of SARS-CoV-2. In public
settings, the associated risks of regular surface disinfection probably outweigh the expectable health
benefit
Cold physical plasma is a partially ionized gas expelling many reactive oxygen and nitrogen
species (ROS/RNS). Several plasma devices have been licensed for medical use in dermatology, and
recent experimental studies suggest their putative role in cancer treatment. In cancer therapies with
an immunological dimension, successful antigen presentation and inflammation modulation is a
key hallmark to elicit antitumor immunity. Dendritic cells (DCs) are critical for this task. However,
the inflammatory consequences of DCs following plasma exposure are unknown. To this end,
human monocyte-derived DCs (moDCs) were expanded from isolated human primary monocytes;
exposed to plasma; and their metabolic activity, surface marker expression, and cytokine profiles
were analyzed. As controls, hydrogen peroxide, hypochlorous acid, and peroxynitrite were used.
Among all types of ROS/RNS-mediated treatments, plasma exposure exerted the most notable
increase of activation markers at 24 h such as CD25, CD40, and CD83 known to be crucial for T cell
costimulation. Moreover, the treatments increased interleukin (IL)-1α, IL-6, and IL-23. Altogether,
this study suggests plasma treatment augmenting costimulatory ligand and cytokine expression in
human moDCs, which might exert beneficial effects in the tumor microenvironment.
COVID-19 Vaccinated Individuals Can Be a Source of SARS-CoV-2 Transmission—A Systematic Review
(2021)
Fundamental rights are probably given back earlier to COVID-19 vaccinated individuals
assuming that they cannot spread SARS-CoV-2 anymore. The objective of the study was to determine
if COVID-19 vaccinated individuals can still be the source of SARS-CoV-2 transmission. PubMed
was searched for studies on 4 April 2021. All studies with original data on COVID-19 cases among
vaccinated individuals (phase III RCTs) and on viral load in the upper respiratory tract of vaccinated
macaques after a SARS-CoV-2 challenge were included. Symptomatic COVID-19 cases were found
in four trials among vaccinated participants although less frequently than among control subjects.
One study revealed asymptomatic COVID-19 cases in a similar frequency among 2.168 AZD1222-
vaccinated subjects (1.0%) compared to 2.223 control subjects (1.0%). In 15 studies with vaccinated
macaques, it was found that the load of SARS-CoV-2 RNA, subgenomic RNA and infectious virus
in the upper respiratory tract is variable. Sterilizing immunity was found in none of the animal
studies. Major limitations of the animal studies are that the SARS-CoV-2 challenge took place within
a few weeks of the final or only vaccine dose, that the viral challenge was often high and, in some
studies, administered by up to four routes. Based on current knowledge it seems clear that COVID-19
vaccinated individuals can still be the source of SARS-CoV-2 transmission.
The loss of skin integrity is inevitable in life. Wound healing is a necessary sequence of events to reconstitute the body’s integrity against potentially harmful environmental agents and restore homeostasis. Attempts to improve cutaneous wound healing are therefore as old as humanity itself. Furthermore, nowadays, targeting defective wound healing is of utmost importance in an aging society with underlying diseases such as diabetes and vascular insufficiencies being on the rise. Because chronic wounds’ etiology and specific traits differ, there is widespread polypragmasia in targeting non-healing conditions. Reactive oxygen and nitrogen species (ROS/RNS) are an overarching theme accompanying wound healing and its biological stages. ROS are signaling agents generated by phagocytes to inactivate pathogens. Although ROS/RNS’s central role in the biology of wound healing has long been appreciated, it was only until the recent decade that these agents were explicitly used to target defective wound healing using gas plasma technology. Gas plasma is a physical state of matter and is a partially ionized gas operated at body temperature which generates a plethora of ROS/RNS simultaneously in a spatiotemporally controlled manner. Animal models of wound healing have been vital in driving the development of these wound healing-promoting technologies, and this review summarizes the current knowledge and identifies open ends derived from in vivo wound models under gas plasma therapy. While gas plasma-assisted wound healing in humans has become well established in Europe, veterinary medicine is an emerging field with great potential to improve the lives of suffering animals.
Unlike the native surface of the implant material (Ti6Al4V), oxidation with H2O2 leads to increased binding of the effective antimicrobial agent poly(hexamethylene) biguanide [PHMB]. However, treating with NaOH instead results in an even higher PHMB mass coverage. After oxidation with H2O2, strong differences in the PHMB adsorption capability between polished and corundum-blasted surfaces appear, indicating a roughness dependence. After NaOH treatment, no such effect was observed. The wetting properties of specimens treated with either H2O2 or NaOH prior to PHMB exposure clearly varied. To unravel the nature of this interaction, widespread in silico and in vitro experiments were performed. Methods: By X-ray photoelectron spectroscopy, scanning electron microscopy, water contact angle measurements and MD simulations, we characterized the interplay between the polycationic antimicrobial agent and the implant surface. A theoretical model for PHMB micelles is tested for its wetting properties and compared to carbon contaminated TiO2. In addition, quantitation of anionic functional group equivalents, the binding properties of PHMB with blocked amino end-group, and the ability to bind chlorhexidine digluconate (CHG) were investigated. Ultimately, the capability of osteoblasts to build calcium apatite, and the activity of alkaline phosphatase on PHMB coated specimens, were determined. Results: Simulated water contact angles on carbon contaminated TiO2 surfaces and PHMB micelle models reveal little influence of PHMB on the wetting properties and point out the major influence of remaining and recovering contamination from ambient air. Testing PHMB adsorption beyond the critical micelle concentration and subsequent staining reveals an island-like pattern with H2O2 as compared to an evenly modified surface with NaOH. Both CHG and PHMB, with blocked amino end groups, were adsorbed on the treated surfaces, thus negating the significant influence of PHMB’s terminal groups. The ability of osteoblasts to produce calcium apatite and alkaline phosphatase is not negatively impaired for PHMB mass coverages up to 8 μg/specimen. Conclusion: Differences in PHMB adsorption are triggered by the number of anionic groups and carbon contaminants, both of which depend on the specimen pre-treatment. With more PHMB covering, the implant surface is protected against the capture of new contamination from the ambient air, thus building a robust antimicrobial and biocompatible surface coating.