Literature DB >> 26166563

Modeling the Spatiotemporal Dynamics of Light and Heat Propagation for In Vivo Optogenetics.

Joseph M Stujenske1, Timothy Spellman2, Joshua A Gordon3.   

Abstract

Despite the increasing use of optogenetics in vivo, the effects of direct light exposure to brain tissue are understudied. Of particular concern is the potential for heat induced by prolonged optical stimulation. We demonstrate that high-intensity light, delivered through an optical fiber, is capable of elevating firing rate locally, even in the absence of opsin expression. Predicting the severity and spatial extent of any temperature increase during optogenetic stimulation is therefore of considerable importance. Here, we describe a realistic model that simulates light and heat propagation during optogenetic experiments. We validated the model by comparing predicted and measured temperature changes in vivo. We further demonstrate the utility of this model by comparing predictions for various wavelengths of light and fiber sizes, as well as testing methods for reducing heat effects on neural targets in vivo.
Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26166563      PMCID: PMC4512881          DOI: 10.1016/j.celrep.2015.06.036

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  38 in total

1.  Optical properties of selected native and coagulated human brain tissues in vitro in the visible and near infrared spectral range.

Authors:  A N Yaroslavsky; P C Schulze; I V Yaroslavsky; R Schober; F Ulrich; H J Schwarzmaier
Journal:  Phys Med Biol       Date:  2002-06-21       Impact factor: 3.609

2.  Dynamics of retrieval strategies for remote memories.

Authors:  Inbal Goshen; Matthew Brodsky; Rohit Prakash; Jenelle Wallace; Viviana Gradinaru; Charu Ramakrishnan; Karl Deisseroth
Journal:  Cell       Date:  2011-10-20       Impact factor: 41.582

3.  Spectroscopic method for determination of the absorption coefficient in brain tissue.

Authors:  Johannes D Johansson
Journal:  J Biomed Opt       Date:  2010 Sep-Oct       Impact factor: 3.170

4.  Modelling of temperature and perfusion during scalp cooling.

Authors:  F E M Janssen; G M J Van Leeuwen; A A Van Steenhoven
Journal:  Phys Med Biol       Date:  2005-08-17       Impact factor: 3.609

5.  Temperature modulation of slow and fast cortical rhythms.

Authors:  R Reig; M Mattia; A Compte; C Belmonte; M V Sanchez-Vives
Journal:  J Neurophysiol       Date:  2009-12-23       Impact factor: 2.714

Review 6.  Optogenetics in the nonhuman primate.

Authors:  Xue Han
Journal:  Prog Brain Res       Date:  2012       Impact factor: 2.453

7.  Association between brain temperature and dentate field potentials in exploring and swimming rats.

Authors:  E Moser; I Mathiesen; P Andersen
Journal:  Science       Date:  1993-02-26       Impact factor: 47.728

8.  Mapping brain networks in awake mice using combined optical neural control and fMRI.

Authors:  M Desai; I Kahn; U Knoblich; J Bernstein; H Atallah; A Yang; N Kopell; R L Buckner; A M Graybiel; C I Moore; E S Boyden
Journal:  J Neurophysiol       Date:  2010-12-15       Impact factor: 2.714

9.  Hyperthermia induces epileptiform discharges in cultured rat cortical neurons.

Authors:  Ying-Ying Wang; Jiong Qin; Ying Han; Jie Cai; Guo-Gang Xing
Journal:  Brain Res       Date:  2011-08-19       Impact factor: 3.252

10.  Cerebral and somatic venous oximetry in adults and infants.

Authors:  Erin A Booth; Chris Dukatz; James Ausman; Michael Wider
Journal:  Surg Neurol Int       Date:  2010-11-27
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  123 in total

1.  Cell-Type-Specific Contributions of Medial Prefrontal Neurons to Flexible Behaviors.

Authors:  Hirofumi Nakayama; Ines Ibañez-Tallon; Nathaniel Heintz
Journal:  J Neurosci       Date:  2018-04-12       Impact factor: 6.167

2.  Cerebellar Control of Reach Kinematics for Endpoint Precision.

Authors:  Matthew I Becker; Abigail L Person
Journal:  Neuron       Date:  2019-06-04       Impact factor: 17.173

3.  Dorsomedial prefrontal cortex neurons encode nicotine-cue associations.

Authors:  Roeland F Struik; Nathan J Marchant; Roel de Haan; Huub Terra; Yvar van Mourik; Dustin Schetters; Madison R Carr; Marcel van der Roest; Tim S Heistek; Taco J De Vries
Journal:  Neuropsychopharmacology       Date:  2019-06-26       Impact factor: 7.853

4.  Multimode Optical Fibers for Optical Neural Interfaces.

Authors:  Massimo De Vittorio; Ferruccio Pisanello
Journal:  Adv Exp Med Biol       Date:  2021       Impact factor: 2.622

5.  Investigating the transmission profiles of 808 nm laser through different regions of the rat's head.

Authors:  Omnia Hamdy; Haitham S Mohammed
Journal:  Lasers Med Sci       Date:  2020-07-08       Impact factor: 3.161

6.  Measurement, modeling, and prediction of temperature rise due to optogenetic brain stimulation.

Authors:  Gonzalo Arias-Gil; Frank Walter Ohl; Kentaroh Takagaki; Michael Thomas Lippert
Journal:  Neurophotonics       Date:  2016-11-30       Impact factor: 3.593

7.  Characterization of fiber-optic light delivery and light-induced temperature changes in a rodent brain for precise optogenetic neuromodulation.

Authors:  Younghoon Shin; Minsu Yoo; Hyung-Sun Kim; Sung-Ki Nam; Hyoung-Ihl Kim; Sun-Kyu Lee; Sohee Kim; Hyuk-Sang Kwon
Journal:  Biomed Opt Express       Date:  2016-10-06       Impact factor: 3.732

8.  FEF inactivation with improved optogenetic methods.

Authors:  Leah Acker; Erica N Pino; Edward S Boyden; Robert Desimone
Journal:  Proc Natl Acad Sci U S A       Date:  2016-11-02       Impact factor: 11.205

9.  A Materials Roadmap to Functional Neural Interface Design.

Authors:  Steven M Wellman; James R Eles; Kip A Ludwig; John P Seymour; Nicholas J Michelson; William E McFadden; Alberto L Vazquez; Takashi D Y Kozai
Journal:  Adv Funct Mater       Date:  2017-07-19       Impact factor: 18.808

10.  Contemporary strategies for dissecting the neuronal basis of neurodevelopmental disorders.

Authors:  Dong-Oh Seo; Laura E Motard; Michael R Bruchas
Journal:  Neurobiol Learn Mem       Date:  2018-03-14       Impact factor: 2.877
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