The Training4CRM program has been centred around 3 scientific & technological workpackages, WP1-3, each with dedicated ESRs linked to them. However, ESRs have contributed and collaborated across WPs throughout the project duration. WP4 involved project management and WP5 training and education of ESRs in cross-disciplinary scientific topics related to the project as well as various transferrable skills. WP6 involved the project´s communication and exploitation strategies closely linked to the training program in WP5. WP7 and WP8 involved issues relating to Ethics.
All 15 ESRs have participated in the four research school (RS), specifically designed by the different beneficiaries to meet the ESR needs: RS1-Micro and Nanoengineering, RS2-Biotechnology, RS3-Pre-clinical analysis, and RS4-Exploitation of knowledge.
The ESRs have arranged a range of dissemination and outreach activities:
(1) Designed and updated the Training4CRM website, they produced the project logos and templates, and started Training4CRM social accounts.
(2) Organised two major public outreach events (Fig 4) and produced a video explaining the project (
https://youtu.be/vF-aeKE34dE(se abrirá en una nueva ventana)).
(3) Took part in business plan competitions, won prizes and raised money for Legendary Vish (
https://www.legendaryvish.com(se abrirá en una nueva ventana)) a start-up for 3D printed plant-based seafood.
(4) Organised a conference “Advanced Therapies in Neurodegeneration Bridging Neuroscience, Bioengineering and Optogenetics”
https://www.mariecuriealumni.eu/events/advanced-therapies-neurodegeneration-bridging-neuroscience-bioengineering-and-optogenetics(se abrirá en una nueva ventana)). It was originally planned for April 2020 in Lisbon Portugal, but due Covid-19 outbreak, reorganised to be online.
Their research has led to:
(1) Genetically modified human stem cells capable of delivering therapeutic factors to protect neurons during transplantation, and optogenetically modified cells that when light stimulated trigger the release of neurotransmitters, as well as their preclinical testing for CRM in animal models.
(2) Decellularized extra cellular matrix to generate stem cell derived cerebral organoids, and in combination with 3D printed scaffolds enhanced flat brain organoids, resulting in enhanced diffusion and gyrification.
(3) Different nano/microstructures that serve as substrates for culturing and differentiation of stem cells, as drug delivery systems for light triggered drug release, as optical waveguides for light stimulation, and electrodes for electrical/electrochemical sensing/stimulation.
(4) Electronic instrumentation and devices to model neurodegenerative disorders, miniaturised optoelectrical and electronic probes as potential novel and future wireless controlled neural implants for CRM.
(5) The Felix BIOprinter (
https://www.felixprinters.com/felix-bioprinter(se abrirá en una nueva ventana)) has been developed in Training4CRM by FelixRobotics in collaboration with DTU, now manufactured and sold by FelixPrinters.
Training4CRM has so far resulted in 17 published or accepted papers, a number of submitted manuscripts with more manuscripts in the pipeline.