Novel comparison of retina and brain vasculature leads to stunning Phoenix MICRON® images of fluorescent brain blood vessels The Phoenix MICRON® imaging platform produces stunning images of fluorescent retinal vasculature through fluorescein angiography but for the first time, researchers have also captured beautiful images of cortical brain vasculature. Hui et al, in their well-written and
30.01
2020
Measuring adeno-associated virus improvements with Phoenix MICRON® fluorescent imaging and Phoenix MICRON® Ganzfeld ERG
A team of researchers at the Indian Institutes of Technology have published three detailed articles examining how to improve adeno-associated viruses (AAV). Maurya, S, Mary, B, Jayandharan, GR et al -approach the improvement of the viruses in a stunningly detailed gene-to-cell-to-whole-mouse model, narrowing down a multitude of options and producing impressive fluorescent fundus images and
21.10
2019
Phoenix MICRON® FA reveals more leakage in iron-overload model of diabetic retinopathy
Diabetic retinopathy is a crippling complication of diabetes that can lead to loss of vision, characterized by retinal inflammation, neurodegeneration, and disorganized microvascularization . Oxidative stress is crucial to the development of diabetic retinopathy. Iron is an essential micronutrient but, in excess, can become a highly damaging oxidative species. Excessive iron has been implicated in Parkinson’s
20.09
2019
Phoenix MICRON® OCT tracks individual stem cells in the rat retina
In the July edition of Nanomedicine journal, Chemla et al demonstrate a fascinating and novel way to label and track individual photoreceptor precursor cells migrating within the retina with fluorescence and gold nanoparticle tagging using the Phoenix MICRON® and OCT. Many retinal diseases such as age-related macular degeneration and retinitis pigmentosa are characterized by photoreceptor
26.08
2019
The Secret to a Perfect Fundus Image
Hint: It Starts with the Animal Angle During our hands-on training, we review animal positioning until every user is completely comfortable. But like most other lab equipment task, it does take some practice. Aligning the animal just right can be the difference between a great and a good fundus image. We’ve put together a
17.07
2019
Using the Phoenix MICRON® IV to examine a potential treatment for disrupted retinal vasculature
Many eye diseases, including age-related macular degeneration, diabetic macular edema, cancer growth, and uveitis, involve disrupted blood vessel growth and leakage. Curing the leakage and growth helps modulate and treat the underlying disease. The Phoenix MICRON® IV fundus camera allows for clear visualization of the rodent vasculature in bright field and with fluorescein angiography. Mirando