R01EY032507

NIH – National Eye Institute

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In Vivo Quantification of Anterior and Posterior Chamber Volumes in Mice: Implications for Aqueous Humor Dynamics

Kim, D., Fang, R., Zhang, P., Yan, Z., Sun, C., Li, G., Montgomery, C., John, S. W. M., Stamer, W. D., Zhang, H. F., & Ethier, C. R. (2025). In Vivo Quantification of Anterior and Posterior Chamber Volumes in Mice: Implications for Aqueous Humor Dynamics. Investigative Ophthalmology & Visual Science, 66(1), 18. https://doi.org/10.1167/iovs.66.1.18
Authors:
Daniel Kim
Raymond Fang
Pengpeng Zhang
Zihang Yan
Cheng Sun
Guorong Li
Christa Montgomery
Simon W M John
W Daniel Stamer
Hao F Zhang
C Ross Ethier
Affiliated Authors:
Christa Montgomery
Simon W M John
Columbia Affiliation:
Subjects:
Aqueous Humor (MeSH)
Tomography, Optical Coherence (MeSH)
Anterior Chamber (MeSH)
Mice, Inbred BALB C (MeSH)
Mice, Inbred C57BL (MeSH)
Author Keywords:
anterior chamber
aqueous humor
imaging
optical coherence tomography (oct)
posterior chamber
animal experiment
animal model
animal tissue
anterior eye chamber
anterior eye chamber volume
aqueous humor flow
article
c57bl 6 mouse
c57bl mouse
computer assisted tomography
controlled study
drug therapy
ex vivo study
female
fluorophotometry
histology
human
male
micro-computed tomography
mouse
nonhuman
optical coherence tomography
animal
bagg albino mouse
diagnostic imaging
intraocular pressure
metabolism
physiology
posterior eye segment
procedures
animals
mice
mice, inbred balb c
mice, inbred c57bl
tomography, optical coherence
x-ray microtomography
Grants:
F30EY034033 (NIH – National Eye Institute)
P30EY005722 (NIH – National Eye Institute)
P30EY019007 (NIH – National Eye Institute)
R01EY029121 (NIH – National Eye Institute)
R01EY030124 (NIH – National Eye Institute)
R01EY031710 (NIH – National Eye Institute)
R01EY032062 (NIH – National Eye Institute)
R01EY032507 (NIH – National Eye Institute)
R01EY033813 (NIH – National Eye Institute)
R01EY034353 (NIH – National Eye Institute)
R01EY034740 (NIH – National Eye Institute)
R44EY026466 (NIH – National Eye Institute)
U01EY033001 (NIH – National Eye Institute)
Publication Type:
Article
Unique ID:
10.1167/iovs.66.1.18
PMID:
39774626
DOI:
10.1167/iovs.66.1.18
Journal:
Investigative Ophthalmology and Visual Science
Publication Date:
Data Source:
PubMed
Source Link:
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Transcriptomic profiling of Schlemm’s canal cells reveals a lymphatic-biased identity and three major cell states

Balasubramanian, R., Kizhatil, K., Li, T., Tolman, N., Bhandari, A., Clark, G., Bupp-Chickering, V., Kelly, R. A., Zhou, S., Peregrin, J., Simón, M., Montgomery, C., Stamer, W. D., Qian, J., & John, S. W. (2024). Transcriptomic profiling of Schlemm’s canal cells reveals a lymphatic-biased identity and three major cell states. ELife, 13. CLOCKSS. https://doi.org/10.7554/elife.96459
Authors:
Revathi Balasubramanian
Krishnakumar Kizhatil
Taibo Li
Nicholas Tolman
Aakriti Bhandari
Graham Clark
Violet Bupp-Chickering
Ruth A. Kelly
Sally Zhou
John Peregrin
Marina Simón
Christa Montgomery
W. Daniel Stamer
Jiang Qian
Simon W. M. John
Affiliated Authors:
Revathi Balasubramanian
Nicholas Tolman
Aakriti Bhandari
Violet Bupp-Chickering
Sally Zhou
John Peregrin
Marina Simón
Christa Montgomery
Simon W. M. John
Columbia Affiliation:
Subjects:
Endothelial Cells (MeSH)
Gene Expression Profiling (MeSH)
Mice, Inbred C57BL (MeSH)
Lymphangiogenesis in Cancer Metastasis and Disease (OpenAlex Topic)
Molecular Characterization of Colorectal Cancer (OpenAlex Topic)
Biology and Pathology of Keratins and Related Disorders (OpenAlex Topic)
Author Keywords:
cell biology
glaucoma anterior segment
mouse
schlemm's canal
single cell transcriptomics
trabecular meshwork
Grants:
P30EY019007 (NIH – National Eye Institute)
R01EY032507 (NIH – National Eye Institute)
P30EY005722 (NIH – National Eye Institute)
R01EY032062 (NIH – National Eye Institute)
R01EY029548 (NIH – National Eye Institute)
R01EY022359 (NIH – National Eye Institute)
R01EY028175 (NIH – National Eye Institute)
Related Items:
Joint Publication
Balasubramanian, R., Kizhatil, K., Li, T., Tolman, N., Bhandari, A., Clark, G., Bupp-Chickering, V., Kelly, R. A., Zhou, S., Peregrin, J., Simón, M., Montgomery, C., Stamer, W. D., Qian, J., & John, S. W. (2024). Transcriptomic profiling of Schlemm’s canal cells reveals a lymphatic-biased identity and three major cell states. ELife, 13. CLOCKSS. https://doi.org/10.7554/elife.96459.3
Publication Date
View
OpenAlex Record
Publication Type:
Article
Unique ID:
10.7554/elife.96459
PMID:
39422453
DOI:
10.7554/elife.96459
Journal:
eLife
Publication Date:
Data Source:
OpenAlex
Source Link:
View OpenAlex Record
View PubMed Record
View Scopus Record

Record Created:

CyclinD2-mediated regulation of neurogenic output from the retinal ciliary margin is perturbed in albinism

Slavi, N., Balasubramanian, R., Lee, M. A., Liapin, M., Oaks-Leaf, R., Peregrin, J., Potenski, A., Troy, C. M., Ross, M. E., Herrera, E., Kosmidis, S., John, S. W. M., & Mason, C. A. (2023). CyclinD2-mediated regulation of neurogenic output from the retinal ciliary margin is perturbed in albinism. Neuron, 111(1), 49-64.e5. https://doi.org/10.1016/j.neuron.2022.10.025
Authors:
Nefeli Slavi
Revathi Balasubramanian
Melissa Ann Lee
Michael Liapin
Rachel Oaks-Leaf
John Peregrin
Anna Potenski
Carol Marie Troy
Margaret Elizabeth Ross
Eloisa Herrera
Stylianos Kosmidis
Simon William Maxwell John
Carol Ann Mason
Affiliated Authors:
Nefeli Slavi
Revathi Balasubramanian
Melissa Ann Lee
Michael Liapin
Rachel Oaks-Leaf
John Peregrin
Anna Potenski
Carol Marie Troy
Stylianos Kosmidis
Simon William Maxwell John
Carol Ann Mason
Columbia Affiliation:
Subjects:
Albinism (MeSH)
Retina (MeSH)
Author Keywords:
albinism
binocular vision
ciliary margin
cyclind2
ipsilateral projection
neurogenesis
retinal ganglion cells
rpe
single-cell rna seq
Grants:
P30CA013696 (NIH – National Cancer Institute)
UL1TR001873 (NIH – National Center for Advancing Translational Sciences)
R01EY012736 (NIH – National Eye Institute)
R01EY032507 (NIH – National Eye Institute)
R01EY015290 (NIH – National Eye Institute)
R21EY023714 (NIH – National Eye Institute)
R01EY032062 (NIH – National Eye Institute)
P30EY019007 (NIH – National Eye Institute)
R01NS105477 (NIH – National Institute of Neurological Disorders and Stroke)
Publication Type:
Article
Unique ID:
10.1016/j.neuron.2022.10.025
PMID:
36351424
DOI:
10.1016/j.neuron.2022.10.025
Journal:
Neuron
Publication Date:
Data Source:
PubMed
Source Link:
View PubMed Record
View Scopus Record
View Web of Science Record

Record Created:

Mouse models of NADK2 deficiency analyzed for metabolic and gene expression changes to elucidate pathophysiology

Murray, G. C., Bais, P., Hatton, C. L., Tadenev, A. L. D., Hoffmann, B. R., Stodola, T. J., Morelli, K. H., Pratt, S. L., Schroeder, D., Doty, R., Fiehn, O., John, S. W. M., Bult, C. J., Cox, G. A., & Burgess, R. W. (2022). Mouse models of NADK2 deficiency analyzed for metabolic and gene expression changes to elucidate pathophysiology. Human Molecular Genetics, 31(23), 4055–4074. https://doi.org/10.1093/hmg/ddac151
Authors:
G.C. Murray
P. Bais
C.L. Hatton
A.L.D. Tadenev
B.R. Hoffmann
T.J. Stodola
K.H. Morelli
S.L. Pratt
D. Schroeder
R. Doty
O. Fiehn
S.W.M. John
C.J. Bult
G.A. Cox
R.W. Burgess
Affiliated Authors:
S.W.M. John
Columbia Affiliation:
Subjects:
Hyperlysinemias (MeSH)
Neuroaxonal Dystrophies (MeSH)
Grants:
R01EY011721 (NIH – National Eye Institute)
R01EY032507 (NIH – National Eye Institute)
U2CES030158 (NIH – National Institute of Environmental Health Sciences)
T32GM132006 (NIH – National Institute of General Medical Sciences)
R37NS054154 (NIH – National Institute of Neurological Disorders and Stroke)
R21NS082666 (NIH – National Institute of Neurological Disorders and Stroke)
S10OD026816 (NIH – Office of the Director, National Institutes of Health)
Publication Type:
Article
Unique ID:
10.1093/hmg/ddac151
PMID:
35796562
DOI:
10.1093/hmg/ddac151
Journal:
Human Molecular Genetics
Publication Date:
Data Source:
Scopus
Source Link:
View Scopus Record
View PubMed Record

Record Created:

CSV