TY - JOUR
T1 - Interdisciplinary and Collaborative Training in Neuroscience
T2 - Insights from the Human Brain Project Education Programme
AU - Geminiani, Alice
AU - Kathrein, Judith
AU - Yegenoglu, Alper
AU - Vogel, Franziska
AU - Armendariz, Marcelo
AU - Ben-Zion, Ziv
AU - Bogdan, Petrut Antoniu
AU - Covelo, Joana
AU - Diaz Pier, Marissa
AU - Grasenick, Karin
AU - Karasenko, Vitali
AU - Klijn, Wouter
AU - Kokan, Tina
AU - Lupascu, Carmen Alina
AU - Lührs, Anna
AU - Mahfoud, Tara
AU - Özden, Taylan
AU - Pedersen, Jens Egholm
AU - Peres, Luca
AU - Reiten, Ingrid
AU - Simidjievski, Nikola
AU - Ulnicane, Inga
AU - van der Vlag, Michiel
AU - Zehl, Lyuba
AU - Saria, Alois
AU - Diaz-Pier, Sandra
AU - Passecker, Johannes
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024/11/6
Y1 - 2024/11/6
N2 - Neuroscience education is challenged by rapidly evolving technology and the development of interdisciplinary approaches for brain research. The Human Brain Project (HBP) Education Programme aimed to address the need for interdisciplinary expertise in brain research by equipping a new generation of researchers with skills across neuroscience, medicine, and information technology. Over its ten year duration, the programme engaged over 1,300 experts and attracted more than 5,500 participants from various scientific disciplines in its blended learning curriculum, specialised schools and workshops, and events fostering dialogue among early-career researchers. Key principles of the programme’s approach included fostering interdisciplinarity, adaptability to the evolving research landscape and infrastructure, and a collaborative environment with a focus on empowering early-career researchers. Following the programme’s conclusion, we provide here an analysis and in-depth view across a diverse range of educational formats and events. Our results show that the Education Programme achieved success in its wide geographic reach, the diversity of participants, and the establishment of transversal collaborations. Building on these experiences and achievements, we describe how leveraging digital tools and platforms provides accessible and highly specialised training, which can enhance existing education programmes for the next generation of brain researchers working in decentralised European collaborative spaces. Finally, we present the lessons learnt so that similar initiatives may improve upon our experience and incorporate our suggestions into their own programme.
AB - Neuroscience education is challenged by rapidly evolving technology and the development of interdisciplinary approaches for brain research. The Human Brain Project (HBP) Education Programme aimed to address the need for interdisciplinary expertise in brain research by equipping a new generation of researchers with skills across neuroscience, medicine, and information technology. Over its ten year duration, the programme engaged over 1,300 experts and attracted more than 5,500 participants from various scientific disciplines in its blended learning curriculum, specialised schools and workshops, and events fostering dialogue among early-career researchers. Key principles of the programme’s approach included fostering interdisciplinarity, adaptability to the evolving research landscape and infrastructure, and a collaborative environment with a focus on empowering early-career researchers. Following the programme’s conclusion, we provide here an analysis and in-depth view across a diverse range of educational formats and events. Our results show that the Education Programme achieved success in its wide geographic reach, the diversity of participants, and the establishment of transversal collaborations. Building on these experiences and achievements, we describe how leveraging digital tools and platforms provides accessible and highly specialised training, which can enhance existing education programmes for the next generation of brain researchers working in decentralised European collaborative spaces. Finally, we present the lessons learnt so that similar initiatives may improve upon our experience and incorporate our suggestions into their own programme.
KW - Digital research infrastructure
KW - Education
KW - Human brain project
KW - Interdisciplinarity
KW - Neuroscience training
UR - http://www.scopus.com/inward/record.url?scp=85208274552&partnerID=8YFLogxK
U2 - 10.1007/s12021-024-09682-6
DO - 10.1007/s12021-024-09682-6
M3 - Article
AN - SCOPUS:85208274552
SN - 1539-2791
VL - 22
SP - 657
EP - 678
JO - Neuroinformatics
JF - Neuroinformatics
IS - 4
ER -