Thomas T Norton

Overview

Explore the profile of Thomas T Norton including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 54

Citations 2000

Followers 0

Related Specialties

Ophthalmology

Cell Biology

Molecular Biology

Top 10 Co-Authors

John T Siegwart Jr

Timothy J Gawne

Michael R Frost

Leslie Hyman

Jane Gwiazda

Wendy Marsh-Tootle

Alexander H Ward

Wei Hou

Safal Khanal

Ruth Manny

Published In

Invest Ophthalmol Vis Sci

Exp Eye Res

Optom Vis Sci

Vision Res

Mol Vis

Affiliations

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Recent Articles

An Alternative Mechanism for the Anti-Myopia Effectiveness of Diffusion Optics Technology (DOT) Lenses

Gawne T, Khanal S, Norton T

Transl Vis Sci Technol . 2025 Jan; 14(1):15. PMID: 39808123

No abstract available.

Comment on: "Polymer Co-Coating of Gold Nanoparticles Enables Their Integration Into Contact Lenses for Stable, Selective Ocular Light Filters"

Gawne T, She Z, Norton T

Adv Mater Interfaces . 2023 Aug; 10(8). PMID: 37638139

No abstract available.

Limited bandwidth short-wavelength light produces slowly-developing myopia in tree shrews similar to human juvenile-onset myopia

Khanal S, Norton T, Gawne T

Vision Res . 2022 Dec; 204:108161. PMID: 36529048

During postnatal development, an emmetropization feedback mechanism uses visual cues to modulate the axial growth of eyes so that, with maturation, images of distant objects are in focus on the...

Chromatically simulated myopic blur counteracts a myopiagenic environment

Gawne T, She Z, Norton T

Exp Eye Res . 2022 Jul; 222:109187. PMID: 35843288

There is a world-wide epidemic of myopia (nearsightedness), produced largely by human-made environmental visual cues that disrupt the emmetropization feedback mechanism that normally uses defocus cues to produce and maintain...

DeBruyn and Casagrande manuscripts on tree shrew retinal ganglion cells as a basis for cross-species retina research

Norton T, Savier E, Sedigh-Sarvestani M

Vis Neurosci . 2022 Jan; 39:E001. PMID: 35094741

The purpose of this brief communication is to make publicly available three unpublished manuscripts on the organization of retinal ganglion cells in the tree shrew. The manuscripts were authored in...

Amber light treatment produces hyperopia in tree shrews

Khanal S, Norton T, Gawne T

Ophthalmic Physiol Opt . 2021 Aug; 41(5):1076-1086. PMID: 34382245

Purpose: Exposure to narrow-band red light, which stimulates only the long-wavelength sensitive (LWS) cones, slows axial eye growth and produces hyperopia in tree shrews and macaque monkeys. We asked whether...

How chromatic cues can guide human eye growth to achieve good focus

Gawne T, Grytz R, Norton T

J Vis . 2021 May; 21(5):11. PMID: 33984119

The postnatal growing eye uses visual cues to actively control its own axial elongation to achieve and maintain sharp focus, a process termed emmetropization. The primary visual cue may be...

Tree shrews do not maintain emmetropia in initially-focused narrow-band cyan light

Norton T, Khanal S, Gawne T

Exp Eye Res . 2021 Mar; 206:108525. PMID: 33711339

We asked if emmetropia, achieved in broadband colony lighting, is maintained in narrow-band cyan light that is well focused in the emmetropic eye, but does not allow for guidance from...

An opponent dual-detector spectral drive model of emmetropization

Gawne T, Norton T

Vision Res . 2020 May; 173:7-20. PMID: 32445984

In post-natal developing eyes a feedback mechanism uses optical cues to regulate axial growth so as to achieve good focus, a process termed emmetropization. However, the optical cues that the...

10.

Gene expression signatures in tree shrew sclera during recovery from minus-lens wear and during plus-lens wear

Guo L, Frost M, Siegwart Jr J, Norton T

Mol Vis . 2019 Jul; 25:311-328. PMID: 31341380

Purpose: In juvenile tree shrews that have developed minus lens-induced myopia, if lens treatment is discontinued, refractive recovery (REC) occurs. However, in age-matched juvenile animals, plus-lens wear (PLW) produces little...