Florent Haiss
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Explore the profile of Florent Haiss including associated specialties, affiliations and a list of published articles.
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22
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1428
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Recent Articles
1.
Garderes P, Le Gal S, Rousseau C, Mamane A, Ganea D, Haiss F
Nat Commun
. 2024 Jun;
15(1):4782.
PMID: 38839747
During perceptually guided decisions, correlates of choice are found as upstream as in the primary sensory areas. However, how well these choice signals align with early sensory representations, a prerequisite...
2.
Ganea D, Bexter A, Gunther M, Garderes P, Kampa B, Haiss F
Front Behav Neurosci
. 2020 Oct;
14:159.
PMID: 33088265
Pupillometry, the measure of pupil size and reactivity, has been widely used to assess cognitive processes. Changes in pupil size have been shown to correlate with various behavioral states, both...
3.
Lohmann T, Haiss F, Schaffrath K, Schnitzler A, Waschkowski F, Barz C, et al.
J Neural Eng
. 2019 Sep;
16(6):066031.
PMID: 31480027
Objective: The restoration of vision in blind patients suffering from degenerative retinal diseases like retinitis pigmentosa may be obtained by local electrical stimulation with retinal implants. In this study, a...
4.
Musall S, Haiss F, Weber B, von der Behrens W
Cereb Cortex
. 2015 Dec;
27(1):863-876.
PMID: 26628563
Stimulus-specific adaptation (SSA) to repetitive stimulation has been proposed to separate behaviorally relevant features from a stream of continuous sensory information. However, the exact mechanisms giving rise to SSA and...
5.
Mayrhofer J, Haiss F, Haenni D, Weber S, Zuend M, Barrett M, et al.
Biomed Opt Express
. 2015 Nov;
6(11):4228-37.
PMID: 26600989
We present a cost-effective in vivo two-photon microscope with a highly flexible frontend for in vivo research. Our design ensures fast and reproducible access to the area of interest, including...
6.
Mayrhofer J, Haiss F, Helmchen F, Weber B
Neuroimage
. 2015 May;
115:52-63.
PMID: 25934471
The rodent whisker system is a preferred model for studying plasticity in the somatosensory cortex (barrel cortex). Contrarily, only a small amount of research has been conducted to characterize the...
7.
Musall S, von der Behrens W, Mayrhofer J, Weber B, Helmchen F, Haiss F
Nat Neurosci
. 2014 Sep;
17(11):1567-73.
PMID: 25242306
Neocortical responses typically adapt to repeated sensory stimulation, improving sensitivity to stimulus changes, but possibly also imposing limitations on perception. For example, it is unclear whether information about stimulus frequency...
8.
Gerdjikov T, Haiss F, Rodriguez-Sierra O, Schwarz C
J Neurosci
. 2013 Aug;
33(35):14193-204.
PMID: 23986253
Vibrissae-related sensorimotor cortex controls whisking movements indirectly via modulation of lower-level sensorimotor loops and a brainstem central pattern generator (CPG). Two different whisker representations in primary motor cortex (vM1) affect...
9.
Margolis D, Lutcke H, Schulz K, Haiss F, Weber B, Kugler S, et al.
Nat Neurosci
. 2012 Oct;
15(11):1539-46.
PMID: 23086335
Sensory maps are reshaped by experience. It is unknown how map plasticity occurs in vivo in functionally diverse neuronal populations because activity of the same cells has not been tracked...
10.
Mayrhofer J, Skreb V, von der Behrens W, Musall S, Weber B, Haiss F
J Neurophysiol
. 2012 Oct;
109(1):273-84.
PMID: 23054598
Rats and mice receive a constant bilateral stream of tactile information with their large mystacial vibrissae when navigating in their environment. In a two-alternative forced choice paradigm (2-AFC), head-fixed rats...