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09.04
2019

Data Sheet/Specs

Image-Guided Laser Photocoagulation System

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09.04
2019

Video

Laser Burn on Rat

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09.04
2019

Video

Real-time Targeting for Photocoagulation

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Featured Article

Subretinal injection damage has implication for experimental control and treatment in rat model of retinopathy of prematurity

In their 2017 article, “Effect of subretinal injection on retinal structure and function in a rat oxygen-induced retinopathy model,” Becker et al used the Phoenix MICRON IV fundus camera, Phoenix MICRON OCT2 and corresponding layer analysis software Insight 2D, and the Phoenix MICRON focal ERG to find that subretinal injection of saline or even introduction of a needle into the vitreal space has a detrimental effect on a rat model of retinopathy of prematurity. In normal adult rats, there is no effect of subretinal injections (results in other species vary) so these rats with oxygen-induced retinopathy may be more sensitive to damage.

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Recent Posts

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  • Phoenix-Micron Releases Laser to Induce Geographic Atrophy
  • Phoenix-Micron announces MICRON® Review Station
  • Top Things to Do in Salt Lake City During ARVO 2025
  • MICRON® Imaging Systems: Out of This World – Advancing Space Exploration

Tags

adeno-associated viruses Alzheimers research AMD Animal Stand artificial intelligence Choroidal neovascularization (CNV) CNV Corneal Wound Degenerative disease diabetic retinopathy Dry AMD ERG eye-brain research eye research FA fluorescein angiography fundus image Ganzfeld Ganzfeld ERG Glaucoma InSight Laser longitudinal macular degeneration MICRON IV MICRON OCT mouse model OCT OCT2 optical coherence tomography Phoenix MICRON Phoenix MICRON IV Phoenix Micron OCT photoreceptors Retina retinal degeneration Retinal ganglion cells (RGC) retinal images retinal pigment epithelium retinal structure retinal vasculature retinitis pigmentosa RPE uveitis Zebrafish

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Phoenix-Micron, Inc
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97703, USA
Tel: +1-541-668-7539

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1_Albino

Color fundus image of a BALB/c mouse retina captured in vivo with the MICRON system, showing a translucent retina and visible choroidal vessels — features characteristic of albinism.

2_FA

Fluorescein angiogram of a mouse retina captured in vivo with the MICRON system, highlighting large and fine vessels with uniform vascular filling and no signs of leakage or occlusion. The system's sensitivity enables visualization of blood flow, with individual cells often visible in motion during live video capture.

3_CFP

Retinal image of cyan fluorescent protein (CFP) expression captured with the MICRON system, showing fluorescent signal distributed through the retina and along the vasculature.

4_GFP

Fluorescent retinal image of GFP-labeled ganglion cells captured with the MICRON system, showing bright, discrete cell bodies scattered across the retinal field.

5_Fundus

Color fundus image of a C57BL/6 wild-type mouse retina captured with the MICRON system, showing the optic nerve head with retinal vessels radiating over a healthy neurosensory retina.