J Andrew Pruszynski

Overview

Explore the profile of J Andrew Pruszynski including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 69

Citations 1409

Followers 0

Related Specialties

Neurology

Physiology

Biology

Top 10 Co-Authors

Stephen H Scott

Paul L Gribble

Jorn Diedrichsen

Isaac Kurtzer

Sasha Reschechtko

Jonathan A Michaels

Rodrigo S Maeda

Roland S Johansson

Mehrdad Kashefi

Jeffrey Weiler

Published In

J Neurophysiol

Elife

J Neurosci

Eur J Neurosci

Curr Biol

Affiliations

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Recent Articles

Spike frequency adaptation in primate lateral prefrontal cortex neurons results from interplay between intrinsic properties and circuit dynamics

Koch N, Corrigan B, Feyerabend M, Gulli R, Jimenez-Sosa M, Abbass M, et al.

Cell Rep . 2025 Jan; 44(1):115159. PMID: 39772396

Cortical neurons in brain slices display intrinsic spike frequency adaptation (I-SFA) to constant current inputs, while extracellular recordings show extrinsic SFA (E-SFA) during sustained visual stimulation. Inferring how I-SFA contributes...

An application-based taxonomy for brain-computer interfaces

Robinson J, Norman S, Angle M, Constandinou T, Denison T, Donoghue J, et al.

Nat Biomed Eng . 2024 Dec; PMID: 39715900

No abstract available.

Terms Are Tools in Biological Motor Control

Reschechtko S, Pruszynski J

Motor Control . 2024 Dec; 29(1):104-107. PMID: 39715617

No abstract available.

A mathematical language for linking fine-scale structure in spikes from hundreds to thousands of neurons with behaviour

Busch A, Budzinski R, Pasini F, Minac J, Michaels J, Roussy M, et al.

ArXiv . 2024 Dec; PMID: 39679273

Recent advances in neural recording technology allow simultaneously recording action potentials from hundreds to thousands of neurons in awake, behaving animals. However, characterizing spike patterns in the resulting data, and...

Future movement plans interact in sequential arm movements

Kashefi M, Reschechtko S, Ariani G, Shahbazi M, Tan A, Diedrichsen J, et al.

Elife . 2024 Sep; 13. PMID: 39219499

Real-world actions often comprise a series of movements that cannot be entirely planned before initiation. When these actions are executed rapidly, the planning of multiple future movements needs to occur...

MotorNet, a Python toolbox for controlling differentiable biomechanical effectors with artificial neural networks

Codol O, Michaels J, Kashefi M, Pruszynski J, Gribble P

Elife . 2024 Jul; 12. PMID: 39078880

Artificial neural networks (ANNs) are a powerful class of computational models for unravelling neural mechanisms of brain function. However, for neural control of movement, they currently must be integrated with...

Neural Correlates of Online Action Preparation

Shahbazi M, Ariani G, Kashefi M, Pruszynski J, Diedrichsen J

J Neurosci . 2024 Apr; 44(22). PMID: 38641408

When performing movements in rapid succession, the brain needs to coordinate ongoing execution with the preparation of an upcoming action. Here we identify the processes and brain areas involved in...

Myomatrix arrays for high-definition muscle recording

Chung B, Zia M, Thomas K, Michaels J, Jacob A, Pack A, et al.

Elife . 2023 Dec; 12. PMID: 38113081

Neurons coordinate their activity to produce an astonishing variety of motor behaviors. Our present understanding of motor control has grown rapidly thanks to new methods for recording and analyzing populations...

Done in 65 ms: Express Visuomotor Responses in Upper Limb Muscles in Rhesus Macaques

Cecala A, Kozak R, Pruszynski J, Corneil B

eNeuro . 2023 Jul; 10(8). PMID: 37507227

How rapidly can the brain transform vision into action? Work in humans has established that the transformation for visually-guided reaching can be remarkably rapid, with the first phase of upper...

10.

The future of academic publishing

Ahmed A, Al-Khatib A, Boum 2nd Y, Debat H, Gurmendi Dunkelberg A, Hinchliffe L, et al.

Nat Hum Behav . 2023 Jul; 7(7):1021-1026. PMID: 37443268

No abstract available.