TY - GEN A1 - Krenkel, Lars T1 - Maskenpflicht für Aerosole – wie wir medizinisches Personal in der Pandemie schützen T2 - TRIOKON Digital 2021 : Zukunft Ostbayern, 29.09.2021, Weiden, Deutschland KW - Aerosole KW - Pandemie KW - SARS-CoV-2 Y1 - 2021 UR - https://www.youtube.com/watch?v=bYRFpp_Xxvc ER - TY - GEN A1 - Wagner, Thomas A1 - Krenkel, Lars A1 - Dönitz, Christian A1 - Brawanski, Alexander T1 - Influence of CFD Strategy on WSS and OSI Determination for Intracranial Aneurysm Rupture Assessment T2 - 25th Congress of the European Society of Biomechanics, July 7-10, 2019, Vienna, Austria Y1 - 2019 ER - TY - GEN A1 - Krenkel, Lars T1 - Relevanz von Aerosolen im klinischen Kontext T2 - Innovationstag Hygiene 2021, Continental Arena, Regensburg, Deutschland Y1 - 2021 ER - TY - GEN A1 - Singh, Max Diamond T1 - Reclassification of Orthopedic Devices per the Medical Device Regulation T2 - OSMA Winter Educational Program, St. Petersburg/USA, 2019. - [Veranstalter: Orthopedic Surgical Manufacturers Association (OSMA)] Y1 - 2019 ER - TY - GEN A1 - Dendorfer, Sebastian T1 - The influence of modeling parameters in the AnyBody Modeling System on muscle and joint loading in the shoulder T2 - International Shoulder Group Meeting Y1 - 2021 VL - 05 ER - TY - GEN A1 - Dendorfer, Sebastian T1 - The influence of mental stress on the musculoskeletal system Y1 - 2020 ER - TY - GEN A1 - Gschoßmann, Lukas A1 - Dendorfer, Sebastian T1 - Personalized Rehabilitation after Total Knee Arthroplasty T2 - 32nd Annual Meeting of the European Orthopaedic Research Society (EORS 2024), 18 - 20 September 2024, Aalborg Y1 - 2024 ER - TY - GEN A1 - Auer, Simon A1 - Krutsch, Werner A1 - Renkawitz, Tobias A1 - Kubowitsch, Simone A1 - Süß, Franz A1 - Dendorfer, Sebastian T1 - Effect of mental demand on leg loading in highly dynamic motion T2 - AnyBody online Webinar, Oct 2020 N2 - Football players have a high risk of leg muscle injuries, especially when exposed to mental stress. Injuries to muscles of the thigh are common in amateur and professional football, representing almost a third of all injuries. These injuries occur primarily in non-contact situations and from overuse. They can lead to a range of costs, including financial costs associated with treatment as well as those associated with long-term recovery, and absence from training and/or competition. Further, there is a high risk of injury recurrence and subsequent injury. Y1 - 2020 ER - TY - GEN A1 - Aurbach, Maximilian A1 - Süß, Franz A1 - Dendorfer, Sebastian T1 - The impact of the hill type muscle model on the glenohumeral joint reaction force T2 - 16th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering (CMBBE) 2019, New York City, USA Y1 - 2019 ER - TY - GEN A1 - Dendorfer, Sebastian T1 - Virtuelle Modelle der oberen Extremität T2 - 22. Interdisziplinäres Symposium Medizin-Physiotherapie-Sportwissenschaften, 22.-23.11.2019, Regensburg, Germany Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - European Union MDRs impact on device manufacturers: Reprocessing of surgical invasive devices, critical timeliness and technical documentation requirements under MDR BT - [Vortrag gehalten am 26.03.2019] T2 - The validation of sterile medical devices: sterilization, packaging, biocompatibility, toxicology and reprocessing, Amsterdam, 26.03. - 28.03.2019 [Veranstalter: Nelson Labs ; Sterigenics] Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - Challenges to innovate in the medical device industry under the light of the new EU MDR : a notified body perspective BT - Keynote Presentation. - Amsterdam, 21.-22.11.2019 // [Veranstalter: Samtek Group] T2 - Intelligent medical devices - the next disruptor in healthcare ; challenges and oppoertunieties: technical, clinical, regulatory and health economics/market access Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - Innovation challenges for orthopedic device manufacturers under the new EU MDR BT - a notified body perspective T2 - ORS (Orthopaedic Research Society) Annual Meeting. - Phoenix, Arizona, 08. - 11.02.2020 Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - EU-MDR from a Notified Body Perspective - aktuelle Situation hinsichtlich der Anforderungen zum Lieferantenmanagement BT - Tuttlingen, Technology Mountains / Medical Mountains, 2019 Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - EU Medical Device Regulation: Top Challenges of Orthopedic Manufacturers T2 - OMTEC 2019 : 15th Annual Orthopedic Manufacturing & Technology Exposition and Conference, Chicago, 11.6.2019 Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - KARL STORZ Navigation Panel Unit - Navigation for ENT surgery T2 - FESS 2010 : International Workshop on FESS ; Lectures & Live Surgery. - Royal Pearl Hospital, Tiruchirappalli (Indien), 10.-11.04.2010 Y1 - 2010 ER - TY - GEN A1 - Singh, Max Diamond T1 - Conformity Assessment Procedure MDR BT - [Vortrag gehalten am 24.02.2020] T2 - MDR Training: Person Responsible for Regulatory Compliance Course, 24.-25.02.2020, Tel Aviv, Obelis Academy Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Innovationsmanagement BT - Sitzung des Ulmer Arbeitskreises Innovationsmanagement, Ulm, 03.11.2011 Y1 - 2011 ER - TY - GEN A1 - Singh, Max Diamond T1 - General Overview of the Medical Device Regulation T2 - MDR-Roadshow - TÜV SÜD MHS, India Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Managing Innovation from the Notified Body Perspective - Understanding the 3 C’s of EU Regulations to Ensure Product Compliance: Changes, Challenges and Contributions T2 - 3rd annual european medical device and diagnostic product development and management meeting, 12-13 February 2019, Brussels Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - MDR - Die neuen rechtlichen Bedingungen für Händler und Hersteller: aus der Sicht einer benannten Stelle T2 - MEGRA Jahrestagung. - Wien, 18.05.2020 [Veranstalter: Mitteleuropäische Gesellschaft für Regulatory Affairs] Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Medical Device Regulation BT - Kurzer Überblick zur Zulassung von Medizinprodukten T2 - Forum MedTech Pharma: Start-ups in der Medizintechnik: Besonderheiten und Fallbeispiele, München, 17.7.2019 Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - Market Access for Devices under MDD and MDR: Obligations for Manufacturers T2 - OSMA - Orthopedic Surgical Manufacturers Association, Winter Educational Program - virtual Y1 - 2021 ER - TY - GEN A1 - Adler, Ina A1 - Förstl, Nikolas A1 - Süß, Franz A1 - Dendorfer, Sebastian T1 - Biomechanical exposition of the factors influencing the pelvic floor muscle activity T2 - ESB 2024, 29th Congress of the European Society of Biomechanics, 30 June-3 July 2024, Edinburgh, Scotland N2 - Introduction About 40 % of the women worldwide suffer from Pelvic Floor Dysfunctions [1]. In previous studies, musculoskeletal simulations helped to understand and facilitate the complex issues of musculoskeletal disorders in several different branches [2, 3]. A fundamental prerequisite for the generation of these models is to have a basic understanding of the stresses acting on the pelvic floor. The aim of this study is to investigate the biomechanical factors influencing the activity of the pelvic floor muscles by establishing a parameterised model. Methods To identify the factors that affect the pelvic floor muscles, the process is divided into several stages. The first step is to investigate the loads acting on the pelvic floor. For this, a simplified sagittal cross-sectional model of the upper body is analysed. The discretization of the abdominal cavity is presented with resulting force vectors representing the organs in the abdominal and pelvic region, the tensile force of the structures that fixate the organs as well as the intraabdominal pressure. A second step is the examination of the basic mechanics of the pelvic floor muscles. As the functional anatomy of these muscles demonstrate differences compared to other muscle groups [4], the understanding of how they differ is crucial for the construction of musculoskeletal models. After a static examination of loads on a simplified muscle model, an extended model including the physiological properties of a muscle must be involved in the considerations. Therefore, the influence of parameters such as the ideal muscle strength and fibre length, as well as elasticity or passive stiffness of the elements must be taken into account. The influencing factors of the variables can be analysed in a simplified pelvic floor muscle model by systematically changing the parameters. Results The process of analysing the factors influencing the activity of the pelvic floor muscles follows two main strategies. The review of the effects of the whole body identifies the forces acting on the pelvic floor muscles and effect their activity. With the examination of the basic mechanics of a simplified pelvic floor muscle model a better understanding is achieved of how the pelvic floor muscles absorb the loads acting in the body. Discussion This process results in the main influence factors on the activity of the pelvic floor. The consequent parameters form the basis for a biomechanically justified construction of musculoskeletal simulation models of the pelvic floor. Nevertheless, it must be considered, that these mechanical studies represent simplifications of the reality. References 1. Wang et al, Front Public Health, 10:975829, 2022. 2. Bulat et al., Curr Sports Med Rep, 18(6):210-216, 2019 3. Melzner et al., Eur J Obstet Gynecol Reprod Biol, 264:306-313, 2021 4. Ashton-Miller et al., Ann N Y Acad Sci, 1101:266-96, 2007 Y1 - 2024 ER - TY - GEN A1 - Gschoßmann, Lukas A1 - Stein, Leonhard A1 - Dendorfer, Sebastian T1 - Subject Specific Scaling Of Muscle Strengths In The Lower Extremity For Musculoskeletal Models T2 - ESB 2024, 29th Congress of the European Society of Biomechanics, 30 June-3 July 2024, Edinburgh, Scotland Y1 - 2024 ER - TY - GEN A1 - Singh, Max Diamond T1 - Herausforderungen der Medizinprodukteindustrie bei der Internationalisierung T2 - Studienwoche an der HNU (Hochschule Neu-Ulm) 2020 Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Zusätzliche Anforderungen an Produktdaten und technische Dokumentation durch die MDR T2 - Medizintechnik Kongress 2018: Effizienz in der Medizinprodukteentwicklung vor dem Hintergrund von MDR und IVDR ; Frankfurt am Main, 08.11.2018, [Veranstalter: Velten Consulting & ILC Consulting] Y1 - 2018 ER - TY - GEN A1 - Singh, Max Diamond T1 - MDR Implementation Status and Lessons Learned from the Past Months: A Notified Body Perspective T2 - Cambridge Healthtech Institute's 2nd Annual Medical Device Clinical Trial Design and Operations: Trial Design and Technology to Optimize Medical Device Trials, Orlando, Florida + Virtual, 02.-03.03.2021 Y1 - PB - Cambridge Innovation Institute ER - TY - GEN A1 - Singh, Max Diamond T1 - MDR implementation status & lessons learned BT - MDR-Audtis – Best Practive & Learning, Tuttlingen, 10.02.2021 Y1 - 2021 ER - TY - GEN A1 - Singh, Max Diamond T1 - Stakeholder view on Post Market Surveillance under the EU MDR: Timelines, Compliance and Requirements ; Post Market Surveillance & Vigilance BT - [Vortrag gehalten am: 23.6.2020] T2 - MedTech summit 2020: EU MDR & IVDR: the end ist in sight, 22.-26.06.2020, Dublin/virtual Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Quality in Medical Device Innovation for Start-ups, SME, and large enterprises through the new Medical Device Regulation T2 - 3rd European QA Conference, Dublin, 06. - 08.11.2019 Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - Notified body feedback: PSUR Forms. Post Market Surveillance & Vigilance BT - [Vortrag gehalten am 24.06.2020] T2 - MedTech Summit 2020: EU MDR & IVDR: the end is in sight, Dublin/virtual, 20.-26.06.2020 Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Technical Documentation MDR / IVDR, including the Declaration of Conformity BT - [Vortrag gehalten am 24.02.2020] T2 - MDR Training: Person Responsible for Regulatory Compliance, 24.-25.02.2020, Tel Aviv, Obelis Academy Y1 - 2020 ER - TY - GEN A1 - Singh, Max Diamond T1 - Notified Body Viewpoint : Preparing for MDR/IVDR T2 - MDR/IVDR - Status Report from Stakeholders. Where are we now in November 2018? - Bern, 22.11.2018 - [Veranstalter: RAPS : Regulatory Affairs Professionals Society] Y1 - 2018 ER - TY - GEN A1 - Singh, Max Diamond T1 - Strategies to Navigate to the EU MDR and Clinical Requirements T2 - Regulatory Affairs Professionals Society (RAPS): Session 1 - Tampa, Florida 2019 Y1 - 2019 ER - TY - GEN A1 - Singh, Max Diamond T1 - Technical Aspects for Navigated Sinus Surgery T2 - 4th Workshop on Endoscopic Surgery of the Maxillary Sinus and Navigation, Tübingen University Hospital, 2009 Y1 - 2009 ER - TY - GEN A1 - Singh, Max Diamond T1 - Overview of the Medical Device Regulation (MDR) BT - MDR-Roadshow TÜV SÜD MHS, San Diego & Minneapolis, 2018 Y1 - 2018 ER - TY - GEN A1 - Suess, Franz A1 - Melzner, Maximilian A1 - Dendorfer, Sebastian T1 - Towards Ergonomic working - machine learning algorithms and musculoskeletal modeling T2 - RIM 2021, 13th International Scientific Conference on Manufacturing Engineering, 29 Sept. - 1 Oct 2021, Sarajevo, Bosnia and Herzegovina Y1 - 2021 ER - TY - GEN A1 - Englert, Carsten A1 - Dendorfer, Sebastian T1 - Einfluss der Rotatorenmanschette auf die glenohumerale Stabilität T2 - 20. Intensivkurs Schulterendoprothetik Marburg KW - Biomechanik Y1 - 2022 CY - Marburg ER - TY - GEN A1 - Förstl, Nikolas A1 - Adler, Ina A1 - Suess, Franz A1 - Čechová, Hana A1 - Jansová, Magdalena A1 - Cimrman, Robert A1 - Vychytil, Jan A1 - Dendorfer, Sebastian T1 - Workflow for the development of a non-invasive feedback device to assess pelvic floor contractions T2 - ESB 2024, 29th Congress of the European Society of Biomechanics, 30 June-3 July 2024, Edinburgh, Scotland N2 - Introduction Pelvic floor disorders affect about 40% of women worldwide [1]. Pelvic floor muscle (PFM) training is both a preventive and a therapeutic intervention. Current PFM training devices are invasive and have little scientific evidence. The idea is to develop a noninvasive feedback device to assess adequate PFM contraction. Therefore, evidence-based female musculoskeletal models, non-invasive data acquisition, sensor technology and artificial intelligence (AI) will be combined. This work presents the workflow to achieve such a feedback device and describes the interaction of the technologies used. Methods Exercises that induce PFM contractions have been evaluated and defined. Motion capture of these exercises will provide input for female musculoskeletal models. A combination of biomechanical rigid body and FEM simulations will be used to estimate PFM contractions. In addition, a non-invasive sensor will measure pelvic floor activity. The simulated and measured data will be used to develop an AI model that provides feedback on PFM contractions based on non-invasive data collection. Results The AMMR (AnyBody Managed Model Repository) of the AnyBody modelling system (AMS, Aalborg, Denmark) serves as the initial model for performing inverse dynamic simulations of the exercises. To calculate the PFM forces, the full-body model must be supplemented with the relevant pelvic floor structures and a mass model of the internal organs. A modified abdominal pressure model must also be incorporated. The AMS calculates the PFM activities caused by the internal organ loads and the generated abdominal pressure during the exercises. The muscle activities are transferred to a FEM model of the female pelvic floor (SfePy, simple finite elements in Python). The identical pelvic floor structures were integrated into the FEM model as in the AMS. Active PFM contractions can be simulated using the FEM model. Movement of the coccyx due to PFM contractions has been reported in the literature [2,3]. Therefore, a noninvasive coccyx motion sensor will be developed to provide additional information on PFM contractions. The measured data (coccyx motion sensor, motion capture) and the simulation results of the models will be combined to create an AI feedback model using Python. The final feedback device will consist of the AI model and the developed coccyx motion sensor, which can reproduce the resulting PFM contractions based on the sensor data and simplified motion tracking. Discussion The creation of the AMS and the FEM model is a prerequisite for the development of the feedback device. The relevant structures in the models are located inside the body. This limits the ability to observe the structures during the exercises, which can lead to difficulties in model validation. The development of a user-friendly sensor with sufficient measuring accuracy of the coccyx motion is another challenge. Nevertheless, the workflow represents a promising approach to develop a noninvasive feedback system to assess PFM contraction. References 1. Wang et al, Front Public Health, 10:975829, 2022. 2. Bø et al, Neurourol Urodyn, 20:167–174, 2001. 3. Fujisaki et al, J Phys Ther Sci, 30:544–548, 2018. Acknowledgements This work was supported by the project no. BYCZ01-014 of the Program INTERREG Bavaria – Czechia 2021–2027. Y1 - 2024 ER - TY - GEN A1 - Saffert, Anne-Sophie A1 - Melzner, Maximilian A1 - Dendorfer, Sebastian T1 - Biomechanical Analysis of the Right Elevated Glenohumeral Joint in Violinists during Legato-Playing T2 - Biomdlore 2021: 21-23 October 2021 Vilnius/Trakai, Lithuania N2 - BACKGROUND: Many statistics reveal that violin players suffer most often from musculoskeletal disorders compared to musicians of other instrument groups. A common phenomenon, especially observed in violin beginners, is the tendency to elevate the right shoulder during playing the violin. This can probably lead to serious disorders in long-term practice with repetitive movements. OBJECTIVE: For this reason, this study investigated the relationship between the right shoulder elevation and the force in the right glenohumeral joint during violin playing. It was hypothesized that the forces in the right glenohumeral joint are higher during playing with the right shoulder raised compared to playing in normal posture. METHODS: Motion capture data from four experienced violinists was recorded and processed by means of musculoskeletal simulation to get the force and elevation angle while playing with raised shoulder and in normal position. RESULTS: The results indicate that the absolute values of the resulting force, as well as the forces in the mediolateral, inferosuperior, and anteroposterior directions, are higher in playing the violin with the shoulder raised than in a normal posture. CONCLUSIONS: Elevating the right shoulder while playing the violin may pose a potential problem. Y1 - 2021 U6 - https://doi.org/10.3233/THC-219001 N1 - Veröffentlicht in: Technology and Health Care, vol. 30, no. 1 (Selected Papers From the 13th International Conference BIOMDLORE 2021), pp. 177-186, 2022 ER - TY - GEN A1 - Dendorfer, Sebastian T1 - Towards a deeper understanding of Pelvic Floor Disorders via Biomechanical Models Y1 - 2025 ER - TY - GEN A1 - Dendorfer, Sebastian T1 - Zahlen statt Meinung – virtuelle Ganzkörpermodelle für die Mensch-Fahrzeug-Interaktion Y1 - 2025 ER - TY - GEN A1 - Stein, Leonhard A1 - Schmitz, Paul A1 - Kretschmer, Rainer A1 - Dendorfer, Sebastian T1 - Gait parameter based fall risk scoring N2 - This study explored the connection between subjective self-assessed gait insecurities and objective movement scores. 93 subjects answered detailed fall risk questionnaires and performed functional tests. Significantly different movement patterns between fallers and non-fallers were found. Y1 - 2025 ER - TY - GEN A1 - Förstl, Nikolas A1 - Adler, Ina A1 - Süß, Franz A1 - Jansová, Magdalena A1 - Vychytil, Jan A1 - Dendorfer, Sebastian T1 - Evaluating the loads on the female pelvic floor during full-body activities using computational models N2 - This work investigated the loads on the female pelvic floor during various full-body movements using computational models to calculate abdominal pressure and organ dynamic loads. While high-impact exercises resulted in higher loads, other movements showed lower loads, potentially indicating, which movements may be performed without risking pelvic floor overload and subsequent dysfunctions. Y1 - 2025 ER - TY - GEN A1 - Barthel, Mareike A1 - Süß, Franz A1 - Dendorfer, Sebastian T1 - Predicting intra-abdominal pressure during walking and running T2 - ISB 2025 - The XXX Congress of the International Society of Biomechanics, 27-31. July 2025, Stockholm N2 - Intra-abdominal pressure (IAP) is an important physiological parameter, which is difficult to measure during physical activity. In this study, motion capture, musculoskeletal modeling and a transformer encoder model are used to predict IAP during walking and running. The model showed promising results with an overall mean percentage error of 13.5% and a Pearson correlation coefficient of 0.85. Minor challenges included the lower accuracy for fast walking and running and the limited amount of data. All in all, the prediction of IAP was successful, which opens up prospects for further applications. KW - Intra-abdominal pressure; machine learning; motion capture; musculoskeletal modeling; transformer encoder Y1 - 2025 ER -