@article{KheiroddinSchoeberlAlthammeretal., author = {Kheiroddin, Parastoo and Sch{\"o}berl, Patricia and Althammer, Michael and Cibali, Ezgi and W{\"u}rfel, Thea and Wein, Hannah and Kulawik, Birgit and Buntrock-D{\"o}pke, Heike and Weigl, Eva and Gran, Silvia and Gr{\"u}ndl, Magdalena and Langguth, Jana and Lampl, Benedikt and Judex, Guido and Niggel, Jakob and Pagel, Philipp and Schratzenstaller, Thomas and Schneider-Brachert, Wulf and Gastiger, Susanne and Bodenschatz, Mona and Konrad, Maike and Levchuk, Artem and Roth, Cornelius and Sch{\"o}ner, David and Schneebauer, Florian and Rohrmanstorfer, Ren{\´e} and Burkovski, Andreas and Ambrosch, Andreas and Wagner, Thomas and Kabesch, Michael}, title = {Results of WICOVIR Gargle Pool PCR Testing in German Schools Based on the First 100,000 Tests}, series = {Frontiers in Pediatrics}, volume = {9}, journal = {Frontiers in Pediatrics}, editor = {Buonsenso, Danilo}, publisher = {frontiers}, issn = {2296-2360}, doi = {10.3389/fped.2021.721518}, abstract = {Background: Opening schools and keeping children safe from SARS-CoV-2 infections at the same time is urgently needed to protect children from direct and indirect consequences of the COVID-19 pandemic. To achieve this goal, a safe, efficient, and cost-effective SARS-CoV-2 testing system for schools in addition to standard hygiene measures is necessary. Methods: We implemented the screening WICOVIR concept for schools in the southeast of Germany, which is based on gargling at home, pooling of samples in schools, and assessment of SARS-CoV-2 by pool rRT-PCR, performed decentralized in numerous participating laboratories. Depooling was performed if pools were positive, and results were transmitted with software specifically developed for the project within a day. Here, we report the results after the first 13 weeks in the project. Findings: We developed and implemented the proof-of-concept test system within a pilot phase of 7 weeks based on almost 17,000 participants. After 6 weeks in the main phase of the project, we performed >100,000 tests in total, analyzed in 7,896 pools, identifying 19 cases in >100 participating schools. On average, positive children showed an individual CT value of 31 when identified in the pools. Up to 30 samples were pooled (mean 13) in general, based on school classes and attached school staff. All three participating laboratories detected positive samples reliably with their previously established rRT-PCR standard protocols. When self-administered antigen tests were performed concomitantly in positive cases, only one of these eight tests was positive, and when antigen tests performed after positive pool rRT-PCR results were already known were included, 3 out of 11 truly positive tests were also identified by antigen testing. After 3 weeks of repetitive WICOVIR testing twice weekly, the detection rate of positive children in that cohort decreased significantly from 0.042 to 0.012 (p = 0.008). Interpretation: Repeated gargle pool rRT-PCR testing can be implemented quickly in schools. It is an effective, valid, and well-received test system for schools, superior to antigen tests in sensitivity, acceptance, and costs.}, subject = {Covid-19}, language = {en} } @article{SchaefferHerrmannSchratzenstalleretal., author = {Schaeffer, Leon and Herrmann, David and Schratzenstaller, Thomas and Dendorfer, Sebastian and B{\"o}hm, Valter}, title = {Theoretical considerations on stiffness characteristics of a 3-dimensional tensegrity joint model for the use in dynamic hand orthoses}, series = {Journal of Medical Robotics Research}, journal = {Journal of Medical Robotics Research}, publisher = {World Scientific}, doi = {10.1142/S2424905X25400069}, language = {en} } @article{MaierZentgrafAngeleetal., author = {Maier, Eva and Zentgraf, Jan and Angele, Eveline and Zorzin, Jos{\´e} and Taschner, Michael and Widbiller, Matthias and Galler, Kerstin and Schratzenstaller, Thomas}, title = {A re-usable 3D-printed training model for the endodontic management of dental trauma in immature teeth}, series = {International endodontic journal}, volume = {2025}, journal = {International endodontic journal}, publisher = {Wiley}, issn = {1365-2591}, doi = {10.1111/iej.14235}, pages = {12}, abstract = {AIM: To develop a 3D-printed model enabling treatment simulation of trauma-related endodontic and restorative procedures like revitalization or placement of an apical plug on teeth with incomplete root formation. METHODOLOGY: To generate a realistic training model suitable for trauma-related simulations, CT-Data sets were segmented, combined, adjusted and optimized using computer-aided design features. Specific focus was on optimally reflecting characteristics of immature teeth like open apical foramina and thin root walls. For reflection of the revitalization process, a set-up including a tube filled with red liquid under pressure was developed to be perforated during the procedure by the trainee, simulating bleeding from the apical papilla into the root canal system. Design was based on a combination of cost-effective simple parts combined with 3D-printed components to achieve maximal accessibility, exchangeability and re-usability. Model assembly and preparation were described in step-by-step instructions. RESULTS: As a result of the developmental process, the presented model qualifies for the training of the endodontic management of complications on immature teeth after dental trauma. Step-by-step descriptions aligned with the clinical procedures are performable for a revitalization procedure, for pulpotomy followed by fragment re-attachment and splint application and for placement of an apical plug using hydraulic calcium silicate cements. CONCLUSIONS: The model successfully achieved its intended objectives, so that it may be used in the future in various dental trauma treatment simulations for undergraduate and postgraduate education on the endodontic management of trauma-related therapies in immature teeth. Its common manufacturing process, affordability and re-usability support accessibility and sustainability.}, language = {en} } @article{BartschEigenbergerFelthausetal., author = {Bartsch, Alexander and Eigenberger, Andreas and Felthaus, Oliver and Booth, Brian W. and Krenkel, Lars and Schratzenstaller, Thomas and Prantl, Lukas}, title = {Quantification of Cannula Influence on Negative Pressure in Syringe Assisted Liposuction}, series = {Plastic \& Reconstructive Surgery}, journal = {Plastic \& Reconstructive Surgery}, publisher = {American Society of Plastic Surgeons}, issn = {0032-1052}, doi = {10.1097/PRS.0000000000012477}, abstract = {To make the results of the autologous fat transfer more satisfactory, all parameters of suction, preparation, and reapplication must be well understood. Since syringe-assisted liposuction is frequently used for small-volume procedures, we quantified the influence of the cannula on negative pressure. For these experiments, we used a digital manometer to which a syringe and one of seven different cannulas were connected. Data was collected and analyzed using LabVIEW and Matlab. The volume of our measurement setup was calculated using Boyle-Mariotte's law to ease interpretation, which revealed a volume of 2.82 ± 0.03 mL. We demonstrate that the volume of the measurement setup significantly affects the measurement results. Consequently, we accounted for this factor and calculated the theoretical values accordingly. Statistical analysis shows a significant influence on negative pressure across different cannulas, except for two pairs, which had minimal volume differences. Exemplary, for cannulas with volumes under 1.75 mL, a 2 mL syringe plunger pull was sufficient to create a - 0.5 bar (- 14.8 inHg) negative pressure. The present data indicate that the size of the suction cannula must be considered in syringe-assisted suction to ensure a specific negative pressure is not exceeded. Other research groups have demonstrated that adipocyte vitality and the amount of stromal vascular fraction are reduced by excessively strong negative pressure.}, language = {en} }