Publications

J. A. N. Fisher, I. Gumenchuk, 2018. Low-intensity focused ultrasound alters the latency and spatial patterns of sensory-evoked cortical responses in vivo.

J. A. N. Fisher, C. G. Welle, 2018. Real-time monitoring of acute brain injury by evoked electroencephalography. Invited Chapter In: C. S. Cox (Ed.): Pre-Clinical and Clinical Methods in Brain Trauma Research. Springer. [in press]

H. Jang, S. Huang, D. X. Hammer, L. Wang, H. Rafi, M. Ye, C. G. Welle, J. A. N. Fisher, 2017. Alterations in neurovascular coupling following acute traumatic brain injury. Neurophotonics 4(4) 045007 [open access].

Huang*, J. A. N. Fisher*, M. Ye, Y. Kim, R. Ma, M. Nabili, V. Krauthamer, M. Myers, T. Coleman, and C. G. Welle, 2017. Wearable, epidermal sensor technology for detecting ultrasonic perturbation of sensory brain activity.  IEEE Transactions on Biomedical Engineering, [*equal contribution, in press] doi: 10.1109/TBME.2017.2713647

J. A. N. Fisher, S. Huang, M. Ye, M. Nabili, W. B. Wilent, V. Krauthamer, M. Myers, C. G. Welle, 2016. Real-time detection and monitoring of acute brain injury utilizing evoked electroencephalographic potentials. IEEE Transactions on Neural Systems & Rehabilitation Engineering 24(9): 1003 – 1012

S. Huang, J. A. N. Fisher, M. Ye, M. Nabili, Y. Kim, R. Ma, Y-S Kim, T. Coleman, E. F. Civillico, V. Krauthamer, and M. Myers. 2015. Detecting ultrasound-induced brain injury in the mouse with a novel flexible epidermal electrode array. Neurotherapeutics 12(3): 683-684.

J. A. N. Fisher, B. M. Salzberg. (2015). Two-photon excitation of fluorescent voltage-sensitive dyes: Monitoring membrane potential in the infrared. In: M. Canepari, D. Zecevic, and O. Bernus (Eds.): Membrane potential imaging in the nervous system and in the heart. Springer.

J. A. N. Fisher, F. Nin, T. Reichenbach, R. Uthaiah, A. J. Hudspeth. 2012. The spatial pattern of cochlear amplification. Neuron 76(5): 989-997. [cover]

[Above article reviewed in: T. Ren and P. G. Gillespie. 2012. Probing the cochlear amplifier by immobilizing molecular motors of sensory hair cells. Neuron 76(5): 868-870.]

F. Nin, T. Reichenbach, J. A. N. Fisher, A. J. Hudspeth. 2012. The contribution of active hair-bundle motility to nonlinear amplification in the mammalian cochlea. Proceedings of the National Academy of Sciences of USA DOI: 10.1073/pnas.1219379110.

K. Susumu, J. A. N. Fisher, J. Zheng, D. N. Beratan, A. G. Yodh, M. J. Therien. 2011. Two-photon absorption properties of proquinoidal D-A-D and A-D-A quadrupolar chromophores. Journal of Physical Chemistry A 115(22): 5525-5539.

J. A. N. Fisher, L. Kowalik, A. J. Hudspeth. 2011. Imaging electrical resonance in hair cells. Proceedings of the National Academy of Sciences of USA 108(4): 1651-1656.

J. A. N. Fisher, B. M. Salzberg. (2010). Monitoring membrane voltage using two-photon excitation of fluorescent voltage-sensitive dyes. In: M. Canepari & D. Zecevic (Eds.): Membrane Potential Imaging in the Nervous System: Methods and Applications. Springer.

J. A. N. Fisher, K. Susumu, M. Therien, A. G. Yodh. 2009. One- and two-photon absorption of highly conjugated multiporphyrin systems in the two-photon Soret transition region. Journal of Chemical Physics 130(13):134506.

J. A. N. Fisher, J. R. Barchi, C. G. Welle, G-H. Kim, P. Kosterin, A. L. Obaid, A. G. Yodh, D. Contreras, B. M. Salzberg. 2008. Two-photon excitation of potentiometric probes enables optical recording of action potentials from individual mammalian nerve terminals in situ. Journal of Neurophysiology 99: 1545-1553. [Highlighted in Innovative Methodology section]

J. A. N. Fisher 2007. Linear and Non-Linear Fluorescence Imaging of Neuronal Activity. (Doctoral Dissertation), Department of Physics and Astronomy,  University of Pennsylvania, Philadelphia, PA.

J. A. N. Fisher, V. A. Marchenko, A. G. Yodh, R. F. Rogers. 2005. Spatiotemporal activity patterns during respiratory rhythmogenesis in the rat ventrolateral medulla. Journal of Neurophysiology 95: 1982-1991.

J. A. N. Fisher, B. M. Salzberg, A. G. Yodh, 2005. Near infrared two-photon cross sections of voltage-sensitive dyes. Journal of Neuroscience Methods 148: 94-102.

J. A. N. Fisher, E. F. Civillico, D. Contreras, A. G. Yodh. 2004. In vivo fluorescence microscopy of neuronal activity in three dimensions by use of voltage-sensitive dyes. Optics Letters 29(1): 71-73.

 

Meeting Abstracts:

SOCIETY FOR NEUROSCIENCE, 2017, Washington, DC (dynamic poster), J. A. N. Fisher. Neurodome: Immersive neuroscience education through exploring 3D brain data in digital domes.

SOCIETY FOR NEUROSCIENCE, 2017, Washington, DC (oral presentation), H. Jang, L. Wang, S. Huang, M. Ye, D. X. Hammer, C. G. Welle, J. A. N. Fisher. Classifying acute brain injury based on noninvasive measurements of neurovascular sensory reactivity

U.S. FOOD AND DRUG ADMINISTRATION SCIENCE SYMPOSIUM, 2017, Silver Spring, MD. H. Jang, M. Ye, S. Huang, D. X. Hammer, C. G. Welle, J. A. N. Fisher. Quantitative biomarkers for brain injury measured via electroencephalography and diffuse optical correlation spectroscopy

NATIONAL CAPITAL AREA TRAUMATIC BRAIN INJURY RESEARCH SYMPOSIUM, 2017, Bethesda, MD. H. Jang, M. Ye, S. Huang, D. X. Hammer, C. G. Welle, J. A. N. Fisher. Brain injury acutely modifies sensory-evoked hemodynamic and electrophysiological responses in mice

SOCIETY FOR NEUROSCIENCE, 2016, San Diego, CA. H. Jang, S. Huang, M. Ye, D. X. C. G. Welle, D. X. Hammer, J. A. N. Fisher. Alterations in sensory-activated cerebral blood flow following brain injury.

SOCIETY FOR NEUROSCIENCE 2016, San Diego, CA. I. Gumenchuk & J. A. N. Fisher. Acute and chronic tissue effects of focused ultrasound neuromodulation assessed at the cellular and bulk-tissue scale.

[Installation] ACM SIGGRAPH, VR Village, 2015, Los Angeles, CA. J. A. N. Fisher. Neurodome (360-degree Immersion Dome)

AMERICAN SOCIETY FOR EXPERIMENTAL NEUROTHERAPEUTICS, 2015, Washington, DC S. Huang, J. A. N. Fisher, M. Ye, M. Nabili, Y. Kim, R. Ma, Y-S Kim, T. Coleman, E. F. Civillico, V. Krauthamer, M. Myers, and C. G. Welle. Detecting Ultrasound-Induced Brain Injury in the Mouse with a Novel Flexible Epidermal Electrode Array.

U.S. FOOD AND DRUG ADMINISTRATION SCIENCE FORUM, 2015, Silver Spring, MD M. Ye, M. Nabili, J. A. N. Fisher, S. Huang, Y. Kim, E. F Civillico, V. Krauthamer, M. Myers, C. G. Welle. Evaluation of electrophysiological biomarkers for the diagnosis of mild brain injury in a novel mouse model.

AMERICAN SOCIETY FOR EXPERIMENTAL NEUROTHERAPEUTICS, 2015, Washington, DC M. Ye, M. Nabili, J. A. N. Fisher, S. Huang, Y. Kim, E. F Civillico, V. Krauthamer, M. Myers, C. G. Welle. Electrophysiological signatures of mild brain injury in a novel mouse model.

SOCIETY FOR NEUROSCIENCE, 2014, Washington, DC J. A. N. Fisher, S. Huang, M. Ye, M. Nabili, E. F. Civillico, V. Krauthamer, M. Myers, C. G. Welle. Modification of somatosensory evoked potentials following focal traumatic brain injury in the mouse.

INTERNATIONAL PLANETARIUM SOCIETY CONFERENCE. 2014, Beijing, China J. A. N. Fisher, P. McPike, M. SubbaRao, D. Arnberg, J. Nises, M. Dayan, J. D. Salvi, A. Steiner. “Neurodome: Visualizing neuroimaging data in immersive, full-dome planetarium environments.”

ASSOCIATION FOR RESEARCH IN OTOLARYNGOLOGY, 2013, Baltimore, MD J. A. N. Fisher, F. Nin, T. Reichenbach, R. Uthaiah, A. J. Hudspeth. The spatial pattern of cochlear amplification.

PHOTONICS WEST (SPIE), 2012, San Francisco, CA J. A. N. Fisher, F. Nin, T. Reichenbach, R. Uthaiah, A. J. Hudspeth.  Interferometric measurement of traveling waves in the mammalian cochlea in vivo combined with photo-deactivation of prestin, a cellular force-generating protein.

MECHANICS OF HEARING, 2008, Keele University, Keele, UK J. A. N. Fisher, L. Kowalik, A. J. Hudspeth. Stroboscopic fluorescence imaging of electrical resonance in the chicken’s basilar papilla.

OPTICAL IMAGING OF BRAIN FUNCTION, 2005, Bad Honnef, Germany J. A. N. Fisher, E. F. Civillico, V. A. Marchenko, D. Contreras, B. M. Salzberg, R. F. Rogers, A. G. Yodh. Spontaneous and stimulated neural activity patterns in vivo and in situ revealed by 3D fluorescence microscopy with potentiometric dyes.

IMAGING NEURONS & NEURAL ACTIVITY, 2005, Cold Spring Harbor Labs, NY J. A. N. Fisher, A. Reid, B. M. Salzberg, E. F. Civillico, D. Contreras, A. G. Yodh. Two-photon microscopy using voltage-sensitive dyes.

PHOTONICS WEST (SPIE), 2005, San Jose, CA  J. A. N. Fisher, E. F. Civillico, D. Contreras, A. G. Yodh. Spatiotemporal dynamics of mouse cortical response to whisker stimulation in vivo measured in three-dimensions by voltage-sensitive dye imaging.

SOCIETY FOR NEUROSCIENCE, 2004, San Diego, CA V. Marchenko, J. A. N. Fisher, A. G. Yodh, D. Rector, and R. F. Rogers. Optical recording of respiratory-related activity from the ventrolateral medulla of artificially-perfused juvenile rats.

SOCIETY FOR NEUROSCIENCE, 2004, San Diego, CA J. A. N. Fisher, B. M. Salzberg, A. G. Yodh. Two-photon fluorescence excitation cross-sections of voltage-sensitive dyes from 790 – 1050 nm.

BIOMED (OSA) 2004, Miami, FL J. A. N. Fisher, E. F. Civillico, D. Contreras, A. G. Yodh. 2004. In vivo fluorescence microscopy of neural activity in three dimensions using voltage-sensitive dyes. (featured in “Frontiers in Spectral Microscopy” section)

PHOTONICS WEST (SPIE) 2003, San Jose, CA J. A. N. Fisher, E. F. Civillico, D. Contreras, D. M. Rector, J. S. George, B. M. Salzberg, L. Finkel, A. G. Yodh. Fluorescence imaging of neuronal activity of mouse somatosensory cortex in vivo using a depth-specific GRIN lens probe and voltage-sensitive dyes.

ECI 2003, Banff, Canada J. A. N. Fisher, E. F. Civillico, D. Contreras, A. G. Yodh. In vivo fluorescence microscopy of neuronal activity in three dimensions using voltage-sensitive dyes.

SOCIETY FOR NEUROSCIENCE 2003, New Orleans, LA E. F. Civillico, N. Roy, J. A. N. Fisher, M. Harvey, A. G. Yodh, D. Contreras. Spatiotemporal properties of cortical responses to electrical stimulation at different frequencies studied with voltage-sensitive dyes in vivo.

BIOMED (OSA) 2002, Miami, FL J. A. N. Fisher, D. M. Rector, J. S. George, D. Contreras, R. F. Rogers, B. M. Salzberg, L. Finkel, A. G. Yodh. Fluorescence potentiometric depth-specific imaging of neuronal systems.