Henrik Linden
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Explore the profile of Henrik Linden including associated specialties, affiliations and a list of published articles.
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17
Citations
783
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Recent Articles
1.
Linden H, Petersen P, Vestergaard M, Berg R
Nature
. 2022 Oct;
610(7932):526-531.
PMID: 36224394
Although the generation of movements is a fundamental function of the nervous system, the underlying neural principles remain unclear. As flexor and extensor muscle activities alternate during rhythmic movements such...
2.
Grun S, Li J, McNaughton B, Petersen C, McCormick D, Robson D, et al.
Neuron
. 2022 Jun;
110(12):1894-1898.
PMID: 35709696
How do neurons and networks of neurons interact spatially? Here, we overview recent discoveries revealing how spatial dynamics of spiking and postsynaptic activity efficiently expose and explain fundamental brain and...
3.
Linden H, Berg R
Front Hum Neurosci
. 2021 Sep;
15:719388.
PMID: 34539363
Networks in the spinal cord, which are responsible for the generation of rhythmic movements, commonly known as central pattern generators (CPGs), have remained elusive for decades. Although it is well-known...
4.
Bhumika S, Nakamura M, Valerio P, Solyga M, Linden H, Barkat T
Cereb Cortex
. 2019 Dec;
30(4):2586-2599.
PMID: 31800018
Neuronal circuits are shaped by experience during time windows of increased plasticity in postnatal development. In the auditory system, the critical period for the simplest sounds-pure frequency tones-is well defined....
5.
Christensen R, Linden H, Nakamura M, Barkat T
Cell Rep
. 2019 Nov;
29(7):2041-2053.e4.
PMID: 31722216
The brain faces the difficult task of maintaining a stable representation of key features of the outside world in noisy sensory surroundings. How does the sensory representation change with noise,...
6.
Radosevic M, Willumsen A, Petersen P, Linden H, Vestergaard M, Berg R
Nat Commun
. 2019 Jul;
10(1):2937.
PMID: 31270315
During the generation of rhythmic movements, most spinal neurons receive an oscillatory synaptic drive. The neuronal architecture underlying this drive is unknown, and the corresponding network size and sparseness have...
7.
Hagen E, Dahmen D, Stavrinou M, Linden H, Tetzlaff T, van Albada S, et al.
Cereb Cortex
. 2016 Nov;
26(12):4461-4496.
PMID: 27797828
With rapidly advancing multi-electrode recording technology, the local field potential (LFP) has again become a popular measure of neuronal activity in both research and clinical applications. Proper understanding of the...
8.
Tully P, Linden H, Hennig M, Lansner A
PLoS Comput Biol
. 2016 May;
12(5):e1004954.
PMID: 27213810
Many cognitive and motor functions are enabled by the temporal representation and processing of stimuli, but it remains an open issue how neocortical microcircuits can reliably encode and replay such...
9.
Mazzoni A, Linden H, Cuntz H, Lansner A, Panzeri S, Einevoll G
PLoS Comput Biol
. 2015 Dec;
11(12):e1004584.
PMID: 26657024
Leaky integrate-and-fire (LIF) network models are commonly used to study how the spiking dynamics of neural networks changes with stimuli, tasks or dynamic network states. However, neurophysiological studies in vivo...
10.
Pettersen K, Linden H, Tetzlaff T, Einevoll G
PLoS Comput Biol
. 2014 Nov;
10(11):e1003928.
PMID: 25393030
Power laws, that is, power spectral densities (PSDs) exhibiting 1/f(α) behavior for large frequencies f, have been observed both in microscopic (neural membrane potentials and currents) and macroscopic (electroencephalography; EEG)...