2018
DOI: 10.3390/app8071180
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Optogenetic Stimulation of Human Neural Networks Using Fast Ferroelectric Spatial Light Modulator—Based Holographic Illumination

Abstract: Abstract:The generation and application of human stem-cell-derived functional neural circuits promises novel insights into neurodegenerative diseases. These networks are often studied using stem-cell derived random neural networks in vitro, with electrical stimulation and recording using multielectrode arrays. However, the impulse response function of networks is best obtained with spatiotemporally well-defined stimuli, which electrical stimulation does not provide. Optogenetics allows for the functional contr… Show more

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Cited by 33 publications
(22 citation statements)
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“…While full-field optogenetic stimulation resulted in robust neuronal network responses, precise sub-network activities were masked. We have combined holographic stimulation with MEA recordings (54), providing high spatial stimulation resolution of 8 µm spots. Prior to holographic stimulation, we took fluorescence images to visualize and manually map individual ChR2-EYFP-expressing neurons across the electrode grid.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…While full-field optogenetic stimulation resulted in robust neuronal network responses, precise sub-network activities were masked. We have combined holographic stimulation with MEA recordings (54), providing high spatial stimulation resolution of 8 µm spots. Prior to holographic stimulation, we took fluorescence images to visualize and manually map individual ChR2-EYFP-expressing neurons across the electrode grid.…”
Section: Resultsmentioning
confidence: 99%
“…Single-photon stimulation with computer-generated phase-modulating holograms is more flexible than the methods mentioned above: higher stimulation energies than DMD or organic light emitting diode (OLED) illumination are possible, as well as three-dimensional scanning (48), fiber-optic approaches are easier (51, 52), and even sample-induced aberrations can be compensated for (53). As the most flexible and economical path for our experiments, we chose to use single-photon stimulation with computer-generated holograms based on a ferroelectric SLM with switching times of up to 400 Hz, providing high spatial resolution stimuli at neuronal soma size (8 µm) with sufficient temporal resolution (2.5 ms) and high stimulation energies (0.15 W/mm 2 ) (54). Optogenetics has already been widely exploited for mapping microcircuits by targeting subsets of neurons in brain slices in vitro (55).…”
Section: Introductionmentioning
confidence: 99%
“…The in-vitro application of optogenetics in human-derived cells, provided the important evidence that this method could be applied to humans [134,135]. However, critical issues in optogenetic therapy remain the expression of optogenetic sensors in the human cell membrane and the current produced by individual actuators, properties that balance the possibility of improving a pathological condition with the risk of further neuronal damage [136].…”
Section: The Future Of Optogeneticsmentioning
confidence: 99%
“…This possibility has had a huge impact on several optical engineering techniques. It opened the door for coping with optical distortions in flow measurements, investigations of nonlinear phenomena in MMFs or neural networks by shaping the light in a proper way, which is called adaptive wavefront shaping (AWS) [15][16][17][18]. Within the presented work, AWS is used for an accurate mode excitation by shaping the MMF input wavefield with an SLM.…”
Section: Generating Arbitrary Light Fields Using a Phase-only Slmmentioning
confidence: 99%