travoprost and Disease-Models--Animal

We attempted to explore a noninvasive, easily applicable and economically affordable therapy for retinopathy of prematurity (ROP). Rat pups were raised in 80% oxygen from postnatal day 7 to P12, and returned to room air. Travoprost eye drops were administered twice a day for 7 days, to reduce intraocular pressure (IOP) by about 20%. Immunohistochemical staining was performed to visualize vessel endothelial cells, to analyze retinal neurons and cytoarchitecture. Behavioral experiments were carried out to test visual acuity and contrast sensitivity. At the end of the 7-day treatment, the number of vessels extending to the vitreous body was significantly reduced and retinal vessel density increased. This improvement was maintained to the end of the 12th week. In the central retina of the model group, the horizontal cells were completely wiped out, the outer plexiform layer was undetectable, and the rod bipolar cell dendrites sprouted into the outer nuclear layer. The treatment partially reverted these architectural changes. Most importantly, behavioral experiments revealed significantly improved visual acuity and contrast sensitivity in the treated group. Therefore, reducing IOP could potentially serve as a safe and economical measure to treat ROP.

Topics: Animals; Animals, Newborn; Behavior, Animal; Disease Models, Animal; Endothelial Cells; Female; Humans; Intraocular Pressure; Oxygen; Pregnancy; Rats, Sprague-Dawley; Retina; Retinal Neovascularization; Retinal Vessels; Retinopathy of Prematurity; Travoprost; Vision, Ocular; Visual Acuity

Lipid DNA nanoparticles (NPs) exhibit an intrinsic affinity to the ocular surface and can be loaded by hybridization with fluorophore-DNA conjugates or with the anti-glaucoma drug travoprost by hybridizing an aptamer that binds the medication. In the travoprost-loaded NPs (Trav-NPs), the drug is bound by specific, non-covalent interactions, not requiring any chemical modification of the active pharmaceutical ingredient. Fluorescently labeled Trav-NPs show a long-lasting adherence to the eye, up to sixty minutes after eye drop instillation. Biosafety of the Trav-NPs was proved and in vivo. Ex vivo and in vivo quantification of travoprost via LC-MS revealed that Trav-NPs deliver at least twice the amount of the drug at every time-point investigated compared to the pristine drug. The data successfully show the applicability of a DNA-based drug delivery system in the field of ophthalmology for the treatment of a major retinal eye disease, i.e. glaucoma.

Topics: Animals; Aptamers, Nucleotide; Containment of Biohazards; Disease Models, Animal; DNA; Drug Delivery Systems; Glaucoma; Humans; Lipids; Mice; Nanoparticles; Rats; Swine; Travoprost

To determine whether topical application of travoprost 0.004% induces changes in corneal biomechanical properties affecting intraocular pressure (IOP) values in rabbits.. Both eyes of 10 New Zealand rabbits were measured 3 times with the Ocular Response Analyzer (ORA) before treatment. Each measurement included corneal hysteresis (CH), corneal resistance factor (CRF), corneal-corrected IOP (IOPcc), and Goldmann equivalent IOP (IOPg). A drop of travoprost 0.004% was applied once daily in right eyes for 3 months; left eyes received no treatments. After 3 months of treatment both eyes of all rabbits were again measured 3 times. After complete keratectomy of both eyes, tissues prepared with hematoxylin-eosin stain were analyzed by means of light microscopy.. The mean pre- and post-treatment IOPg, respectively, for right eyes was 9.92 ± 5.64 mm Hg and 7.62 ± 2.99 mm Hg (P = 0.027); IOPcc, 19.81 ± 5.25 mm Hg and 17.79 ± 4.09 mm Hg (P = 0.063); CRF, 1.65 ± 1.63 mm Hg and 2.18 ± 2.50 mm Hg (P = 0.266); and CH, 2.79 ± 1.74 mm Hg and 2.64 ± 2.08 mm Hg (P = 0.72). Mean post-treatment right and left eye IOPg values were, respectively, 7.62 ± 2.99 and 10.30 ± 4.40 (P = 0.002); IOPcc, 17.79 ± 4.09 mm Hg and 20.37 ± 4.32 mm Hg (P = 0.009); CRF, 1.65 ± 1.63 mm Hg and 2.17 ± 2.47 mm Hg (P = 0.274); and CH, 2.79 ± 1.74 mm Hg and 2.54 ± 2.08 mm Hg (P = 0.575). No difference in CH and CRF was observed between treated and untreated eyes.. Post-treatment reduction of IOP in treated eyes was a direct hypotensive effect of travoprost 0.004% and was not affected by changes in corneal biomechanical properties (CH and CRF), resulting in real lower IOP values.

Topics: Animals; Antihypertensive Agents; Biomechanical Phenomena; Cornea; Disease Models, Animal; Glaucoma; Intraocular Pressure; Ophthalmic Solutions; Rabbits; Tonometry, Ocular; Travoprost

To investigate the toxic-inflammatory effects of prostaglandin analogs on the ocular surface.. Twenty-three rats were divided into four groups. Bimatoprost 0.03% (I), latanoprost 0.005% (II), and travoprost 0.004% (III) were applied during 6 months; a control group (IV) received no treatment. Dysplasia and keratinization were evaluated on the ocular surface. In the subepithelial area, the number of lymphocytes and mast cells were counted morphologically, and collagen staining densities were compared subjectively in groups.. The ratio of keratinization was 3/12 and 1/10, in groups I and II. The lymphocyte cell counts were 1.4 ± 0.19, 2.2 ± 0.39, 2.27 ± 0.33, and 1.87 ± 0.35 (p > .05). The mast cell counts were 2.58 ± 0.5, 5.4 ± 1.1, 5.7 ± 0.58, and 3.0 ± 0.59. They were significantly higher in groups II and III than in group I (p < .05). Mean collagen density scores were 1.00 ± 0.85, 2.00 ± 0.00, and 1,73 ± 0.70. Group II and III scores were higher than group I scores (p < .05).. Latanoprost and travoprost seem to have more toxic-inflammatory effects on the ocular surface than bimatoprost.

Topics: Amides; Animals; Antihypertensive Agents; Bimatoprost; Cloprostenol; Conjunctiva; Conjunctival Diseases; Cornea; Corneal Diseases; Disease Models, Animal; Follow-Up Studies; Glaucoma; Intraocular Pressure; Latanoprost; Male; Ophthalmic Solutions; Prostaglandins F, Synthetic; Prostaglandins, Synthetic; Rats; Rats, Wistar; Travoprost

Examination of the response of the retinal proteome to elevated intraocular pressure (IOP) and to the pharmacological normalization of IOP is crucial, in order to develop drugs with neuroptorective potential. We used a hereditary rat model of ocular hypertension to lower IOP with travaprost and dorzolamide applied topically on the eye surface, and examine changes of the retinal proteome. Our data demonstrate that elevated IOP causes alterations in the retinal protein profile, in particular in high-mobility-group-protein B1 (HMGB1), calmodulin, heat-shock-protein (HSP) 70 and carbonic anhydrase II expression. The changes of the retinal proteome by dorzolamide or travoprost are different and independent of the IOP lowering effect. This fact suggests that the eye drops exert a direct IOP-independent effect on retinal metabolism. Further investigations are required to elucidate the potential neuroprotective mechanisms signaled through changes of HMGB1, calmodulin, HSP70 and carbonic anhydrase II expression in glaucoma. The data may facilitate development of eye drops that exert neuroprotection through direct pharmacological effect.

Topics: Animals; Calmodulin; Carbonic Anhydrase II; Cloprostenol; Disease Models, Animal; Glaucoma; HMGB1 Protein; HSP70 Heat-Shock Proteins; Intraocular Pressure; Ophthalmic Solutions; Peptide Mapping; Proteome; Proteomics; Rats; Retina; Sulfonamides; Thiophenes; Travoprost

The aim of this study was to use a validated acute rabbit model to test the toxicity of a novel formulation of fixed-combination travoprost 0.004%/timolol 0.5% ophthalmic solution, which contains the antimicrobial preservative polyquaternium-1 (PQ), compared with the commercial formulation of fixed combinations travoprost 0.004%/timolol 0.5% ophthalmic solution and latanoprost 0.005%/timolol 0.5% ophthalmic solution, which both contain the preservative benzalkonium chloride (BAK).. Adult male New Zealand albino rabbits (n=24) were randomly divided into four groups. Phosphate-buffered saline (PBS), travoprost/timolol PQ, travoprost/timolol BAK, or latanoprost/timolol BAK were instilled onto rabbit eyes one drop, 15 times at 5 minute intervals. The ocular surface reactions were investigated at hour 4 and day 1 using slit lamp examination; in-vivo confocal microscopy (IVCM) for cornea, limbus, and conjunctiva-associated lymphoid tissue (CALT); conjunctival impression cytology; and standard immunohistology in cryosections for detecting CD45+ infiltrating cells and MUC-5AC-labeled cells.. Travoprost/timolol PQ was better tolerated than travoprost/timolol BAK or latanoprost/timolol BAK. This improved tolerance was evident via clinical observation under slit lamp, IVCM in different layers of the cornea and conjunctiva, conjunctival impression cytology of superficial epithelium aspects, and immunohistochemistry for inflammatory infiltration of CD45+ cells in the cornea and goblet cell distribution. Travoprost/timolol PQ was similar to PBS in regards to in-vivo findings, the Draize test for ocular irritation, and epithelial and limbal aspects as evaluated with IVCM. Treatment with either travoprost/timolol PQ or PBS produced no obvious inflammatory infiltration inside and outside the CALT follicles, yielded similar IVCM toxicity scores and CD45+ cell counts, and eyes treated with either solution had normal goblet cells.. The fixed combination of travoprost/timolol with 0.001% PQ had decreased ocular surface toxicity relative to the BAK-containing solutions. The potential benefit to the human ocular surface with oncedaily dosing needs to be evaluated clinically.

Topics: Animals; Anti-Bacterial Agents; Antihypertensive Agents; Benzalkonium Compounds; Cell Survival; Cloprostenol; Conjunctiva; Disease Models, Animal; Drug Combinations; Epithelium, Corneal; Latanoprost; Male; Ocular Hypertension; Ophthalmic Solutions; Polymers; Preservatives, Pharmaceutical; Prostaglandins F, Synthetic; Rabbits; Timolol; Travoprost; Treatment Outcome

The purpose of this study is to examine the changes of the retina and the intrinsic survival signals of the retina by brinzolamide (Azopt®) and travoprost (Travatan®) in a rat model of chronic ocular hypertension.. Chronic ocular hypertension was induced by cauterization of three episcleral veins. Terminal deoxynucleotidyl transferase-mediated dUTP-nick end-labeling (TUNEL) staining was performed and the expression of glial fibrillary acidic protein (GFAP) was examined to evaluate changes of retinal ganglion cell (RGC) apoptosis and glial cell activation. Western blot analyses of the bcl-2 family and extracellular signal-regulated kinases (ERK) were done to identify changes of the intrinsic survival signaling pathway in the retina.. GFAP expression and TUNEL staining revealed significant decreases in RGC apoptosis and glial cell activation after brinzolamide and travoprost administration; bcl-2 and bcl-xL expression were significantly increased after intraocular pressure elevation and it was further increased with brinzolamide and travoprost treatment. This enhancement of survival signaling may have contributed to the decrease in RGC apoptosis. However, the role of ERK signaling was not significant.. Decrease in retinal damage and increased intrinsic survival signals suggests the neuroprotective potential of brinzolamide and travoprost in an animal model of chronic ocular hypertension, but further studies are required.

Topics: Administration, Topical; Animals; Antihypertensive Agents; bcl-X Protein; Blotting, Western; Carbonic Anhydrase Inhibitors; Cell Survival; Disease Models, Animal; Extracellular Signal-Regulated MAP Kinases; Glial Fibrillary Acidic Protein; In Situ Nick-End Labeling; Intraocular Pressure; Male; Ocular Hypertension; Ophthalmic Solutions; Proto-Oncogene Proteins c-bcl-2; Rats; Rats, Sprague-Dawley; Retina; Retinal Ganglion Cells; Signal Transduction; Sulfonamides; Thiazines; Travoprost

To evaluate "in vivo" the effect of topical travoprost on the central corneal thickness (CCT) of rabbit eyes, and the changes in the CCT after acute increases of intraocular pressure (IOP) in these eyes.. This is an interventional, prospective, case-control, masked study. Topical travoprost was applied once daily for one month to the right eye of six New Zealand male rabbits, the left eye of each animal served as control. The baseline CCT and IOP were measured under general anesthesia. After the IOP was stabilized at 15 and 30 mmHg, as registered by direct cannulation of the anterior chamber, CCT measurements were measured again at both pressure levels.. The baseline CCT was thicker in eyes previously treated with travoprost (study group) than in control eyes (p < 0.01). The CCT decreased in both groups when IOP was raised to 15 and 30 mmHg, and there were no statistically significant difference in absolute CCT values between study and control eyes at any of the IOP levels (p = 0.5). However, the amount of CCT decrease from baseline values was greater in eyes previously treated with travoprost (study group) than in control ones, at both 15 and 30 mmHg IOP levels (p = 0.01 and 0.02, respectively).. Rabbit corneas treated with topical travoprost show a different strain response to acute increases in IOP than control eyes.

Topics: Animals; Antihypertensive Agents; Cloprostenol; Cornea; Disease Models, Animal; Dose-Response Relationship, Drug; Follow-Up Studies; Glaucoma; Intraocular Pressure; Male; Ophthalmic Solutions; Prospective Studies; Rabbits; Tonometry, Ocular; Travoprost; Ultrasonography

This study was planned to investigate the neuroprotective potentials of three commercially available prostaglandin analogues (PGA), in the ischemia and reperfusion model (I/R). Thirty New Zealand rabbits were divided into 5 groups and except for the control group (non-ischemic, non-treated), 0.9% NaCl, bimatoprost, latanoprost, or travoprost were applied to both eyes of animals of the respective groups for 1 week. At the end of treatment, ischemia was induced in both eyes of the 4 treatment groups by anterior chamber irrigation of the animals for 60 min. Following 24 h reperfusion, the animals were sacrificed. Enucleated eyes and retinal tissues were investigated by light microscopy, electron microscopy, immunohistochemicstry for retinal histopathology, intracellular and apoptotic cells and by retinal morphometry. Vitreous samples were biochemically investigated for probable role of reactive oxygen species, by measuring xanthine oxidase (XO) activity. Analysis of morphometric measurements and vitreous XO activity revealed significant differences between the PGA-treated groups and the NaCl-treated group (P<0.05). Similarly, apoptotic cell counts in different retinal layers showed that PGA-treated groups had fewer apoptotic cells in all retinal layers than the NaCl-treated ischemic group (P<0.05). PGA may have high protective potential for different retinal layers and cells. Biochemical analysis of vitreous showed that all PGAs decreased vitreous XO activity significantly compared to the NaCl-treated group (P<0.05). However we could not find any statistically significant differences among the analogues. PGAs may reduce the injury induced by I/R, through the inhibition of XO activity, and it seems that their effects are elicited through numerous pathways.

Topics: Amides; Animals; Antihypertensive Agents; Apoptosis; Bimatoprost; Cloprostenol; Disease Models, Animal; Latanoprost; Male; Neuroprotective Agents; Prostaglandins F, Synthetic; Prostaglandins, Synthetic; Rabbits; Reactive Oxygen Species; Reperfusion Injury; Retina; Retinal Diseases; Travoprost; Vitreous Body; Xanthine Oxidase

To determine the mechanism by which travoprost, a prodrug of a prostaglandin F2alpha analog, reduces intraocular pressure (IOP) in cynomolgus monkey eyes.. One eye each of 12 monkeys was treated with laser burns to the trabecular meshwork to elevate IOP. At least 4 months later (Baseline Day), IOP was measured by pneumatonometry (9:00 AM and 11:45 AM), and aqueous flow and outflow facility were determined by a fluorophotometric method. Uveoscleral outflow was calculated. Both eyes were treated with travoprost 0.004% at 9:00 AM and 5:00 PM for two days and at 9:30 AM on the third day (Treatment Day), when measurements were repeated as on Baseline Day. Statistical analyses were performed using two-tailed, paired t tests.. On Treatment Day compared with Baseline Day, IOP in hypertensive eyes was reduced at 2.25 hours (25.8 +/- 11.2 vs 33.7 +/- 13.2 mm Hg; mean +/- standard error of the mean [SEM]; P = 0.02) and 16 hours (26.3 +/- 10.2 vs 35.1 +/- 13.6 mm Hg; P = 0.02) after treatment. The increase in uveoscleral outflow was not significant. In normotensive eyes, IOP was reduced at 2.25 hours (19.0 +/- 3.7 vs 23.0 +/- 4.0 mm Hg; P = 0.03) and 16 hours (20.7 +/- 5.4 vs 23.4 +/- 5.3 mm Hg; P = 0.01) after treatment, and uveoscleral outflow was significantly (P = 0.02) increased (1.02 +/- 0.43 vs 0.35 +/- 0.72 microL/min).. Travoprost reduces IOP in normotensive monkey eyes by increasing uveoscleral outflow. The IOP reduction in hypertensive eyes is probably via the same mechanism, although the increased uveoscleral drainage did not reach statistical significance. Travoprost had no effect on aqueous flow or outflow facility.

Topics: Animals; Antihypertensive Agents; Aqueous Humor; Cloprostenol; Disease Models, Animal; Female; Fluorophotometry; Intraocular Pressure; Laser Coagulation; Macaca fascicularis; Ocular Hypertension; Prodrugs; Tonometry, Ocular; Trabecular Meshwork; Travoprost

To establish a mouse model for the pharmacological analysis of antiglaucoma drugs, considering the effect of variations in IOP during 24 hours on the drugs' effects, and to evaluate the effect of a newly developed FP agonist, tafluprost, on mouse IOP, in comparison with three clinically available prostaglandin (PG) analogues.. Inbred adult ddY mice were bred and acclimatized under a 12-hour light-dark cycle. With mice under general anesthesia, a microneedle method was used to measure IOP. A single drop of 3 muL of either drug or vehicle solution was topically applied once into one eye in each mouse, in a blinded manner, with the contralateral, untreated eye serving as the control. IOP reduction was evaluated by the difference in IOP between the treated and untreated eyes in the same mouse. First, to determine the period feasible for demonstrating a larger magnitude of ocular hypotensive effect, the 24-hour diurnal variation in mouse IOP was measured, and 0.005% latanoprost was applied at the peak or trough time of variation in 24-hour IOP. The time point of the most hypotensive effect was selected for further studies, to evaluate the effects of PG analogues. Second, mice received tafluprost (0.0003%, 0.0015%, 0.005%, or 0.015%), latanoprost (0.001%, 0.0025%, or 0.005%), travoprost (0.001%, 0.002%, or 0.004%), or isopropyl unoprostone (0.03%, 0.06%, or 0.12%), and each corresponding vehicle solution. IOP was then measured at 1, 2, 3, 6, 9, and 12 hours after drug administration. The ocular hypotensive effects of the other three PG analogues were compared with that of tafluprost. All experiments were conducted in a masked study design.. The IOP in the untreated mouse eye was higher at night than during the day. Latanoprost significantly lowered IOP at night (21.4%), compared with the IOP in the untreated contralateral eye 2 hours after administration. The maximum IOP reduction was 20.2% +/- 2.0%, 18.7% +/- 2.5%, and 11.2% +/- 1.8% of that in the untreated eye 2 hours after administration of 0.005% tafluprost, 0.005% latanoprost, and 0.12% isopropyl unoprostone, respectively, whereas it was 20.8% +/- 4.6% at 6 hours with 0.004% travoprost (n = 7 approximately 17). The order of ocular hypotensive effects of three clinically used PG analogues in mice was comparable to that in humans. Area under the curve (AUC) analysis revealed dose-dependent IOP reductions for each PG analogue. Tafluprost 0.005% decreased IOP more than 0.005% latanoprost at 3, 6, and 9 hours (P = 0.001-0.027) or 0.12% unoprostone at 2, 3, and 6 hours (P = 0.0004-0.01).. The 24-hour variation in mouse eyes should be taken into consideration when evaluating the reduction of IOP. The mouse model was found to be useful in evaluating the pharmacological response to PG analogues. A newly developed FP agonist, 0.005% tafluprost, lowered normal mouse IOP more effectively than did 0.005% latanoprost.

Topics: Animals; Antihypertensive Agents; Circadian Rhythm; Cloprostenol; Dinoprost; Disease Models, Animal; Dose-Response Relationship, Drug; Intraocular Pressure; Latanoprost; Male; Mice; Mice, Inbred Strains; Ophthalmic Solutions; Prostaglandins F; Prostaglandins F, Synthetic; Time Factors; Travoprost

To compare the ocular hypotensive effect of the commercially available preparations of bimatoprost or travoprost added to latanoprost in monkey eyes with laser-induced unilateral glaucoma.. Four monkeys with unilateral laser-induced glaucoma were used in each treatment group and received drops in the glaucomatous eye only. Intraocular pressure (IOP) was measured hourly for 6 hours, beginning at 9:30 am on day 1 (untreated baseline), days 6 and 7 (single-agent therapy), and days 13 and 14 (2-drug combination therapy). On days 2 through 7, 1 drop of the scheduled single agent was given immediately after the 9:30 am IOP measurement, and on days 8 through 14, the second scheduled drug was given 5 minutes after the first. The following 5 different dosing protocols were studied: latanoprost with bimatoprost added, bimatoprost with latanoprost added, latanoprost with travoprost added, travoprost with latanoprost added, and latanoprost with a second dose of latanoprost added.. There were no statistically significant (P =.95) differences among the mean baseline IOPs in any of the 5 treatment groups. When applied as single agents, latanoprost, bimatoprost, and travoprost all produced significant (P<.05) and equivalent (P =.98) reductions in IOP. The mean +/-SEM maximum reduction (P<.05) from baseline IOP was 7.0 +/- 0.4 mm Hg (20% reduction) with travoprost alone, 6.5 +/- 1.6 mm Hg (18%) with bimatoprost alone, and 7.5 +/- 1.0 mm Hg (22%) with latanoprost alone. The mean +/-SEM maximum additive reductions in IOP were 3.0 +/- 0.6 mm Hg (P<.05) for travoprost added to latanoprost; 2.0 +/- 0.4 mm Hg (P<.05) for latanoprost added to travoprost; 4.8 +/- 1.3 mm Hg (P<.05) for bimatoprost added to latanoprost; 4.3 +/- 0.6 mm Hg (P<.05) for latanoprost added to bimatoprost; and 0.3 +/- 0.5 mm Hg (P>.60) for latanoprost added to itself. The combination of bimatoprost and latanoprost produced a greater (P<.05) lowering of IOP at trough and peak than the combination of travoprost and latanoprost.. Latanoprost, bimatoprost, and travoprost used as monotherapy produced significant and equivalent reductions in IOP in glaucomatous monkey eyes. The IOP effects of the commercial concentrations of bimatoprost or travoprost were additive to that of latanoprost, with bimatoprost showing a greater additive response than travoprost. Clinical Relevance Because treatment with multiple medications is common among patients with glaucoma, determining which glaucoma medications produce an additive ocular hypotensive response when used in combination has practical implications for clinicians.

Topics: Amides; Animals; Antihypertensive Agents; Bimatoprost; Cloprostenol; Disease Models, Animal; Drug Therapy, Combination; Female; Glaucoma; Intraocular Pressure; Latanoprost; Lipids; Macaca fascicularis; Prostaglandins F, Synthetic; Travoprost