Time-dependent efficacy and safety of tooth bleaching with cold plasma and H2O2 gel.

BACKGROUND: Hydrogen peroxide (H2O2) is the commonly used bleaching agent for teeth. But it is highly corrosive to teeth for the high concentration. The cold atmospheric pressure plasma has been witnessed a novel tooth bleaching technology and could help strengthen the bleaching effect when combined with H2O2. However, the efficacy and safety might highly correlated with processing time. The present study aims to evaluate the time-dependent efficacy and safety of tooth bleaching with cold plasma and H2O2 gel in vitro. METHODS: The H2O2 concentrations of the gel used in the study are 6%, 15%, 25% and 35%, respectively and the treatment time varies from 5 to 20 min. The tooth bleaching effect was evaluated by a Crystaleye Spectrophotometer and the overall change of the colorimetric value based on three independent measurements. Meanwhile, the microhardness, roughness and tooth temperature were evaluated. The surface morphology and the elemental composition were determined by scanning electron microscope and energy-dispersive X-ray spectroscopy. RESULTS: 5 min bleaching treatment contributed to 60% of the bleaching effect maximum, the 10 min effect was close to 15 min effect. Meanwhile, the microhardness reduced and roughness increased under a treatment which was longer than 20 min. Tooth pulp chamber temperature was keeping in a safe range within 20 min treatment. CONCLUSION: 5-10 min was the best treatment time from which we can get an ideal tooth bleaching effect and less influence on tooth enamel and pulp tissue when using cold plasma and H2O2 gel.

Evaluation of cold atmospheric microwave plasma on skin physiological parameters and tolerability in dogs.

BACKGROUND: Cold atmospheric microwave plasma (CAMP) is a promising therapeutic option for treating skin infections and wounds. Changes in biophysical skin parameters and the tolerability in dogs after applying CAMP is unknown. OBJECTIVE: This study aimed to evaluate the in vivo effects of CAMP on skin biophysical parameters [hydration, transepidermal water loss (TEWL) and surface temperature] and tolerability in dogs. ANIMALS: Twenty client-owned dogs with normal skin. MATERIALS AND METHODS: Cold atmospheric microwave plasma treatment was performed for 30 s and 1, 2 and 4 min, respectively, at different sites of normal canine skin in the inguinal area. Hydration, TEWL and surface temperature were measured five, three and three times, respectively, before and after CAMP application. After treatment, pain and adverse effects were evaluated using a modified Melbourne Pain Scale and the modified short form Glasgow Composite Measure Pain Scale (modified CMPS-SF). RESULTS: Transepidermal water loss values significantly decreased with 4 min of treatment, and hydration decreased significantly with 2 min of treatment. Temperature increased significantly with increasing treatment time. For other parameters, no significant changes were observed. No significant pain response or adverse effects were observed in most dogs, aside from mild erythema in the treatment area after 4 min. CONCLUSION AND CLINICAL SIGNIFICANCE: Cold atmospheric microwave plasma treatment was well-tolerated and did not significantly change canine skin biophysical parameters. CAMP achieves basic recommendations for safe use and is a potential therapeutic option for various skin diseases in dogs.

Contexte - Le CAMP (Cold Atmospheric Microwave Plasma) est une option thérapeutique prometteuse pour le traitement des infections cutanées et des plaies. Les modifications des paramètres biophysiques de la peau et la tolérance chez les chiens après l'application de CAMP sont inconnues. Objectif - Cette étude visait à évaluer les effets in vivo du CAMP sur les paramètres biophysiques de la peau [hydratation, perte d'eau transépidermique (TEWL) et température de surface] et la tolérance chez le chien. Animaux - Vingt chiens de propriétaires à peau normale. Matériels et méthodes - Le traitement CAMP a été effectué pendant 30 s et 1, 2 et 4 min, respectivement, sur différents sites de peau canine normale dans la région inguinale. L'hydratation, la TEWL et la température de surface ont été mesurées cinq, trois et trois fois, respectivement, avant et après l'application de CAMP. Après le traitement, la douleur et les effets indésirables ont été évalués à l'aide d'une échelle de douleur de Melbourne modifiée et de la forme courte modifiée de l'échelle de mesure de la douleur composite de Glasgow (CMPS-SF modifiée). Résultats - Les valeurs de TEWL ont diminué de manière significative après 4 minutes de traitement et l'hydratation a diminué de manière significative après 2 minutes de traitement. La température a augmenté de manière significative avec l'augmentation du temps de traitement. Pour les autres paramètres, aucun changement significatif n'a été observé. Aucune réponse significative à la douleur ni aucun effet indésirable n'ont été observés chez la plupart des chiens, à l'exception d'un léger érythème dans la zone de traitement après 4 minutes. Conclusion et signification clinique - Le traitement CAMP a été bien toléré et n'a pas modifié de manière significative les paramètres biophysiques de la peau canine. CAMP répond aux recommandations de base pour une utilisation sûre et constitue une option thérapeutique potentielle pour diverses maladies de la peau chez les chiens.

Introducción- el plasma de microondas atmosférico frío (CAMP) es una opción terapéutica prometedora para el tratamiento de infecciones y heridas de la piel. Se desconocen los cambios en los parámetros biofísicos de la piel y la tolerabilidad en perros después de aplicar CAMP. Objetivo- este estudio tuvo como objetivo evaluar los efectos in vivo de CAMP en los parámetros biofísicos de la piel [hidratación, pérdida de agua transepidérmica (TEWL) y temperatura superficial] y la tolerabilidad en perros. Animales - Veinte perros de propietarios particulares con piel normal. Materiales y métodos - El tratamiento CAMP se realizó durante 30 s y 1, 2 y 4 min, respectivamente, en diferentes sitios de piel canina normal en el área inguinal. La hidratación, el TEWL y la temperatura superficial se midieron cinco, tres y tres veces, respectivamente, antes y después de la aplicación de CAMP. Después del tratamiento, el dolor y los efectos adversos se evaluaron mediante una escala de dolor de Melbourne modificada y la escala de dolor de medida compuesta de Glasgow de forma abreviada modificada (CMPS-SF modificada). Resultados- los valores de TEWL disminuyeron significativamente con 4 min de tratamiento y la hidratación disminuyó significativamente con 2 min de tratamiento. La temperatura aumentó significativamente con el aumento del tiempo de tratamiento. Para otros parámetros no se observaron cambios significativos. En la mayoría de los perros no se observaron reacciones significativas de dolor ni efectos adversos, aparte de un leve eritema en el área de tratamiento después de 4 min. Conclusión y significado clínico- el tratamiento con CAMP fue bien tolerado y no cambió significativamente los parámetros biofísicos de la piel canina. CAMP obtuvo recomendaciones básicas para un uso seguro y es una opción terapéutica potencial para diversas enfermedades de la piel en perros.

Contexto - O plasma frio atmosférico de micro-ondas (CAMP) é uma opção terapêutica promissora para o tratamento de infecções cutâneas e feridas. Não se sabe a respeito das alterações nos parâmetros biofísicos da pele e a tolerabilidade de cães após a aplicação de CAMP. Objetivo - Este estudo tem como objetivo avaliar os efeitos in vivo de CAMP nos parâmetros biofísicos da pele [hidratação, perda de água transepidérmica (TEWL) e temperatura da superfície] e a tolerabilidade em cães. Materiais e métodos - O tratamento com CAMP foi realizado por 30s e 1, 2 e 4 min, respectivamente, em diferentes locais da pele canina normal na região inguinal. Hidratação, TEWL e temperatura da superfície foram medidas cinco, três e três vezes, respectivamente, antes e após a aplicação do CAMP. Após o tratamento, a dor e os efeitos adversos foram avaliados usando uma escala de dor de Melbourne modificada e a escala de medida composta de dor de Glasgow modificada (CMPS-SF modificada). Resultados - Os valores de TEWL reduziram significativamente com o tratamento de 4 min, e a hidratação reduziu significativamente com dois minutos de tratamento. A temperatura aumentou significativamente com o aumento do tempo de tratamento. Não foram observadas alterações significativas para outros parâmetros. Não se observou uma resposta de dor significativa ou efeitos adversos na maioria dos cães, além de eritema leve na área tratada após 4 min. Conclusão e significância clínica - O tratamento com CAMP foi bem tolerado e não alterou significativamente os parâmetros biofísicos da pele canina. CAMP requer recomendações básicas de segurança na sua utilização e é uma opção terapêutica potencial para várias dermatopatias em cães.

H2A.X Phosphorylation in Oxidative Stress and Risk Assessment in Plasma Medicine.

At serine139-phosphorylated gamma histone H2A.X (γH2A.X) has been established over the decades as sensitive evidence of radiation-induced DNA damage, especially DNA double-strand breaks (DSBs) in radiation biology. Therefore, γH2A.X has been considered a suitable marker for biomedical applications and a general indicator of direct DNA damage with other therapeutic agents, such as cold physical plasma. Medical plasma technology generates a partially ionized gas releasing a plethora of reactive oxygen and nitrogen species (ROS) simultaneously that have been used for therapeutic purposes such as wound healing and cancer treatment. The quantification of γH2A.X as a surrogate parameter of direct DNA damage has often been used to assess genotoxicity in plasma-treated cells, whereas no sustainable mutagenic potential of the medical plasma treatment could be identified despite H2A.X phosphorylation. However, phosphorylated H2A.X occurs during apoptosis, which is associated with exposure to cold plasma and ROS. This review summarizes the current understanding of γH2A.X induction and function in oxidative stress in general and plasma medicine in particular. Due to the progress towards understanding the mechanisms of H2A.X phosphorylation in the absence of DSB and ROS, observations of γH2A.X in medical fields should be carefully interpreted.

Plasma-Induced Oxidation Products of (-)-Epigallocatechin Gallate with Digestive Enzymes Inhibitory Effects.

(-)-Epigallocatechin gallate (EGCG), the chief dietary constituent in green tea (Camellia sinensis), is relatively unstable under oxidative conditions. This study evaluated the use of non-thermal dielectric barrier discharge (DBD) plasma to improve the anti-digestive enzyme capacities of EGCG oxidation products. Pure EGCG was dissolved in an aqueous solution and irradiated with DBD plasma for 20, 40, and 60 min. The reactant, irradiated for 60 min, exhibited improved inhibitory properties against α-glucosidase and α-amylase compared with the parent EGCG. The chemical structures of these oxidation products 1-3 from the EGCG, irradiated with the plasma for 60 min, were characterized using spectroscopic methods. Among the oxidation products, EGCG quinone dimer A (1) showed the most potent inhibitory effects toward α-glucosidase and α-amylase with IC50 values of 15.9 ± 0.3 and 18.7 ± 0.3 µM, respectively. These values were significantly higher than that of the positive control, acarbose. Compound 1, which was the most active, was the most abundant in the plasma-irradiated reactant for 60 min according to quantitative high-performance liquid chromatography analysis. These results suggest that the increased biological capacity of EGCG can be attributed to the structural changes to EGCG in H2O, induced by cold plasma irradiation.

The repetitive application of cold atmospheric plasma (CAP) improves microcirculation parameters in chronic wounds.

BACKGROUND: Chronic wounds, such as venous leg ulcers, diabetic foot ulcers, and pressure ulcers, impose a significant burden on patients and health care systems worldwide. Cold atmospheric plasma (CAP) accelerates wound healing and decreases bacterial load in chronic wounds in both in vitro and in vivo experiments. For the first time, we examined the effects of a repetitive application of CAP on the microcirculation in chronic wounds. HYPOTHESIS: The repetitive application of cold atmospheric plasma application further improves microcirculation in chronic wounds. METHODS: Twenty patients with chronic wounds were treated repetitively with CAP. The repetitive application consisted of three CAP sessions, each lasting 90 s and separated by a 10-minute microcirculation measuring period. Microcirculation parameters were assessed with combined Laser-Doppler-Flowmetry and spectrophotometry in a tissue depth of 2 mm. RESULTS: Tissue oxygen saturation was significantly increased after the first CAP application. The effect amplitude and duration were further increased after the second and third CAP application with a maximum increase by 16,7% (percent change; p = 0,004 vs. baseline) after the third application. There was no significant increase in capillary blood flow until the third CAP application. After the third CAP application, an increase by 22,6% (p = 0,014) was observed. Postcapillary filling pressure was not significantly increased over the measuring period. The repetitive application of CAP further enhances the microcirculation in chronic wounds compared to a single application. CONCLUSION: The repetitive application of CAP boosts and prolongs tissue oxygen saturation and capillary blood flow in chronic wounds compared to a single application. This insight could provide an impetus for new treatment protocols.

Combination of atmospheric and room temperature plasma (ARTP) mutagenesis, genome shuffling and dimethyl sulfoxide (DMSO) feeding to improve FK506 production in Streptomyces tsukubaensis.

FK506 is a clinically important macrocyclic polyketide with immunosuppressive activity produced by Streptomyces tsukubaensis. However, the production capacity of the strain is very low. To improve production, atmospheric and room temperature plasma (ARTP) mutagenesis was adopted to get the initial strains used in genome shuffling (GS). After three rounds of GS, S. tsukubaensis R3-C4 was the most productive strain, resulting in a FK506 concentration of 335 µg/mL, 2.6 times than that of the original wild-type strain. Moreover, exogenous DMSO 4% (v/v) addition could induce efflux of FK506 and increased FK506 production by 27.9% to 429 µg/mL. Finally, analyses of the differences in morphology, fermentation characteristics and specific gene expression levels between S. tsukubaensis R3-C4 and the wild-type strain revealed that R3-C4 strain: has hampered spore differentiation, thicker mycelia and more red pigment, which are likely related to the downregulation of bldD and cdgB expression. In addition, the expression levels of fkbO, fkbP, dahp, pccB and prpE all showed up-regulation at diverse degrees compared to the wild-type S. tsukubaensis. Overall, these results show that a combined approach involving classical random mutation and exogenous feeding can be applied to increase FK506 biosynthesis and may be applied also to the improvement of other important secondary metabolites.

Platinum nanoparticles inhibit intracellular ROS generation and protect against cold atmospheric plasma-induced cytotoxicity.

Platinum nanoparticles (PtNPs) have been investigated for their antioxidant abilities in a range of biological and other applications. The ability to reduce off-target cold atmospheric plasma (CAP) cytotoxicity would be useful in Plasma Medicine; however, little has been published to date about the ability of PtNPs to reduce or inhibit the effects of CAP. Here we investigate whether PtNPs can protect against CAP-induced cytotoxicity in cancerous and non-cancerous cell lines. PtNPs were shown to dramatically reduce intracellular reactive species (RONS) production in U-251 MG cells. However, RONS generation was unaffected by PtNPs in medium without cells. PtNPs protect against CAP induced mitochondrial membrane depolarization, but not cell membrane permeabilization which is a CAP-induced RONS-independent event. PtNPs act as potent intracellular scavengers of reactive species and can protect against CAP induced cytotoxicity. PtNPs, showing no significant biocorrosion, may be useful as a catalytic antioxidant for healthy tissue and for protecting against CAP-induced tissue damage.

Cold atmospheric plasma improves cutaneous microcirculation in standardized acute wounds: Results of a controlled, prospective cohort study.

BACKGROUND: Given the high prevalence of wounds and their challenging treatment, the research of therapies to improve wound healing is of great clinical interest. In addition, the general consequences of developing chronic wounds constitute a large health economic aspect, which underscores the interest in the development of efficient treatment strategies. Direct cold atmospheric plasma (di_CAP) has been shown to have beneficial effects on microcirculation of human tissue (Kisch et al., 2016a). It also affects microbial settlements, which may have supportive effects on wound healing processes (Balzer et al., 2015). To treat these adequately, in our view, the positive effects on wound healing should be objectified by application on standardized wounds. However, wound healing is a complex process, depending on nutrient and oxygen supply by cutaneous blood circulation. In spite of microcirculation has been shown to improve in healthy skin by CAP, a quantification of the effect in a standardized wound model has never been evaluated (Kisch et al., 2016a). Based on this, we hypothesize that CAP also influences the microcirculation in standardized acute wounds in a prospective cohort study. METHODS: Microcirculatory data of 20 healthy subjects (14 males, 6 females; mean age 40.85 ± 15.84 years; BMI 26.83 ± 7.27 kg/m2) were recorded continuously at a standardized acute wound after skin transplantation (donor site) at the thigh. Under standardized conditions, microcirculatory measurements were performed using a combined laser Doppler and photospectrometry system. After baseline measurement, CAP was applied by a dielectric barrier discharge (DBD) plasma device for 90 s to the acute wound area. Immediately after the application, cutaneous microcirculation was assessed for 30 min (min) at the same site. RESULTS: After CAP application, tissue oxygen saturation immediately increased by 5% (92,66 ± 4,76% vs. Baseline 88,21 ± 6,52%, p < 0,01) in the first 60 s and remained significantly elevated for 4 min. Capillary blood flow increased by 19.3% within the first minute of CAP therapy (220.14 ± 65.91 AU vs. Baseline 184.52 ± 56.77 AU, p < 0.001). The statistically highly significant increase in blood flow continued over the entire measurement time. A maximum value was shown in the blood flow in the 15th minute (232.15 ± 58.90 AU, p < 0.001) according to CAP application. With regard to the output measurement, it represents a percentage increase of 25.8%. The measurement of post-capillary venous filling pressure at a tissue depth of 6-8 mm was 59.39 ± AU 12.94 at baseline measurement. After application, there were no significant changes. CONCLUSION: CAP increases cutaneous tissue oxygen saturation and capillary blood flow at the standardized acute wound healing model. These results support recently published data on wound healing after CAP treatment. However, further studies are needed to determine if this treatment can improve the reduced microcirculation in chronic wounds. Moreover, repetitive application protocols have to be compared with a single session treatment approach.

Cold atmospheric pressure He-plasma jet and plasma ball interactions with the Venus flytrap: Electrophysiology and side effects.

Cold atmospheric pressure radio frequency plasma (CAPP) can play an important role in agriculture, medicine, biophysical and bioelectrochemical applications, disinfection and sterilization, synthesis of different compounds, nitrogen fixation, and treatment of surfaces. Here we found that reactive oxygen and nitrogen species, UV-Vis photons, and high-frequency strong electromagnetic fields with an amplitude of a few kV produced by a cold plasma jet can interact with bio-tissue and damage it if the plasma treatment is long enough. The electrophysiological effects of CAPP treatment of bio-tissue and electrical signals transmission were measured in the Venus flytrap. The plasma ball does not produce any visible side effects on the Venus flytrap, but induces electrical signals in bio-tissue with very high amplitude. Plasma (Kirlian) photography shows the existence of a blue aura around the plasma ball due to a corona discharge. Understanding the mechanisms of interactions between CAPP and bio-tissue and preventing side effects can contribute to the application of plasma technology in medicine and agriculture. The use of cold plasma in medicine and agriculture should be monitored for side effects from strong high-frequency electro-magnetic fields, UV photons, and reactive oxygen and nitrogen species to protect against undesirable consequences.

Improvement of tacrolimus production in Streptomyces tsukubaensis by mutagenesis and optimization of fermentation medium using Plackett-Burman design combined with response surface methodology.

OBJECTIVE: This study was conducted to enhance the production of tacrolimus in Streptomyces tsukubaensis by strain mutagenesis and optimization of the fermentation medium. RESULTS: A high tacrolimus producing strain S. tsukubaensis FIM-16-06 was obtained by ultraviolet mutagenesis coupled with atmospheric and room temperature plasma mutagenesis.Then, nine variables were screened using Plackett-Burman experimental design, in which soluble starch, peptone and Tween 80 showed significantly affected tacrolimus production. Further studies were carried out employing central composite design to elucidate the mutual interaction between the variables and to work out optimal fermentation medium composition for tacrolimus production. The optimum fermentation medium was found to contain 61.61 g/L of soluble starch, 20.61 g/L of peptone and 30.79 g/L of Tween 80. In the optimized medium, the production of tacrolimus reached 1293 mg/L in shake-flask culture, and reached 1522 mg/L while the scaled-up fermentation was conducted in a 1000 L fermenter, which was about 3.7 times higher than that in the original medium. CONCLUSIONS: Combining compound mutation with rational medium optimization is an effective approach for improving tacrolimus production, and the optimized fermentation medium could be efficiently used for industrial production.

Efeitos do plasma frio sob pressão atmosférica como adjuvante no controle da periodontite experimental induzida por Aggregatibacter actinomycetemcomitans / Effect of atmospheric pressure cold plasma as adjuvante in the control of experimental periodontitis induced by Aggregatibacter actinomycetemcomitans

A etiopatogenia da doença periodontal é complexa e exige estudos constantes em alternativas terapêuticas que possibilitem seu controle. Aggregatibacter actinomycetemcomitans está associado fortemente à periodontite crônica e à periodontite agressiva. A tecnologia do plasma frio sob pressão atmosférica tem potencial para uso na odontologia, mas sua aplicação na periodontia ainda é pouco explorada. Este estudo teve como objetivo avaliar os efeitos do plasma de baixa temperatura sob pressão atmosférica (PBTPA) como adjuvante no controle da doença periodontal experimental induzida por ligadura, inoculada com A. actinomycetemcomitans, na região cervical do primeiro molar inferior em modelo murino. Inicialmente, foram determinados os parâmetros físicos efetivos para inibição de biofilmes de A. actinomycetemcomitans utilizando cepa padrão American Type Culture Collection ATCC 29523. Foram realizados testes de screening inicial com a verificação da inibição do crescimento por exposição ao PBTPA de A. actinomycetemcomitans semeados em placas de Petri. Posteriormente, foram formados biofilmes em placas de microtitulação e foram determinados os parâmetros físicos efetivos do PBTPA. Foram realizados experimentos in vivo de indução de doença periodontal por A. actinomycetemcomitans em modelo utilizando ligaduras em ratos. A tomografia computadorizada de feixe cônico foi utilizada para avaliar o nível de perda óssea após período experimental. Os resultados mostraram que o PBTPA foi efetivo na eliminação do micro-organismo observado através da formação de halos de inibição nos tempos de 5 e 7, 5 minutos e sobre biofilmes de A. actinomycetemcomitans expostos ao PBTPA no tempo de 5 minutos. Os resultados exibiram diferença estatística significativa (p <0,001) na distância entre a junção esmalte-cemento e a crista óssea alveolar, do grupo tratado com PBTPA em relação ao grupo raspagem e ao grupo controle. Os resultados do presente estudo sugerem o potencial do PBTPA no controle da periodontite induzida, contudo análises adicionais são necessárias(AU)

The etiopathogenesis of periodontal disease is complex requiring constant studies of therapeutic alternatives that enable its control. Aggregatibacter actinomycetemcomitans is strongly associated with chronic periodontitis and aggressive periodontitis. Cold plasma technology under atmospheric pressure has potential for use in dentistry, but its application in periodontics is still not well explored. This study aimed to evaluate the effects of low temperature atmospheric pressure plasma (PBTPA) as an adjuvant in the control of experimental periodontal disease induced by ligature inoculated with A. actinomycetemcomitans in the cervical region of the lower 1st molar in a murine model. Initially, effective physical parameters for inhibition of A. actinomycetemcomitans biofilms were determined using the standard strain American Type Culture Collection ATCC 29523. Initial screening tests were performed to verify growth inhibition after exposure of A. actinomycetemcomitans seeded in Petri dishes to the PBTPA. Subsequently, biofilms were formed on microtiter plates and the effective physical parameters of the PBTPA were determined. In vivo experiments were carried out to induce A. actinomycetemcomitans periodontal disease induced by ligature in a rat model. Cone beam computed tomography was used to assess the level of bone loss after the experimental period. The results showed that PBTPA was effective in eliminating the microorganism observed through the formation of halos inhibition during 5 and 7.5 minutes and in A. actinomycetemcomitans biofilms exposed to PBTPA at 5 minutes. The previous study using PBTPA in 5 minutes did not show cytotoxicity in Vero cells. The results showed a statistically significant difference (p <0.0001) in the distance between the enamel-cement joint and the alveolar bone crest, of the group treated with PBTPA in relation to the scalling group and the control group, confirming the potential of the technique in dentistry(AU)

Tolerability of Six Months Indirect Cold (Physical) Plasma Treatment of the Scalp for Hair Loss.

Androgenetic alopecia (AGA) is a chronic form of hair loss. Cold atmospheric (physical) plasma (CAP) is partly ionized gas with various widely researched effects on living tissues. CAP is an emerging treatment modality in dermatology with uses for chronic leg ulcer, actinic keratosis, warts, and other applications. Its previously demonstrated ability to induce stem cell differentiation in various cell types makes CAP a possible treatment option for AGA. Directly creating CAP on the scalp surface has drawbacks, but indirect CAP treatment—when a CAP-treated liquid is used as topical therapy—offers an alternative. In a clinical pilot study, we treated 14 patients with AGA using the indirect CAP method for three months (4 patients) and six months (10 patients). The indirect CAP treatment was well tolerated and while the primary goal of the study was not to assess efficacy, most patients reported improvement, and the investigator’s assessment also showed improvement in most patients. Our findings create the foundation for longer, extensive trials to systematically assess the efficacy of indirect CAP treatment for AGA. ClinicalTrials.gov: NCT04379752 J Drugs Dermatol. 2020;19(12): doi:10.36849/JDD.2020.5186.

Non-Thermal Plasma-A New Green Priming Agent for Plants?

Since the earliest agricultural attempts, humankind has been trying to improve crop quality and yields, as well as protect them from adverse conditions. Strategies to meet these goals include breeding, the use of fertilisers, and the genetic manipulation of crops, but also an interesting phenomenon called priming or adaptive response. Priming is based on an application of mild stress to prime a plant for another, mostly stronger stress. There are many priming techniques, such as osmopriming, halopriming, or using physical agents. Non-thermal plasma (NTP) represents a physical agent that contains a mixture of charged, neutral, and radical (mostly reactive oxygen and nitrogen species) particles, and can cause oxidative stress or even the death of cells or organisms upon interaction. However, under certain conditions, NTP can have the opposite effect, which has been previously documented for many plant species. Seed surface sterilization and growth enhancement are the most-reported positive effects of NTP on plants. Moreover, some studies suggest the role of NTP as a promising priming agent. This review deals with the effects of NTP treatment on plants from interaction with seed and cell surface, influence on cellular molecular processes, up to the adaptive response caused by NTP.

Large-Scale Image Analysis for Investigating Spatio-Temporal Changes in Nuclear DNA Damage Caused by Nitrogen Atmospheric Pressure Plasma Jets.

The effective clinical application of atmospheric pressure plasma jet (APPJ) treatments requires a well-founded methodology that can describe the interactions between the plasma jet and a treated sample and the temporal and spatial changes that result from the treatment. In this study, we developed a large-scale image analysis method to identify the cell-cycle stage and quantify damage to nuclear DNA in single cells. The method was then tested and used to examine spatio-temporal distributions of nuclear DNA damage in two cell lines from the same anatomic location, namely the oral cavity, after treatment with a nitrogen APPJ. One cell line was malignant, and the other, nonmalignant. The results showed that DNA damage in cancer cells was maximized at the plasma jet treatment region, where the APPJ directly contacted the sample, and declined radially outward. As incubation continued, DNA damage in cancer cells decreased slightly over the first 4 h before rapidly decreasing by approximately 60% at 8 h post-treatment. In nonmalignant cells, no damage was observed within 1 h after treatment, but damage was detected 2 h after treatment. Notably, the damage was 5-fold less than that detected in irradiated cancer cells. Moreover, examining damage with respect to the cell cycle showed that S phase cells were more susceptible to DNA damage than either G1 or G2 phase cells. The proposed methodology for large-scale image analysis is not limited to APPJ post-treatment applications and can be utilized to evaluate biological samples affected by any type of radiation, and, more so, the cell-cycle classification can be used on any cell type with any nuclear DNA staining.

Emission of Ultraviolet Radiation from 220 to 280 NM by a Cold Physical Plasma Generating Device.

The generation of cold physical plasma at atmospheric pressure (cold atmospheric plasma: CAP) generates different reactive molecular species as well as radiation in the ultraviolet (UV) range. The therapy of tumor diseases has proven to be a new promising area of application for CAP treatment. With regard to the routine use of CAP in cancer therapy, however, application safety must be ensured both for the patient and for the operator. In this study, the intensity of UVC radiation of the CAP device MiniJet-R (HF Technik, Aachen, Germany) was measured in the range from 220 to 280 nm depending on various device-specific parameters. Depending on the distance to the CAP flame, the UVC intensity reaches values up to 124.5±11 mW m. It should be noted here that the UVC radiation generated by the CAP is emitted in all orientations in the room but is also shielded by the geometry of the handpiece of the CAP device. The device-specific settings for the flow rate of the carrier gas, argon, and the power level at the high-frequency (HF) generator of the CAP device also influence the intensity of the UVC radiation. With regard to the medical use of the CAP device, it can be stated that there is an exposure to UVC radiation, which, depending on the duration of treatment, can also be above the maximum value legally specified in Europe. Shielding components on the CAP device can reduce UVC exposure to the operator as well as adverse side effects to the patient.

Synergic effect of plasma exeresis and non-cross-linked low and high molecular weight hyaluronic acid to improve neck skin laxities.

BACKGROUND: Many therapeutic options are today available for neck aging, but little evidence exists about the efficacy of combining such procedures. Nonsurgical treatment of neck laxities and wrinkles is often preferred by patients, and combined strategies are nowadays emerging as the standard of care. Both plasma exeresis and hyaluronic acid (HA) injection are two emerging techniques in this setting. AIMS: To investigate the synergic effect of plasma exeresis and non-cross-linked HA injection, in stabilized hybrid complex of low and high molecular weight, in terms of both tolerability (assessed using VAS scale of pain) and improvement of neck skin laxities, according to the GAIS score assigned by patients and clinicians. PATIENTS/METHODS: Ten consecutive patients with signs of neck skin laxities (≥ type 3 according to the Glogau wrinkle scale) aged between 35 and 65 years were enrolled in our study. Two treatment sessions were performed. During the first session, both plasma exeresis and HA injection were performed. Patients were re-evauated after 30 days, and HA injection in the wrinkles of the neck was repeated. After 30 days from the second treatment session, a follow-up visit was performed to assess global efficacy of the two-step combined treatment and to monitor eventual long-term side effects. RESULTS: A GAIS score of 1 or 2 was present in 90% of the treated cases, according to both patients and clinicians. Mean VAS value for pain was 2.4/10. Minor side effects such as erythema and/or edema were transient and completely resolved. No major adverse events were observed. CONCLUSIONS: We strongly encourage the combined treatment with plasma exeresis and non-cross-linked HA injection for its promising remodeling effects in the field of neck rejuvenation.

Notch signalling is a potential resistance mechanism of progenitor cells within patient-derived prostate cultures following ROS-inducing treatments.

Low Temperature Plasma (LTP) generates reactive oxygen and nitrogen species, causing cell death, similarly to radiation. Radiation resistance results in tumour recurrence, however mechanisms of LTP resistance are unknown. LTP was applied to patient-derived prostate epithelial cells and gene expression assessed. A typical global oxidative response (AP-1 and Nrf2 signalling) was induced, whereas Notch signalling was activated exclusively in progenitor cells. Notch inhibition induced expression of prostatic acid phosphatase (PAP), a marker of prostate epithelial cell differentiation, whilst reducing colony forming ability and preventing tumour formation. Therefore, if LTP is to be progressed as a novel treatment for prostate cancer, combination treatments should be considered in the context of cellular heterogeneity and existence of cell type-specific resistance mechanisms.

Aplicação do plasma de baixa temperatura sob pressão atmosférica no controle de biofilmes e reparo inicial de feridas infectadas / Application of low temperature plasma under atmospheric pressure in biofilm control and wound infected repair initial

O manejo clínico e tratamento das feridas crônicas têm sido considerados grandes desafios nas áreas médicas. Infecções por biofilmes em feridas crônicas afetam milhões de pessoas no mundo a cada ano e muitas mortes ocorrem como consequência. O plasma de baixa temperatura sob pressão atmosférica (LTAPP) é uma mistura gasosa contendo partículas carregadas, radicais livres e radiação. As ações biológicas das espécies reativas geradas concomitantemente, em particular antimicrobiana, anti-inflamatória e indutora de reparação tecidual, mostram-se altamente promissoras dentro do contexto do controle das feridas crônicas. O objetivo deste estudo foi avaliar os efeitos LTAPP frente a biofilmes monoespécie e multiespécies de micro-organismos frequentemente isolados de feridas crônicas. Além disso, objetivou-se avaliar estudar os efeitos citotóxicos e genotóxicos do LTAPP nos parâmetros físicos eficazes para o controle dos biofilmes A seguir, o protocolo eficaz e seguro foi avaliado in vivo utilizando modelo murino e modelo de úlcera dermal em coelhos. O LTAPP foi capaz de reduzir as UFC/mL de biofilmes monoespécie e mutiespécie a partir de 5 minutos de exposição. O LTAPP, nos parâmetros efetivos antibiofilme, apresentou-se seguro para uso em ensaios in vivo, pois não foi cito ou genotóxico. O tratamento com LTAPP levou à maior redução da área da ferida quando comparado ao grupo controle, em ambos os modelos de ferida com infecção polimicrobiana. Redução da resposta inflamatória foi observada no modelo de úlcera dermal no tempo de 8 dias. Não houve evidências de que o LTAPP aumente significativamente a proliferação celular. Com base nos resultados obtidos, conclui-se que o LTAPP acelera o processo de reparação de feridas, porém o mecanismo de ação ainda precisa ser elucidado(AU)

The clinical management and treatment of chronic wounds have been considered one of the main challenges in the medical area. Biofilm infections in chronic wounds affect millions of people worldwide each year and many deaths occur as consequence. LTAPP is a gas containing charged particles, free radicals and radiation. The biological actions of the reactive species generated concomitantly, anti-inflammatory and tissue repair inducing, are highly promising within the context of chronic wound control. The aim of the present project is to evaluate the effects of low temperature plasma under atmospheric pressure (LTAPP) on mono and multispecies biofilms frequently isolated from chronic wounds. The cyto and genotoxic effects of LTAPP in the effective parameters were also assessed. The effective and safe protocol was tested in vivo using a murine model and a rabbit dermal ulcer model. LTAPP was able to reduce significantly the mono and multispecies biofilm after 5 minutes exposure. In the anti-biofilm effective parameters, LTAPP was not cyto or genotoxic. Treatment with LTAPP reduced significantly the wound area when compared to control in both animal models. Anti-inflammatory effect was observed in dermal ulcer model at 8 days. No evidences of increase in cell proliferation caused by LTAPP were noted. According to the results, it could be concluded that LTAPP enhanced the wound repair process, however the mechanism of action must be still elucidated(AU)

Side effects by oral application of atmospheric pressure plasma on the mucosa in mice.

Cold atmospheric pressure plasma (CAP) has been investigated with promising results for peri-implant diseases treatment. However, prior to in-vivo applications of CAP sources in humans, short-term harmful mucosal damage or other unwanted side effects have to be reviewed. 180 male mice (B6C3F1) were divided into twelve treatment groups (n = 15). The right buccal cheek mucosa was treated with CAP. The first and second group each received continuous 10 sec irradiation with 2 different plasma sources (kINPen09, PS-MWM). The third group was treated with the kINPen09 for one minute. Control groups were treated with a corresponding dose of ultraviolet light for 8 seconds or 48 seconds and the other one was left untreated. The animals were weighed before and after treatment. The animals were sacrificed one day or one week after exposure. Stained tissue samples were histologically examined for tissue damage independently by two experienced pathologists. One day after CAP treatment histological analysis showed focal mucosal erosion with superficial ulceration and necrosis accompanied by a mild inflammatory reaction. One week after CAP treatment, the mucosal defects were completely re-epithelialized, associated with remnants of granulation tissue in the stroma irrespective of treatment duration. Furthermore, no cytological atypia was found and no severe weight loss occurred. The control groups did not show any alterations at all. CAP treatment led to a superficial mucosal damage that healed within few days. Nonetheless, further long-term experiments are necessary to exclude undesirable side effects after longer observation time. Particularly, potential carcinogenic effects must be ruled out prior to the application of CAP treatment in daily dental practice.