TY - JOUR A1 - Groeber, Florian A1 - Schober, Lena A1 - Schmid, Freia F. A1 - Traube, Andrea A1 - Kolbus-Hernandez, Silvia A1 - Daton, Karolina A1 - Hoffmann, Sebastian A1 - Petersohn, Dirk A1 - Schaefer-Korting, Monika A1 - Walles, Heike A1 - Mewes, Karsten R. T1 - Catch-up validation study of an in vitro skin irritation test method based on an open source reconstructed epidermis (phase II) JF - Toxicology in Vitro N2 - To replace the Draize skin irritation assay (OECD guideline 404) several test methods based on reconstructed human epidermis (RHE) have been developed and were adopted in the OECD test guideline 439. However, all validated test methods in the guideline are linked to RHE provided by only three companies. Thus,the availability of these test models is dependent on the commercial interest of the producer. To overcome this limitation and thus to increase the accessibility of in vitro skin irritation testing, an open source reconstructed epidermis (OS-REp) was introduced. To demonstrate the capacity of the OS-REp in regulatory risk assessment, a catch-up-validation study was performed. The participating laboratories used in-house generated OS-REp to assess the set of 20 reference substances according to the performance standards amending the OECD test guideline 439. Testing was performed under blinded conditions. The within-laboratory reproducibility of 87% and the inter-laboratory reproducibility of 85% prove a high reliability of irritancy testing using the OS-REp protocol. In addition, the prediction capacity was with an accuracy of 80% comparable to previous published RHE based test protocols. Taken together the results indicate that the OS-REp test method can be used as a standalone alternative skin irritation test replacing the OECD test guideline 404. KW - Model KW - Chemicals KW - Assay KW - Episkin KW - Vivo KW - RHE KW - In vitro skin irritation testing KW - Open source reconstructed epidermis KW - Validation KW - Alternative test methods Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-187311 VL - 36 ER - TY - JOUR A1 - Brendtke, Rico A1 - Wiehl, Michael A1 - Groeber, Florian A1 - Schwarz, Thomas A1 - Walles, Heike A1 - Hansmann, Jan T1 - Feasibility Study on a Microwave-Based Sensor for Measuring Hydration Level Using Human Skin Models JF - PLoS ONE N2 - Tissue dehydration results in three major types of exsiccosis—hyper-, hypo-, or isonatraemia. All three types entail alterations of salt concentrations leading to impaired biochemical processes, and can finally cause severe morbidity. The aim of our study was to demonstrate the feasibility of a microwave-based sensor technology for the non-invasive measurement of the hydration status. Electromagnetic waves at high frequencies interact with molecules, especially water. Hence, if a sample contains free water molecules, this can be detected in a reflected microwave signal. To develop the sensor system, human three-dimensional skin equivalents were instituted as a standardized test platform mimicking reproducible exsiccosis scenarios. Therefore, skin equivalents with a specific hydration and density of matrix components were generated and microwave measurements were performed. Hydration-specific spectra allowed deriving the hydration state of the skin models. A further advantage of the skin equivalents was the characterization of the impact of distinct skin components on the measured signals to investigate mechanisms of signal generation. The results demonstrate the feasibility of a non-invasive microwave-based hydration sensor technology. The sensor bears potential to be integrated in a wearable medical device for personal health monitoring. KW - gels KW - microwave radiation KW - collagens KW - skin physiology KW - reflection KW - skin anatomy KW - epidermis KW - antennas Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-179934 VL - 11 IS - 4 ER - TY - JOUR A1 - Groeber, Florian A1 - Engelhardt, Lisa A1 - Lange, Julia A1 - Kurdyn, Szymon A1 - Schmid, Freia F. A1 - Rücker, Christoph A1 - Mielke, Stephan A1 - Walles, Heike A1 - Hansmann, Jan T1 - A First Vascularized Skin Equivalent as an Alternative to Animal Experimentation JF - ALTEX - Alternatives to Animal Experimentation N2 - Tissue-engineered skin equivalents mimic key aspects of the human skin, and can thus be employed as wound coverage for large skin defects or as in vitro test systems as an alternative to animal models. However, current skin equivalents lack a functional vasculature limiting clinical and research applications. This study demonstrates the generation of a vascularized skin equivalent with a perfused vascular network by combining a biological vascularized scaffold (BioVaSc) based on a decellularized segment of a porcine jejunum and a tailored bioreactor system. Briefly, the BioVaSc was seeded with human fibroblasts, keratinocytes, and human microvascular endothelial cells. After 14 days at the air-liquid interface, hematoxylin & eosin and immunohistological staining revealed a specific histological architecture representative of the human dermis and epidermis including a papillary-like architecture at the dermal-epidermal-junction. The formation of the skin barrier was measured non-destructively using impedance spectroscopy. Additionally, endothelial cells lined the walls of the formed vessels that could be perfused with a physiological volume flow. Due to the presence of a complex in-vivo-like vasculature, the here shown skin equivalent has the potential for skin grafting and represents a sophisticated in vitro model for dermatological research. KW - alternative to animal testing KW - skin equivalents KW - tissue engineering KW - vascularization Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-164438 VL - 33 IS - 4 ER -