Innovative Laser Scarification Model for Glaucoma and Neuroprotection Studies
Virscio’s Advanced Model Offers New Horizons in Ophthalmic Research and Drug Development
Virscio’s Laser-Induced Glaucoma Model is designed to differentiate glaucoma and neuroprotection candidates effectively. With over 20 years of experience, Virscio combines proactive engagement, unparalleled primate access, and scientific expertise to efficiently generate data that reduces the time, cost, and risk of therapeutic development in various medical areas, including ophthalmic research.
In this overview, we examine Virscio's focused approach to conducting laser-induced chronic ocular hypertension research. This research is crucial for understanding and evaluating the efficacy of intraocular pressure (IOP)-lowering and neuroprotective agents, offering a clinically relevant mechanism of disease induction. Our model supports advanced research in glaucoma, providing key insights into drug efficacy and safety.
Discover how our Laser Scarification Model can enhance your understanding of glaucoma and neuroprotection, offering clinically relevant mechanisms of disease induction and flexible study designs. Our model is instrumental in evaluating the efficacy of IOP-lowering therapeutic candidates, providing valuable insights for your research endeavors.
Learn More About Our Laser Glaucoma Model Now!
Discover how our Laser Scarification Model can enhance your understanding of glaucoma and neuroprotection, offering clinically relevant mechanisms of disease induction and flexible study designs. Our model is instrumental in evaluating the efficacy of IOP-lowering therapeutic candidates, providing valuable insights for your research endeavors.
Virscio’s commitment to advancing ophthalmic research through this model is part of our broader dedication to de-risking innovation and providing world-class research capabilities for a variety of preclinical disciplines.
In this overview of our Laser Scarification Model, you will learn about:
- The application of laser scarification to induce chronic ocular hypertension.
- How our model helps in evaluating intraocular pressure (IOP) lowering therapeutics.
- The model's relevance in neuroprotection studies, assessing retinal nerve fiber layer (RNFL) loss, optic nerve head cupping, and neuroretina rim thinning.
- The use of advanced digital imaging, deep-learning technology, and comprehensive experimental designs to support your research goals.