Ailsa M. Jeffries scite author profile

Simulation in normally sighted individuals is a crucial tool to evaluate the performance of potential visual prosthesis designs prior to human implantation of a device. Here, we investigated the effects of electrode count on visual acuity, learning rate and response time in 16 normally sighted subjects using a simulated thalamic visual prosthesis, providing the first performance reports for thalamic designs. A new letter recognition paradigm using a multiple-optotype two-alternative forced choice task was adapted from the Snellen eye chart, and specifically devised to be readily communicated to both human and non-human primate subjects. Validation of the method against a standard Snellen acuity test in 21 human subjects showed no significant differences between the two tests. The novel task was then used to address three questions about simulations of the center-weighted phosphene patterns typical of thalamic designs: What are the expected Snellen acuities for devices with varying numbers of contacts, do subjects display rapid adaptation to the new visual modality, and can response time in the task provide clues to the mechanisms of perception in low-resolution artificial vision? Population performance (hit rate) was significantly above chance when viewing Snellen 20/200 optotypes (Log MAR 1.0) with 370 phosphenes in the central 10 degrees of vision, ranging to Snellen 20/800 (Log MAR 1.6) with 25 central phosphenes. Furthermore, subjects demonstrated learning within the 1–2 hours of task experience indicating the potential for an effective rehabilitation and possibly better visual performance after a longer period of training. Response time differences suggest that direct letter perception occurred when hit rate was above 75%, whereas a slower strategy like feature-based pattern matching was used in conditions of lower relative resolution. As pattern matching can substantially boost effective acuity, these results suggest post-implant therapy should specifically address feature detection skills.

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ATM-deficiency induced microglial activation promotes neurodegeneration in Ataxia-Telangiectasia

Lai

Kim

Jeffries

et al. 2021

Preprint

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While ATM loss-of-function has long been identified as the genetic cause of Ataxia Telangiectasia (AT), how this genetic mutation leads to selective and progressive cerebellar degeneration of Purkinje and granule cells remains unknown. We performed single-nucleus RNA-sequencing of the human cerebellum and prefrontal cortex from individuals with AT and matched unaffected controls to identify AT-associated transcriptomic changes in a cell-type- and brain-region-specific manner. We provide the largest single-nucleus transcriptomic atlas of the adult human cerebellum to-date (126,356 nuclei), identify upregulation of apoptotic and ER stress pathways in Purkinje and granule neurons, and uncover strong downregulation of calcium ion homeostasis genes in Purkinje neurons. Our analysis reveals prominent inflammation of microglia in AT cerebellum with transcriptional signatures similar to aging and neurodegenerative microglia, and suggests that microglia activation precedes Purkinje and granule neuron death in disease progression. Our data implicates a novel role of microglial activation underlying cerebellar degeneration in AT.

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Mapping the primate lateral geniculate nucleus: A review of experiments and methods

Jeffries

Killian

Pezaris

2014

Journal of Physiology-Paris

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Mapping neuronal responses in the lateral geniculate nucleus (LGN) is key to understanding how visual information is processed in the brain. This paper focuses on our current knowledge of the dynamics the receptive field (RF) as broken down into the classical receptive field (CRF) and the extra-classical receptive field (ECRF) in primate LGN. CRFs in the LGN are known to be similar to those in the retinal ganglion cell layer in terms of both spatial and temporal characteristics, leading to the standard interpretation of the LGN as a relay center from retina to primary visual cortex. ECRFs have generally been found to be large and inhibitory, with some differences in magnitude between the magno-, parvo-, and koniocellular pathways. The specific contributions of the retina, thalamus, and visual cortex to LGN ECRF properties are presently unknown. Some reports suggest a retinal origin for extra-classical suppression based on latency arguments and other reports have suggested a thalamic origin for extra-classical suppression. This issue is complicated by the use of anesthetized animals, where cortical activity is likely to be altered. Thus further study of LGN ECRFs is warranted to reconcile these discrepancies. Producing descriptions of RF properties of LGN neurons could be enhanced by employing preferred naturalistic stimuli. Although there has been significant work in cats with natural scene stimuli and noise that statistically imitates natural scenes, we highlight a need for similar data from primates. Obtaining these data may be aided by recent advancements in experimental and analytical techniques that permit the efficient study of nonlinear RF characteristics in addition to traditional linear factors. In light of the reviewed topics, we conclude by suggesting experiments to more clearly elucidate the spatial and temporal structure of ECRFs of primate LGN neurons.

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Ailsa M. Jeffries

Visual Acuity of Simulated Thalamic Visual Prostheses in Normally Sighted Humans

ATM-deficiency induced microglial activation promotes neurodegeneration in Ataxia-Telangiectasia

Mapping the primate lateral geniculate nucleus: A review of experiments and methods

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