Subcellular spatial resolution achieved for deep-brain imaging in vivo using a minimally invasive multimode fiber

Subcellular spatial resolution achieved for deep-brain imaging in vivo using a minimally invasive multimode fiber

Veure altres versions (1)

Achieving intravital optical imaging with diffraction-limited spatial resolution of deep-brain structures represents an important step toward the goal of understanding the mammalian central nervous system1,2,3,4. Advances in wavefront-shaping methods and computational power have recently allowed for...

Descripció completa

Dades bibliogràfiques
Autors principals:	Vasquez-Lopez, S, Turcotte, R, Koren, V, Ploschner, M, Padamsey, Z, Booth, M, Čižmár, T, Emptage, N
Format:	Journal article
Publicat:	Springer Nature 2018

Ítems similars

Subcellular spatial resolution achieved for deep-brain imaging in vivo using a minimally invasive multimode fiber
per: Turcotte, R, et al.
Publicat: (2018)

Focusing light in biological tissue through a multimode optical fiber: refractive index matching
per: Turcotte, R, et al.
Publicat: (2019)

Repeated imaging through a multimode optical fiber using adaptive optics
per: Schmidt, CC, et al.
Publicat: (2022)

Dataset: Focusing light in biological tissue through a multimode optical fiber: refractive index matching
per: Turcotte, R, et al.
Publicat: (2019)

Deconvolution for multimode fiber imaging: Open-source modeling of spatially variant PSF
per: Turcotte, R, et al.
Publicat: (2020)

Volumetric two-photon fluorescence imaging of live neurons using a multimode optical fiber
per: Turcotte, R, et al.
Publicat: (2020)

Computational super-resolution imaging with multimode fiber using optimized illuminations
per: Pathak, B, et al.
Publicat: (2022)

Multimodal minimally invasive surgery in the treatment of neurocysticercosis
per: William W. Lines-Aguilar, et al.
Publicat: (2024-06-01)

Imaging synaptic plasticity.
per: Padamsey, Z, et al.
Publicat: (2011)

Minimally invasive multimode optical fiber microendoscope for deep brain fluorescence imaging
per: Ohayon, Shay, et al.
Publicat: (2020)

Imaging synaptic plasticity
per: Padamsey Zahid, et al.
Publicat: (2011-09-01)

A large field of view two-photon mesoscope with subcellular resolution for in vivo imaging
per: Nicholas James Sofroniew, et al.
Publicat: (2016-06-01)

Glutamate is required for depression but not potentiation of long-term presynaptic function
per: Padamsey, Z, et al.
Publicat: (2017)

Intracellular Ca2+ release and synaptic plasticity: A tale of many stores
per: Padamsey, Z, et al.
Publicat: (2018)

Optical quantal analysis using Ca2+ indicators: a robust method for assessing transmitter release probability at excitatory synapses by imaging single glutamate release events
per: Padamsey, Z, et al.
Publicat: (2019)

Glutamate is required for depression but not potentiation of long-term presynaptic function
per: Zahid Padamsey, et al.
Publicat: (2017-11-01)

Observing distant objects with a multimode fiber-based holographic endoscope
per: Ivo T. Leite, et al.
Publicat: (2021-03-01)

Data: MMF2P
per: Turcotte, R, et al.
Publicat: (2020)

Supporting dataset for Extended range and aberration-free autofocusing via remote focusing and sequence-dependent learning
per: Jiahe Cui, et al.
Publicat: (2022)

Minimally Invasive Microelectrode Biosensors Based on Platinized Carbon Fibers for in Vivo Brain Monitoring
per: Charles Chatard, et al.
Publicat: (2018-12-01)

On-chip whole-animal manipulation for high-throughput subcellular-resolution in-vivo drug/genetic screening
per: Yanik, Mehmet Fatih, et al.
Publicat: (2010)

Spatial omics technologies at multimodal and single cell/subcellular level
per: Jiwoon Park, et al.
Publicat: (2022-12-01)

Inhibition of lysosomal Ca2+ signalling disrupts dendritic spine structure and impairs wound healing in neurons
per: Padamsey, Z, et al.
Publicat: (2017)

Motion-tolerant 3D volumetric multimodality microscopy imaging of human skin with subcellular resolution and extended field-of-view
per: Zhenguo Wu, et al.
Publicat: (2025-02-01)

Scalable Subcellular Resolution Mapping of the Human Brain
per: Guan, Webster
Publicat: (2023)

Dataset: svmPSF
per: Turcotte, R, et al.
Publicat: (2020)

Extended range and aberration-free autofocusing via remote focusing and sequence-dependent learning
per: Cui, J, et al.
Publicat: (2021)

Multimodal minimally invasive management of retained impacted denture in duodenum
per: Deepa Kizhakke Veetil, et al.
Publicat: (2023-01-01)

Inhibition of lysosomal Ca2+ signalling disrupts dendritic spine structure and impairs wound healing in neurons
per: Zahid Padamsey, et al.
Publicat: (2017-11-01)

Increased expression of dysbindin-1A leads to a selective deficit in NMDA receptor signaling in the hippocampus.
per: Jeans, A, et al.
Publicat: (2011)

Increased expression of dysbindin-1A leads to a selective deficit in NMDA receptor signaling in the hippocampus
per: Jeans, A, et al.
Publicat: (2011)

MINIMALLY INVASIVE METHODS OF SURGICAL TREATMENT FOR INJURIES OF THE UPPER LIMB IN CHILDREN
per: M. Gerasimenko, et al.
Publicat: (2016-03-01)

Fluorescence Imaging of 3D Cell Models with Subcellular Resolution
per: Indra Van Zundert, et al.
Publicat: (2022-07-01)

Laserspritzer: a simple method for optogenetic investigation with subcellular resolutions.
per: Qian-Quan Sun, et al.
Publicat: (2014-01-01)

Spatial-proteomics reveals phospho-signaling dynamics at subcellular resolution
per: Ana Martinez-Val, et al.
Publicat: (2021-12-01)

Remote-focussing for volumetric imaging in a contactless and label-free neurosurgical microscope
per: Cui, J, et al.
Publicat: (2020)

Subcellular evidence for biogenesis of autophagosomal membrane during spermiogenesis in vivo
per: Yufei Huang, et al.
Publicat: (2016-10-01)

Editorial: Adaptive optics for in vivo brain imaging
per: Rodríguez, C, et al.
Publicat: (2023)

An automated high-content screening and assay platform for the analysis of spheroids at subcellular resolution
per: Margaritha M. Mysior, et al.
Publicat: (2024-01-01)

An automated high-content screening and assay platform for the analysis of spheroids at subcellular resolution.
per: Margaritha M Mysior, et al.
Publicat: (2024-01-01)