The Brain Prize
The Brain Prize, formerly known as The Grete Lundbeck European Brain Research Prize, is an international scientific award honouring "one or more scientists who have distinguished themselves by an outstanding contribution to neuroscience and who are still active in research". Founded in 2011 by the Lundbeck Foundation, the prize is associated with a €1 million award to the nominees, the world’s largest brain research prize.
Nominees can be of any nationality. Prize winners are expected to interact with Danish brain researchers e.g. through lectures, master classes, seminars, exchange programes for researchers or other activities agreed with and financially supported by Lundbeckfonden.
History
The Brain Prize was established by the Lundbeck Foundation in 2010 as a European prize and was awarded for the first time in 2011.Selection committee
As of 2019, the selection committee for the prize consisted of:- Anders Björklund
- Joseph T. Coyle
- Geoffrey A. Donnan
- Catherine Dulac
- Story Landis
- Richard G. Morris
- Mu-ming Poo
- Philip Scheltens
- Irene Tracey
Laureates
- Source:
| Year | Laurates | Country | Citation |
| 2011 | Péter Somogyi |   | ”For their wide-ranging, technically and conceptually brilliant research on the functional organization of neuronal circuits in the cerebral cortex, especially in the hippo¬campus, a region that is crucial for certain forms of memory" |
| 2011 | Tamás Freund | | ”For their wide-ranging, technically and conceptually brilliant research on the functional organization of neuronal circuits in the cerebral cortex, especially in the hippo¬campus, a region that is crucial for certain forms of memory" |
| 2011 | György Buzsáki |  | ”For their wide-ranging, technically and conceptually brilliant research on the functional organization of neuronal circuits in the cerebral cortex, especially in the hippo¬campus, a region that is crucial for certain forms of memory" |
| 2012 | Christine Petit |  | "For their unique, world-leading contributions to our understanding of the genetic regulation of the development and functioning of the ear, and for elucidating the causes of many of the hundreds of inherited forms of deafness" |
| 2012 | Karen Steel | | "For their unique, world-leading contributions to our understanding of the genetic regulation of the development and functioning of the ear, and for elucidating the causes of many of the hundreds of inherited forms of deafness" |
| 2013 | Ernst Bamberg |  | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2013 | Edward Boyden | | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2013 | Karl Deisseroth | | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2013 | Peter Hegemann | | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2013 | Gero Miesenböck |  | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2013 | Georg Nagel | | "For their invention and refinement of optogenetics. This revolutionary technique allows genetically specified populations of neurons to be turned on or off with light, offering not only the ability to elucidate the characteristics of normal and abnormal neural circuitry but also new approaches to treatment of brain disorders" |
| 2014 | Giacomo Rizzolatti |  | "For their pioneering research on higher brain mechanisms underpinning such complex human functions as literacy, numeracy, motivated behaviour and social cognition, and for their efforts to understand cognitive and behavioural disorders" |
| 2014 | Stanislas Dehaene | | "For their pioneering research on higher brain mechanisms underpinning such complex human functions as literacy, numeracy, motivated behaviour and social cognition, and for their efforts to understand cognitive and behavioural disorders" |
| 2014 | Trevor W. Robbins | | "For their pioneering research on higher brain mechanisms underpinning such complex human functions as literacy, numeracy, motivated behaviour and social cognition, and for their efforts to understand cognitive and behavioural disorders" |
| 2015 | Winfried Denk | | "For invention, refinement and use of two-photon microscopy to provide detailed, dynamic images of activity in individual nerve cells, dendrites and synapses, thereby transforming the study of development, plasticity and functional circuitry of the brain" |
| 2015 | Arthur Konnerth | | "For invention, refinement and use of two-photon microscopy to provide detailed, dynamic images of activity in individual nerve cells, dendrites and synapses, thereby transforming the study of development, plasticity and functional circuitry of the brain" |
| 2015 | Karel Svoboda | | "For invention, refinement and use of two-photon microscopy to provide detailed, dynamic images of activity in individual nerve cells, dendrites and synapses, thereby transforming the study of development, plasticity and functional circuitry of the brain" |
| 2015 | David W. Tank | | "For invention, refinement and use of two-photon microscopy to provide detailed, dynamic images of activity in individual nerve cells, dendrites and synapses, thereby transforming the study of development, plasticity and functional circuitry of the brain" |
| 2016 | Timothy Bliss | | "For their ground-breaking research on the cellular and molecular basis of Long-Term Potentiation and the demonstration that this form of synaptic plasticity underpins spatial memory and learning" |
| 2016 | Graham Collingridge | | "For their ground-breaking research on the cellular and molecular basis of Long-Term Potentiation and the demonstration that this form of synaptic plasticity underpins spatial memory and learning" |
| 2016 | Richard G. Morris | | "For their ground-breaking research on the cellular and molecular basis of Long-Term Potentiation and the demonstration that this form of synaptic plasticity underpins spatial memory and learning" |
| 2017 | Wolfram Schultz | | "For their multidisciplinary analysis of brain mechanisms that link learning to reward, which has far-reaching implications for the understanding of human behaviour, including disorders of decision-making in conditions such as gambling, drug addiction, compulsive behaviour and schizophrenia" |
| 2017 | Peter Dayan | | "For their multidisciplinary analysis of brain mechanisms that link learning to reward, which has far-reaching implications for the understanding of human behaviour, including disorders of decision-making in conditions such as gambling, drug addiction, compulsive behaviour and schizophrenia" |
| 2017 | Ray Dolan |  | "For their multidisciplinary analysis of brain mechanisms that link learning to reward, which has far-reaching implications for the understanding of human behaviour, including disorders of decision-making in conditions such as gambling, drug addiction, compulsive behaviour and schizophrenia" |
| 2018 | Bart De Strooper |  | "For their groundbreaking research on the genetic and molecular basis of Alzheimer’s disease, with far-reaching implications for the development of new therapeutic interventions as well as for the understanding of other neurodegenerative diseases of the brain'" |
| 2018 | Michel Goedert |  | "For their groundbreaking research on the genetic and molecular basis of Alzheimer’s disease, with far-reaching implications for the development of new therapeutic interventions as well as for the understanding of other neurodegenerative diseases of the brain'" |
| 2018 | Christian Haass | | "For their groundbreaking research on the genetic and molecular basis of Alzheimer’s disease, with far-reaching implications for the development of new therapeutic interventions as well as for the understanding of other neurodegenerative diseases of the brain'" |
| 2018 | John Hardy | | "For their groundbreaking research on the genetic and molecular basis of Alzheimer’s disease, with far-reaching implications for the development of new therapeutic interventions as well as for the understanding of other neurodegenerative diseases of the brain'" |
| 2019 | Marie-Germaine Bousser | | "for more than 30 years spent describing, understanding and diagnosing the most common inherited form of stroke, CADASIL" |
| 2019 | Hugues Chabriat | | "for more than 30 years spent describing, understanding and diagnosing the most common inherited form of stroke, CADASIL" |
| 2019 | Anne Joutel | | "for more than 30 years spent describing, understanding and diagnosing the most common inherited form of stroke, CADASIL" |
| 2019 | Elisabeth Tournier-Lasserve | | "for more than 30 years spent describing, understanding and diagnosing the most common inherited form of stroke, CADASIL" |
| 2020 | Sir Adrian Bird | | "for their fundamental and pioneering work on Rett syndrome." |
| 2020 | Huda Zoghbi |  | "for their fundamental and pioneering work on Rett syndrome." |