8 research outputs found
Extracellular vesicles in human skin: cross-talk from senescent fibroblasts to keratinocytes by miRNAs
Extracellular vesicles (EVs) and their miRNA cargo are intercellular communicators transmitting their pleiotropic messages between different cell types, tissues, and body fluids. Recently, they have been reported to contribute to skin homeostasis and were identified as members of the senescence-associated secretory phenotype of human dermal fibroblasts. However, the role of EV-miRNAs in paracrine signaling during skin aging is yet unclear. Here we provide evidence for the existence of small EVs in the human skin and dermal interstitial fluid using dermal open flow microperfusion and show that EVs and miRNAs are transferred from dermal fibroblasts to epidermal keratinocytes in 2D cell culture and in human skin equivalents. We further show that the transient presence of senescent fibroblast derived small EVs accelerates scratch closure of epidermal keratinocytes, whereas long-term incubation impairs keratinocyte differentiation in vitro. Finally, we identify vesicular miR-23a-3p, highly secreted by senescent fibroblasts, as one contributor of the EV-mediated effect on keratinocytes in in vitro wound healing assays. To summarize, our findings support the current view that EVs and their miRNA cargo are members of the senescence-associated secretory phenotype and, thus, regulators of human skin homeostasis during aging
Optimierte Datenverarbeitungs-Strategie für hohen Datendurchsatz
Abweichender Titel nach Übersetzung der Verfasserin/des VerfassersDie steigende Datenübertragungsgeschwindigkeit heutiger und zukünftiger Kommunikationsnetze erfordert Optimierungen von Datenverarbeitungsstrategien für einen leistungsfähigen Datenaustausch. Es wird eine hohe Auslastung des Peripheriebussystems und die Reduzierung der Prozessorzeit für die Datenverarbeitung gefordert. Diese Masterarbeit beschreibt notwendige Komponenten zur Übertragung von Daten zwischen einem Hostsystem und Peripheriegeräten und konzentriert sich auf die Datenverarbeitungsstrategien von Netzwerkadaptern. Zwei Datenverarbeitungsstrategien werden analysiert und ein optimiertes Konzept erstellt und implementiert. Messungen zeigen die Reduzierung der CPU-Verarbeitungszeit und die Verbesserung der Übertragungsbandbreite einer Netzwerkkarte.The increasing data link speed of today's and coming communication networks demands on optimisations of data handling strategies for high-performance data exchange. High utilisation of the peripheral bus system and the reduction of CPU time used for data handling are requested. This diploma thesis describes needed components for transferring data between a host system and peripheral components and focuses on the data handling concept of network interface controllers. Two data handling strategies are analysed and an optimized concept is created and implemented. Measurements prove the reduction of CPU processing time and the improvement of the bandwidth of a network interface controller.8
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Topical Delivery Systems Effectively Transport Analgesics to Areas of Localized Pain via Direct Diffusion.
Topical delivery systems (TDSs) enable the direct transport of analgesics into areas of localized pain and thus minimize the side effects of administration routes that rely on systemic drug distribution. For musculoskeletal pain, clinicians frequently prescribe topical products containing lidocaine or diclofenac. This study assessed whether drug delivery from a TDS into muscle tissue occurs mainly via direct diffusion or systemic transport. An investigational TDS containing 108 mg lidocaine (SP-103, 5.4% lidocaine), a commercially available TDS containing 36 mg lidocaine (ZTlido®, 1.8% lidocaine), and a topical pain relief gel (Pennsaid®, 2% diclofenac) were tested. Using open flow microperfusion (OFM), interstitial fluid from the dermis, subcutaneous adipose tissue (SAT), and muscle was continuously sampled to assess drug penetration in all tissue layers. Ex vivo and in vivo experiments showed a higher diffusive transport of lidocaine compared to diclofenac. The data showed a clear contribution of diffusive transport to lidocaine concentration, with SP-103 5.4% resulting in a significantly higher lidocaine concentration in muscle tissue than commercially available ZTlido® (p = 0.008). These results indicate that SP-103 5.4% is highly effective in delivering lidocaine into muscle tissue in areas of localized pain for the treatment of musculoskeletal pain disorders (e.g., lower back pain)
The Impact of Prolonged Inflammation on Wound Healing
The treatment of chronic wounds still challenges modern medicine because of these wounds’ heterogenic pathophysiology. Processes such as inflammation, ischemia and bacterial infection play major roles in the progression of a chronic wound. In recent years, preclinical wound models have been used to understand the underlying processes of chronic wound formation. However, the wound models used to investigate chronic wounds often lack translatability from preclinical models to patients, and often do not take exaggerated inflammation into consideration. Therefore, we aimed to investigate prolonged inflammation in a porcine wound model by using resiquimod, a TLR7 and TLR8 agonist. Pigs received full thickness excisional wounds, where resiquimod was applied daily for 6 days, and untreated wounds served as controls. Dressing change, visual documentation and wound scoring were performed daily. Biopsies were collected for histological as well as gene expression analysis. Resiquimod application on full thickness wounds induced a visible inflammation of wounds, resulting in delayed wound healing compared to non-treated control wounds. Gene expression analysis revealed high levels of IL6, MMP1 and CD68 expression after resiquimod application, and histological analysis showed increased immune cell infiltration. By using resiquimod, we were able to show that prolonged inflammation delayed wound healing, which is often observed in chronic wounds in patients. The model we used shows the importance of inflammation in wound healing and gives an insight into the progression of chronic wounds