Explaination of one of Elisa Rigosi's thesis projects published in Rigosi et al. 2015, Asymmetric neural coding revealed by in
vivo calcium imaging in the honeybee brain.
Now I am expanding my investigation on the olfactory system of the honeybee, performing in
vivo calcium imaging and behavioral assays to study the neurobiological basis of the associative learning and memory.
Rigosi, E., Haase, A., Rath, L., Anfora, G., Vallortigara, G. & Szyszka, P. (2015), Asymmetric neural coding revealed by in
vivo calcium imaging in the honey bee brain.
In my current research, I investigate the sublethal effects of neonicotinoids on olfactory processing and learning using in -
vivo calcium imaging.
Not exact matches
In
vivo mapping of brain activity is implemented via
calcium imaging techniques at high temporal resolution.
In his lab we use multidisciplinary approaches that include behavioral experiments in the field and in the laboratory, neuroanatomy, in
vivo electrophysiology,
calcium imaging and modeling.
He studied functional circuit processing throughout the visual system, including thalamus, primary visual cortex and extrastriate visual areas using in
vivo two - photon
imaging,
calcium sensors and viral tracers.