Publié: 25 octobre 2024
Internship Regenerative Orthopaedics (ID1523)
Davos Platz
AO Foundation
The AO is a medically guided, not-for-profit organization, a global network of surgeons, and the world's leading education, innovation, and research organization specializing in the surgical treatment of trauma and musculoskeletal disorders. We are home to people from all over the world, from different backgrounds, with diverse talents and specialist areas. What binds us together is our passion for excellence, our dedication to our mission of improving patient care, and our understanding that we are stronger together: we are one AO.
For more information, visit: https://www.aofoundation.org/
Goal: Our Biomedical Materials research group (https://www.aofoundation.org/what-we-do/research-innovation/research-programs/regenerative-orthopaedics/biomedical-materials) at AO Research Institute in Davos (ARI) is working on several biopolymers and building block of therapeutic biomaterials enabling rapid biofabrication utilising light-based crosslinking and self-assembly methods. As part of our project, Bioink platfoRm fOr invAsion anD adhEsioN (BROADEN), we aim to develop multifunctional ink formulations for the fabrication of 3D constructs to be used for a range of musculoskeletal applications. In particular, we focus on controlling the three important properties (adhesion, degradation, and cellular invasion) of the developed biomaterials.
In this project we will develop new biopolymer technologies in our lab through rational chemical synthesis and work on understanding their physical and biological properties. As part of the project, you will have opportunity to support development of chemical synthesis routes of biopolymers; learn many characterisation techniques of biomaterials (fluorescence assays, Fourier transform infrared spectroscopy, rheology), utilise 3D extrusion-based printing, as well as participate in harvesting and manipulation of various cells and their biological characterisation (real time PCR, ELISAs, immunocytochemistry). If you're looking for an exciting opportunity to develop yourself in the fields of biomaterials development, 3D printing, tissue engineering, immunomodulation and contribute to the exciting discoveries to come, do not hesitate to apply!
The candidate must be very self-motivated and have a strong interest in the development of biomaterials. The ideal candidate is undergoing or have recently completed BSc/MSc studies in the area of chemistry, biomaterials, biomedical engineering, nanotechnology, or similar fields, with some focus on modules relating to polymer chemistry/physics or biomaterials desirable. They would have the theoretical knowledge or some basic experience with chemical synthesis / biopolymer characterisation. Evidence of evaluation, discussion, presentation or reporting of scientific concepts is a plus. Theoretical or practical experience in basic cell work or 3D printing experience is a bonus. We require good English language skills and a work ethic suitable to the challenges we plan to offer. Familiarity with a cross-cultural/interdisciplinary environment is an advantage.