PhD Position in Experimental Micro- and Nanobiomechanics @TUWien

We invite applications for a of a PhD position (University Assistant) in experimental micro- and nanobiomechanics. The position is set within a vibrant research group with a main focus on mechanics of individual collagen fibrils and micromechanics of collagen-rich tissues. The research project to be addressed is two-fold:

1) Conducting scientific research on the mechanics of individual collagen-fibrils as well as micro-mechanics of tissue sections as a function of age, pathology or chemical modification. We have a number of ongoing research projects in this context such that this part will be shaped according to the interests of the applicant.

2) Further development of experimental testing devices for micro- and nanomechanical characterization of individual collagen fibrils and microscopic tissue samples. This is based on a mechanical testing device for nanoscale fibres developed by our team.

Further information and link to apply for this position (deadline April 22nd 2021): https://jobs.tuwien.ac.at/Job/148900

For informal discussion please contact Philipp Thurner (Philipp.thurner@tuwien.ac.at)

ESB webinar: Basics of agent-based computer modeling for clinically-related applications

The next ESB webinar, on April 22nd, 2021– 17:00 – 18:00 CEST, is targeted towards individuals interested in agent-based computer modeling approaches to simulate biological processes. In particular, the webinar aims at:

  • Introducing participants to the basics of agent-based modeling
  • Providing examples of their application to investigate clinical-related problems.

By the end of the webinar, attendees will learn the basic principles to build an agent-based model including how to:

  • Simulate individual agents
  • Specify agent properties
  • Define agent behavior and interactions
  • Analyze and visualize model predictions

The webinar will be conducted by Prof. Sara Checa. She is a Junior Professor at the Julius Wolff Institute, Charite-Universitaetsmedizin Berlin, where she leads the research group of “Computational Mechanobiology”. She holds a guest researcher position at the Technical University Berlin as well. She is an expert on computational mechanobiology applied to tissue regeneration and adaptation and has a profound expertise on the development of agent-based computer models to investigate clinical-related questions. She completed her PhD at the University of Southampton and conducted post-doctoral research at the Trinity Center for Bioengineering in Ireland, at Stanford University in the USA and then at the Julius Wolff Institute, where she stayed first as a group leader and now as Professor.

The seminar will last 45 minutes and will be followed by 15 minutes of Q/A from the audience. You will have the chance to ask your questions which will be addressed by the speaker at the end of the webinar. However, it would be great if you could send your question in advance while filling the registration form or by sending to Ehsan.soodmand@stryker.com and/or rodrigo.romarowski@unipv.it  before the webinar.

Click https://attendee.gotowebinar.com/register/4993238957232003344 to register for the webinar.

Please Subscribe to our YouTube channel! (https://www.youtube.com/esbiomech)

Looking forward to your attendance.

ESB Student Committee

5th VPH Summer School – June 7-11, online: Tackling Complexity in Health & Medicine

Dear Colleagues,
 
It is our pleasure to inform you that the 5th VPH Summer School will be held ONLINE, on June 7-11, 2021. This new edition focuses on Tackling Complexity in Health & Medicine. The registration is now open! To register, please click here: link   

The VPH Summer School series is co-organized by the Universitat Pompeu Fabra and by the Virtual Physiological Human Institute (VPHi). It provides junior engineers, early researchers and medical doctors with a complete overview of state-of-the-art Virtual Physiological Human (VPH) research for In Silico Medicine, following a complete pipeline from basic science and clinical needs, to model application. The training includes 15 morning lectures plus one honorary VPH lecture, given by leading international researchers. Speakers details are available here

The key methodological and technological concepts are enriched during the whole week by five afternoon hands-on sessions in multiscale modelling, physiological modelling, computational systems biology and machine learning that stand for 15.5 hours of transversal training in in silico medicine technologies, under the supervision of expert researchers. Hands-on details are available here.

The last afternoon of the VPH Summer School will host a round table co-organized with QUAES, gathering patients, physicians, researchers and public authority representatives to discuss on In silico Medicine and new medical technologies for the society: Awareness, expectations and effective capacity.

Daily scientific discussions and cross-dissemination are further supported by the afternoon poster sessions.   Please join us and share this information among your dissemination channels! 
 
Best regards,
 
Jérôme Noailly, on behalf of the Organising Committee.
 
Full information is available on the webpage

PhD position on the characterization of anticipatory neuromuscular coordination during explosive movements @ University of Poitiers, France

We invite applications for a PhD position at University of Poitiers, France, entitled “Characterization of anticipatory neuromuscular coordination during explosive movements“.

Summary: The objective of this PhD thesis is to characterize anticipatory muscular coordination during iexplosive movements performed by trained female and male athletes. The Ph.D. student will conceive experimental protocols where human participants have to perform explosive dynamic movements. Data will be collected using both human motion analysis (infrared cameras & force sensors) and muscular physiology (electromyography & superfast ultrasound echograph) equipment. Anticipatory neuromuscular coordination recorded during explosive movements will then be analysed using multi-scale and multi-physic models. Joint torques and muscular lengths and activation patterns will be estimated from a personalised musculoskeletal model. Data collected with echographs will help refine the characterization of interactions between muscular and tendinous fibers.

Keywords: Human movement, Biomechanics, Neuromuscular coordination, Motion Analysis, Musculoskeletal Modelling, Experimental studies, Sport.

Supervisors: Dr. Floren COLLOUD & Dr Romain TISSERAND

Calendar:

Applications must be sent by email before April, 20th 2021.

Interview: from May 17th to May 21st 2021.

Project and funding will start October 1st 2021.

Further information: https://www.u-ldevinci.fr/simme/en/2021/03/04/characterisation-of-anticipatory-neuromuscular-coordination-during-explosive-movements/

For informal discussion please contact Floren Colloud (floren.colloud@univ-poitiers.fr)

Associate professor of Mechanobiology @ Mines Saint-Etienne – France

A permanent position of associate professor in mechanobiology is opened at Mines Saint-Etienne (France). Research will be developed at Sainbiose laboratory and will focus on experimental methods to study biological and mechanical evolution of tissues in the osteoarticular or cardiovascular systems.

More information and application at https://institutminestelecom.recruitee.com/o/concours-maitre-assistant-en-mecanobiologie

Application closure is April 23th 2021.

PostDoc in Computational Biomechanics @ TU-Wien

The Institute of Lightweight Design and Structural Biomechanics at TU Wien, Computational Biomechanics Group of Prof Dieter Pahr, is offering a full-time position (40 hours/week) for a post-doc university assistant for two years. The estimated starting date is June 1, 2021.

Tasks:

  • Conducting outstanding research work at an international level in the field of bone biomechanics
  • Supervision of Master and PhDs students
  • Writing grant proposals and acquiring third-party funds
  • Contributing to bachelor and master level teaching
  • Participation in teaching activities and administrative tasks of the institute

Your profile:

  • PhD in the field of mechanical engineering, civil engineering, biomedical engineering or a related discipline with a specialization in biomechanics is a prerequisiteA highly motivated, resilient person with very good communication skills
  • The successful candidate will work in the field of computational bone biomechanics
  • Previous experience in bone biomechanics, image processing, finite element modelling, material modelling, computer programming (C++ and Python) are required
  • A very good command of English language skills as well as an appropriate publication record are also required
  • Desirable are experiences with lab experiments, German language skills, and project proposals writing
  • Interest in solving scientific problems in an independent and goal-oriented manner
  • The willingness to contribute to interdisciplinary and international scientific projects
  • Very good scientific communication and scientific writing skills

We offer:

  • A creative environment in one of the most livable cities in the world.
  • A young, highly motivated, and international team of researchers.
  • An internationally established working group.
  • A well-equipped work environment (soft- and hardware, biomechanics lab).
  • Continuing personal and professional education.
  • Opportunities for presenting research results at leading international conferences.

TU Wien is committed to increase female employment in leading scientific positions. Female candidates are explicitly encouraged to apply. Preference will be given when equally qualified. People with special needs are equally encouraged to apply. In case of any questions, please contact the confidant for disabled persons at the university (contact: gerhard.neustaetter@tuwien.ac.at)

Entry level salary as a postdoctoral researcher is covered by level B1 of the Austrian Collective Agreement for university staff, and receives a minimum of currently EUR 3.889,50 month gross, 14 times/year. Relevant working experiences may increase the monthly income.

We look forward to receiving your application until April 8th, 2021.

For inquires on the technical description please contact Prof. Dr. Dieter Pahr ( dieter.pahr@tuwien.ac.at ).

Application Documents: The application should include a motivation letter, a scientific CV, diploma certificates, list of publications, and a copy of the PhD thesis, all in electronic form. Applications are only accepted via our online system https://jobs.tuwien.ac.at/Job/146061.

PhD Position in Experimental Micro- and Nanobiomechanics

We invite applications for a of a PhD position (University Assistant) in experimental micro- and nanobiomechanics. The position is set within a vibrant research group with a main focus on mechanics of individual collagen fibrils and micromechanics of collagen-rich tissues. The research project to be addressed is two-fold:

1) Further development of experimental testing devices for micro- and nanomechanical characterization of individual collagen fibrils and microscopic tissue samples. This is based on a unique mechanical testing device for nanoscale fibres.

2) Conducting scientific research on the mechanics of individual collagen-fibrils as well as micro-mechanics of tissue sections as a function of age, pathology or chemical modification. We have a number of ongoing research projects in this context such that this part will be shaped according to the interests of the applicant.

Further information and link to apply for this position (deadline March 4th 2021): https://jobs.tuwien.ac.at/Job/145238

For informal discussion please contact Philipp Thurner (Philipp.thurner@tuwien.ac.at)

Postdoc position on multiscale soft tissue mechanics using SAXS and Tomography

The institute of Bioengineering at Queen Mary University of London (QMUL) is seeking to appoint a Postdoctoral Research Assistant to couple synchrotron small-angle X-ray scattering (SAXS) and phase-contrast micro-tomography (pCT) to enable 3D imaging of fibrillar collagenous tissue in organs like joints and intervertebral discs. The bioengineering challenge is to determine the correlated 3D deformation and structural changes at the molecular-, fibrillar-, and cell-matrix length-scales under physiological load in intact tissue, and how these alter in ageing, injury and disease.

The position will be based on the Harwell Campus at Diamond Light Source (DLS), and is part of an international EPSRC-funded project (Tomo-SAXS) between QMUL, DLS, University College London, University of Manchester, and the European Synchrotron Radiation Facility.

More information can be found at: Postdoctoral Research Assistant – QMUL24137, https://tinyurl.com/y4y3lcrw

PhD position in multimodal and multiscale biomechanics of the bone-implant interface

The Multi-Scale Modelisation and Simulation laboratory (MSME, East-Paris University, France) proposes a PhD position in multimodal and multiscale biomechanics of the bone-implant interface. The aim is to setup a coupled experimental and in silico approach to determine how nanostructure and composition of the interfacial bone tissue evolve and drive the resulting mechanical strength of the interface.

More information:

If you are interested and wish to discuss more, please contact Sophie Le Cann (Sophie.le-cann@u-pec.fr) and Elsa Vennat (Elsa.vennat@centralesupelec.fr). To apply, please send a CV, motivation letter and past grades; applications will be reviewed as received, for a start of the thesis in sept-oct 2021.