scholarly article | Q13442814 |
P2093 | author name string | Ying Guo | |
John C Morrison | |||
Lijun Jia | |||
Elaine Johnson | |||
William Cepurna | |||
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The induction/impact tonometer: a new instrument to measure intraocular pressure in the rat | Q77642601 | ||
Non-invasive determination of intraocular pressure in the rat eye. Comparison of an electronic tonometer (TonoPen), and a rebound (impact probe) tonometer | Q78675502 | ||
Manometric calibration and comparison of TonoLab and TonoPen tonometers in rats with experimental glaucoma and in normal mice | Q79360264 | ||
Predictability and limitations of non-invasive murine tonometry: comparison of two devices | Q82967271 | ||
The number of people with glaucoma worldwide in 2010 and 2020 | Q24679554 | ||
Translimbal laser photocoagulation to the trabecular meshwork as a model of glaucoma in rats | Q30803172 | ||
Reduction of intraocular pressure and glaucoma progression: results from the Early Manifest Glaucoma Trial | Q31113402 | ||
Experimental glaucoma: perimetric field defects and intraocular pressure | Q32169997 | ||
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Prevalence of open-angle glaucoma among adults in the United States | Q33557283 | ||
Mouse genetics: a tool to help unlock the mechanisms of glaucoma | Q33799087 | ||
Calcineurin cleavage is triggered by elevated intraocular pressure, and calcineurin inhibition blocks retinal ganglion cell death in experimental glaucoma | Q33917505 | ||
Characterization of retinal damage in the episcleral vein cauterization rat glaucoma model | Q34448394 | ||
Visual field defects and neural losses from experimental glaucoma | Q34572830 | ||
Global changes in optic nerve head gene expression after exposure to elevated intraocular pressure in a rat glaucoma model | Q35945481 | ||
The optic nerve head as a biomechanical structure: a new paradigm for understanding the role of IOP-related stress and strain in the pathophysiology of glaucomatous optic nerve head damage | Q35957595 | ||
Understanding mechanisms of pressure-induced optic nerve damage | Q35989983 | ||
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Laser energy levels for trabecular meshwork damage in the primate eye. | Q36635756 | ||
Changes in Thy1 gene expression associated with damaged retinal ganglion cells | Q43710343 | ||
A prodrug of a selective inhibitor of inducible nitric oxide synthase is neuroprotective in the rat model of glaucoma | Q44078687 | ||
Method for the noninvasive measurement of intraocular pressure in mice | Q44324740 | ||
Ganglion cell contributions to the rat full‐field electroretinogram | Q44632057 | ||
Tonopen measurement of intraocular pressure in mice | Q44809766 | ||
Selective ganglion cell functional loss in rats with experimental glaucoma | Q44909634 | ||
Comparison of invasive and non-invasive tonometry in the mouse | Q45165334 | ||
The gradient of retinal functional changes during acute intraocular pressure elevation | Q45205262 | ||
Acute effects of glaucoma medications on rat intraocular pressure | Q45238339 | ||
Activation of the extracellular signal-regulated kinase 1/2 pathway by AAV gene transfer protects retinal ganglion cells in glaucoma | Q45884480 | ||
Evaluation of inducible nitric oxide synthase in glaucomatous optic neuropathy and pressure-induced optic nerve damage | Q46404445 | ||
Functional assessment of glutamate clearance mechanisms in a chronic rat glaucoma model using retinal ganglion cell calcium imaging | Q46587952 | ||
The use of cyclodialysis to limit exposure to elevated intraocular pressure in rat glaucoma models | Q46986013 | ||
Microarray analysis of changes in mRNA levels in the rat retina after experimental elevation of intraocular pressure | Q47903438 | ||
Effect of general anesthetics on IOP in rats with experimental aqueous outflow obstruction. | Q48660936 | ||
Noninvasive measurement of rodent intraocular pressure with a rebound tonometer | Q48751704 | ||
Measuring intraocular pressure with the Pulsair 3000 and Rebound tonometers in elderly patients without an anesthetic | Q48933513 | ||
Circadian rhythm of intraocular pressure in the rat. | Q51579133 | ||
Long-term non-invasive measurement of intraocular pressure in the rat eye. | Q51597164 | ||
A new electromechanical method for measuring intraocular pressure. | Q52314571 | ||
Confirmation of the rat model of chronic, moderately elevated intraocular pressure. | Q53746354 | ||
The Ocular Hypertension Treatment Study: a randomized trial determines that topical ocular hypotensive medication delays or prevents the onset of primary open-angle glaucoma. | Q53872479 | ||
The Collaborative Normal-Tension Glaucoma Study and some of its lessons. | Q53935430 | ||
The Rate of Functional Recovery from Acute IOP Elevation | Q57537801 | ||
On the use of Tono-Pen XL for the measurement of intraocular pressure in mice | Q60609923 | ||
Temporary elevation of the intraocular pressure by cauterization of vortex and episcleral veins in rats causes functional deficits in the retina and optic nerve | Q62663115 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Norway | Q20 |
P304 | page(s) | 2802-2808 | |
P577 | publication date | 2009-03-25 | |
P1433 | published in | Investigative Ophthalmology Visual Science | Q6060707 |
P1476 | title | Reliability and sensitivity of the TonoLab rebound tonometer in awake Brown Norway rats | |
P478 | volume | 50 |
Q37503379 | A Period of Controlled Elevation of IOP (CEI) Produces the Specific Gene Expression Responses and Focal Injury Pattern of Experimental Rat Glaucoma |
Q44787042 | A modified chronic ocular hypertension rat model for retinal ganglion cell neuroprotection |
Q33706960 | A semiautomated targeted sampling method to assess optic nerve axonal loss in a rat model of glaucoma |
Q36727722 | Altered expression of transforming growth factor beta 1 and matrix metalloproteinase-9 results in elevated intraocular pressure in mice |
Q34646791 | Cell Proliferation and Interleukin-6–Type Cytokine Signaling Are Implicated by Gene Expression Responses in Early Optic Nerve Head Injury in Rat Glaucoma |
Q36166579 | Circadian rhythm of intraocular pressure in the adult rat |
Q64079174 | Early Optic Nerve Head Glial Proliferation and Jak-Stat Pathway Activation in Chronic Experimental Glaucoma |
Q41970679 | Effect of general anesthetics on IOP in elevated IOP mouse model |
Q46616754 | Effects of three commonly used anesthetics on intraocular pressure in mouse |
Q35162164 | Experimental glaucoma induced by ocular injection of magnetic microspheres |
Q64052084 | Hydrogen sulfide intervention in cystathionine-β-synthase mutant mouse helps restore ocular homeostasis |
Q49490204 | Hypertonic Saline Injection Model of Experimental Glaucoma in Rats |
Q90479118 | Induction of significant intraocular pressure diurnal fluctuation in rats using a modified technique of microbead occlusion |
Q37734597 | Metal chelator combined with permeability enhancer ameliorates oxidative stress-associated neurodegeneration in rat eyes with elevated intraocular pressure |
Q30671362 | Modeling glaucoma in rats by sclerosing aqueous outflow pathways to elevate intraocular pressure |
Q57564288 | Neuroprotective Effect of Small Interfering RNA Targeted to Caspase-3 on Rat Retinal Ganglion Cell Loss Induced by Ischemia and Reperfusion Injury |
Q34976857 | Radiation pretreatment does not protect the rat optic nerve from elevated intraocular pressure-induced injury |
Q36069082 | Rat optic nerve head anatomy within 3D histomorphometric reconstructions of normal control eyes |
Q34735762 | Reliability of Tonolab measurements in rats |
Q42854393 | Repeated Intraocular Pressure Measurement in Awake Lewis Rats Does Not Bias Retinal Ganglion Cell Survival |
Q30454002 | The combination of IGF1 and FGF2 and the induction of excessive ocular growth and extreme myopia. |
Q88104982 | [Complement activation after induction of ocular hypertension in an animal model] |
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