Topic: premotor cortex

ePoster
6 ePosters
Seminar
5 seminars

Latest

SeminarNeuroscienceRecording

Cell-type-specific plasticity shapes neocortical dynamics for motor learning

Shouvik Majumder
Max Planck Florida Institute of Neuroscience, USA
Apr 18, 2024

How do cortical circuits acquire new dynamics that drive learned movements? This webinar will focus on mouse premotor cortex in relation to learned lick-timing and explore high-density electrophysiology using our silicon neural probes alongside region and cell-type-specific acute genetic manipulations of proteins required for synaptic plasticity.

SeminarNeuroscience

Identifying mechanisms of cognitive computations from spikes

Tatiana Engel
Princeton
Nov 3, 2023

Higher cortical areas carry a wide range of sensory, cognitive, and motor signals supporting complex goal-directed behavior. These signals mix in heterogeneous responses of single neurons, making it difficult to untangle underlying mechanisms. I will present two approaches for revealing interpretable circuit mechanisms from heterogeneous neural responses during cognitive tasks. First, I will show a flexible nonparametric framework for simultaneously inferring population dynamics on single trials and tuning functions of individual neurons to the latent population state. When applied to recordings from the premotor cortex during decision-making, our approach revealed that populations of neurons encoded the same dynamic variable predicting choices, and heterogeneous firing rates resulted from the diverse tuning of single neurons to this decision variable. The inferred dynamics indicated an attractor mechanism for decision computation. Second, I will show an approach for inferring an interpretable network model of a cognitive task—the latent circuit—from neural response data. We developed a theory to causally validate latent circuit mechanisms via patterned perturbations of activity and connectivity in the high-dimensional network. This work opens new possibilities for deriving testable mechanistic hypotheses from complex neural response data.

SeminarNeuroscienceRecording

A premotor amodal clock for rhythmic tapping

Hugo Merchant
National Autonomous University of Mexico
Nov 23, 2022

We recorded and analyzed the population activity of hundreds of neurons in the medial premotor areas (MPC) of rhesus monkeys performing an isochronous tapping task guided by brief flashing stimuli or auditory tones. The animals showed a strong bias towards visual metronomes, with rhythmic tapping that was more precise and accurate than for auditory metronomes. The population dynamics in state space as well as the corresponding neural sequences shared the following properties across modalities: the circular dynamics of the neural trajectories and the neural sequences formed a regenerating loop for every produced interval, producing a relative time representation; the trajectories converged in similar state space at tapping times while the moving bumps restart at this point, resetting the beat-based clock; the tempo of the synchronized tapping was encoded by a combination of amplitude modulation and temporal scaling in the neural trajectories. In addition, the modality induced a displacement in the neural trajectories in auditory and visual subspaces without greatly altering time keeping mechanism. These results suggest that the interaction between the amodal internal representation of pulse within MPC and a modality specific external input generates a neural rhythmic clock whose dynamics define the temporal execution of tapping using auditory and visual metronomes.

SeminarNeuroscience

Controlling the present while planning the future: How the brain learns and produces fast motor sequences

Jorn Diedrichsen
University of Western Ontario, Canada
Sep 14, 2022

Motor sequencing is one of the fundamental components of human motor skill. In this talk I will show evidence that the fast and smooth production of motor sequences relies on the ability to plan upcoming movements while simultaneously controlling the ongoing movement. I will argue that this ability relies heavily on planning-related areas in premotor and parietal cortex.

SeminarNeuroscienceRecording

NMC4 Short Talk: Neurocomputational mechanisms of causal inference during multisensory processing in the macaque brain

Guangyao Qi
Institute of Neuroscience, Chinese Academy of Sciences
Dec 2, 2021

Natural perception relies inherently on inferring causal structure in the environment. However, the neural mechanisms and functional circuits that are essential for representing and updating the hidden causal structure during multisensory processing are unknown. To address this, monkeys were trained to infer the probability of a potential common source from visual and proprioceptive signals on the basis of their spatial disparity in a virtual reality system. The proprioceptive drift reported by monkeys demonstrated that they combined historical information and current multisensory signals to estimate the hidden common source and subsequently updated both the causal structure and sensory representation. Single-unit recordings in premotor and parietal cortices revealed that neural activity in premotor cortex represents the core computation of causal inference, characterizing the estimation and update of the likelihood of integrating multiple sensory inputs at a trial-by-trial level. In response to signals from premotor cortex, neural activity in parietal cortex also represents the causal structure and further dynamically updates the sensory representation to maintain consistency with the causal inference structure. Thus, our results indicate how premotor cortex integrates historical information and sensory inputs to infer hidden variables and selectively updates sensory representations in parietal cortex to support behavior. This dynamic loop of frontal-parietal interactions in the causal inference framework may provide the neural mechanism to answer long-standing questions regarding how neural circuits represent hidden structures for body-awareness and agency.

ePosterNeuroscience

IS THE MIRROR NEURON SYSTEM INVOLVED IN WHOLE BODY BIOLOGICAL MOTION PERCEPTUAL ENCODING? A PRELIMINARY TDCS STUDY OVER THE VENTRAL PREMOTOR CORTEX

Umberto Quartetti, Antonio Cangelosi, Mario Piazza, Giulio Musotto, Giuditta Gambino, Dimitri Ognibene, Giuseppe Giglia

FENS Forum 2026

ePosterNeuroscience

PREMOTOR CORTEX STROKE VOLUME MAY AID BETTER PREDICTION OF EATING OUTCOMES COMPARED WITH TOTAL STROKE VOLUME IN ACUTE STROKE

Gen Koyama, Takeshi Mizuishi, Fumitaka Kase, Hideki Arakawa

FENS Forum 2026

ePosterNeuroscience

Decoding of a broad spectrum of actions from temporal evolution of neural activity in monkey premotor cortex

Elena Hilary Rondoni, Francesca Lanzarini, Monica Maranesi, Davide Albertini, Luca Bonini, Alberto Mazzoni
ePosterNeuroscience

Experience with tool use modulates visuomotor neuronal response to tool action observation in monkey motor and premotor cortex

- Coudé, - Kirchherr, - Bonaiuto, - Baldi, Pier Francesco Ferrari
ePosterNeuroscience

Fast-spiking interneurons of the premotor cortex contribute to action initiation

Nadia Giordano, Claudia Alia, Lorenzo Fruzzetti, Maria Pasquini, Alberto Mazzoni, Silvestro Micera, Leonardo Fogassi, Luca Bonini, Matteo Caleo
ePosterNeuroscience

Task-independent encoding of abstract behavioral categories in ferret premotor cortex

Jeffrey E. Boucher, Shihab Shamma, Yves Boubenec

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