Flaum Eye Institute / Research / Labs / Schallek Lab / Publications Recent Publications Ashbery DBaez HCKanarr REKunala KPower DChu CJSchallek JMcGregor JE In Vivo Visualization of Intravascular Patrolling Immune Cells in the Primate Eye.; Investigative ophthalmology & visual science; Vol 65(11), pp. 23. 2024 Sep 03. Power DElstrott JSchallek J Photoreceptor loss does not recruit neutrophils despite strong microglial activation.; bioRxiv : the preprint server for biology. 2024 May 30. Shang FSchallek J Poster Session: After up to a year of hyperglycemia Ins2Akita mice show minimal capillary change.; Journal of vision; Vol 23(11), pp. 68. 2023 Sep 01. Power DSchallek J Poster Session: Deep retinal laser lesions recruit resident microglia without involvement of labeled neutrophils.; Journal of vision; Vol 23(11), pp. 65. 2023 Sep 01. Dholakia KHuh JWSchallek J Contributed Session II: Immune cell speed changes over 5 orders of magnitude in response to inflammation in the retina.; Journal of vision; Vol 23(11), pp. 23. 2023 Sep 01. Ashbery DBaez HKunala KPower DSchallek JMcGregor J Contributed Session II: In vivo imaging of immune cell activity in primate retina after photoreceptor ablation.; Journal of vision; Vol 23(11), pp. 22. 2023 Sep 01. Feng GJoseph ADholakia KShang FPfeifer CWPower DPadmanabhan KSchallek J High-resolution structural and functional retinal imaging in the awake behaving mouse.; Communications biology; Vol 6(1), pp. 572. 2023 May 29. Dholakia KYGuevara-Torres AFeng GPower DSchallek J In Vivo Capillary Structure and Blood Cell Flux in the Normal and Diabetic Mouse Eye.; Investigative ophthalmology & visual science; Vol 63(2). 2022 Feb 01. Joseph APower DSchallek J Imaging the dynamics of individual processes of microglia in the living retina in vivo.; Biomedical optics express; Vol 12(10). 2021 Oct 01. Guevara-Torres AWilliams DRSchallek JB Origin of cell contrast in offset aperture adaptive optics ophthalmoscopy.; Optics letters; Vol 45(4). 2020 Feb 15. Canavesi CCogliati AMietus AQi YSchallek JRolland JPHindman HB In vivo imaging of corneal nerves and cellular structures in mice with Gabor-domain optical coherence microscopy.; Biomedical optics express; Vol 11(2). 2020 Feb 01. Joseph AChu CJFeng GDholakia KSchallek J Label-free imaging of immune cell dynamics in the living retina using adaptive optics.; eLife; Vol 9. 2020 Jan 14. Silverstein SDemmin DSchallek JFradkin S Measures of Retinal Structure and Function as Biomarkers in Neurology and Psychiatry; . 2020 Jan 01. Joseph AChu CFeng GDholakia KSchallek J Label-free imaging of immune cell dynamics in the living retina using adaptive optics; eLIFE. 2020 Jan 01. Hunter JJMerigan WHSchallek JB Imaging Retinal Activity in the Living Eye.; Annual review of vision science; Vol 5. 2019 Sep 15. Alarcon-Martinez LYilmaz-Ozcan SYemisci MSchallek JKılıç KVillafranca-Baughman DCan ADi Polo ADalkara T Retinal ischemia induces α-SMA-mediated capillary pericyte contraction coincident with perivascular glycogen depletion.; Acta neuropathologica communications; Vol 7(1). 2019 Aug 20. Joseph AGuevara-Torres ASchallek J Imaging single-cell blood flow in the smallest to largest vessels in the living retina.; eLife; Vol 8. 2019 May 14. Alarcon-Martinez LYilmaz-Ozcan SYemisci MSchallek JKılıç KCan ADi Polo ADalkara T Capillary pericytes express α-smooth muscle actin, which requires prevention of filamentous-actin depolymerization for detection.; eLife; Vol 7. 2018 Mar 21. Marcos SWerner JSBurns SAMerigan WHArtal PAtchison DAHampson KMLegras RLundstrom LYoon GCarroll JChoi SSDoble NDubis AMDubra AElsner AJonnal RMiller DTPaques MSmithson HEYoung LKZhang YCampbell MHunter JMetha APalczewska GSchallek JSincich LC Vision science and adaptive optics, the state of the field.; Vision research; Vol 132. 2017 Mar. Guevara-Torres AJoseph ASchallek JB Label free measurement of retinal blood cell flux, velocity, hematocrit and capillary width in the living mouse eye.; Biomedical optics express; Vol 7(10). 2016 Oct 01. Guevara-Torres AWilliams DRSchallek JB Imaging translucent cell bodies in the living mouse retina without contrast agents.; Biomedical optics express; Vol 6(6). 2015 Jun 1. Schallek JGeng YNguyen HWilliams DR Morphology and topography of retinal pericytes in the living mouse retina using in vivo adaptive optics imaging and ex vivo characterization.; Investigative ophthalmology & visual science; Vol 54(13). 2013 Dec. Schallek JBMcLellan GJViswanathan STs'o DY Retinal intrinsic optical signals in a cat model of primary congenital glaucoma.; Investigative ophthalmology & visual science; Vol 53(4). 2012 Apr 18. Schallek JTs'o D Blood contrast agents enhance intrinsic signals in the retina: evidence for an underlying blood volume component.; Investigative ophthalmology & visual science; Vol 52(3). 2011 Mar. Schallek JKardon RKwon YAbramoff MSoliz PTs'o D Stimulus-evoked intrinsic optical signals in the retina: pharmacologic dissection reveals outer retinal origins.; Investigative ophthalmology & visual science; Vol 50(10). 2009 Oct. Schallek JLi HKardon RKwon YAbramoff MSoliz PTs'o D Stimulus-evoked intrinsic optical signals in the retina: spatial and temporal characteristics.; Investigative ophthalmology & visual science; Vol 50(10). 2009 Oct. Ts'o DSchallek JKwon YKardon RAbramoff MSoliz P Noninvasive functional imaging of the retina reveals outer retinal and hemodynamic intrinsic optical signal origins.; Japanese journal of ophthalmology; Vol 53(4). 2009 Jul.