Evaluation of pharmacological activities and assessment of intraocular penetration of an ayurvedic polyherbal eye drop (Itone™) in experimental models

Corneal neovascularization (NV) is a sight-threatening condition usually associated with inflammatory or infectious disorders of the ocular surface. It has been shown in the field of cancer angiogenesis research that a balance exists between angiogenic factors (such as fibroblast growth factor and vascular endothelial growth factor) and anti-angiogenic molecules (such as angiostatin, endostatin, or pigment epithelium derived factor) in the cornea. Several inflammatory, infectious, degenerative, and traumatic disorders are associated with corneal NV, in which the balance is tilted towards angiogenesis. The pathogenesis of corneal NV may be influenced by matrix metalloproteinases and other proteolytic enzymes. New medical and surgical treatments, including angiostatic steroids, nonsteroidal inflammatory agents, argon laser photocoagulation, and photodynamic therapy have been effective in animal models to inhibit corneal NV and transiently restore corneal "angiogenic privilege."

The increasingly large number of chemicals introduced onto the market and into the environment has necessitated the monitoring of environmental materials and specimen banking, as well as the development of rapid and reliable methods for the evaluation of toxicity. The Hen's Egg Test, or Hühner-Embryonen-Test (HET) is a rapid, sensitive and inexpensive toxicity test and can give information on embryotoxicity, teratogenicity, systemic and immunopathological effects, metabolic pathways and now, in developed form, on mucous-membrane irritation potencies of chemical substances. Testing with incubated hen's eggs is a borderline case between in vivo and in vitro systems and does not conflict with ethical and legal obligations especially animal protection laws. In the special field of mucous-membrane irritation testing, a specific score and classification scheme was developed for the HET, which allows risk assessments analogous to the Draize scheme. There is a good correlation between the results for HET tests on a variety of pyrithiones, phenols and isothiazolinones, and the corresponding data based on Draize tests. HET chorioallantoic membrane testing should and could not entirely replace current irritation tests in mammals, but it can diminish the number of investigations with mammals, as well as limit or eliminate pain and injury during animal experiments and allow regulators to set priority and toxicity categories.