Toxicity of subretinal ribozyme to the proliferating cell nuclear antigen and 5-fluorouracil in rat eyes.

PURPOSE: To investigate the subretinal toxicity profile of the ribozyme to the proliferating cell nuclear antigen (PCNA-Rz) and 5-fluorouracil (5-FU), as well as the highest nontoxic subretinal dose of the mixture of the two agents in rat eyes. METHODS: Brown-Norway rats received subretinal injections of 1 microg, 10 microg, and 100 microg/microl PCNA-Rz and 0.06 microg/microl, 0.3 microg/microl, and 1.5 microg/microl 5-FU in the right eyes, and the left eyes were injected with H-BSS as control. Each dose was tested on 5 eyes in a 5 microl volume. In a second study, a combination of 5-FU (1.5 microg/microL) with varying 10-30-50 microg/microl doses of PCNA-Rz was tested in a regimen of four sequential subretinal injections. Toxicity was monitored by biomicroscopy, indirect ophthalmoscopy, electroretinography (ERG), and histology. RESULTS: The highest nontoxic dose for subretinal PCNA-Rz was 10 microg/microl, whereas 100 microg/microl showed disturbance of pigmentation with corresponding histological changes of retinal photoreceptor loss and retinal pigment epithelium proliferation or irregularities. Subretinal injection of all three doses of 5-FU did not show any toxicity. Serial injections of a mixture of 1.5 microg/microl 5-FU with 10 microg/microl of PCNA-Rz was found to be safe in rat eyes. CONCLUSIONS: Subretinal injections of the combination of PCNA-Rz (10 microg/microl) and 5-FU (1.5 microg/microl) demonstrated to be safe in rat eyes during the course of this study, even with a multiple administration of four injections.

Evaluation of intraocular pharmacokinetics and toxicity of prinomastat (AG3340) in the rabbit.

To determine the ocular pharmacokinetics, physiological and histological effects of prinomastat (a matrix metalloprotease inhibitor), a total of seventy-seven eyes of New Zealand White rabbits received intravitreous and subtenon injections of prinomastat or of acidified water vehicle as control, Doses of 0.5 mg in 0.05 mL of prinomastat or acidified water were used for intravitreal injection. For the subtenon injections, doses of 5 mg prinomastat in 0.5 mL of acidified water were administered in the superotemporal quadrant. Intraocular pharmacokinetics were determined by analyzing vitreous samples at different postinjection time points using Liquid Chromatography-Mass Spectroscopy/Mass Spectroscopy (LC-MS/MS). The toxicity was evaluated by biomicroscopy, electroretinography (ERG), pneumatonometry, and histology. No toxicity was found with either administration method. At day 14 after intravitreal injection, levels of prinomastat in the vitreous and choroid were 1.4 ng/mg and 7.8 ng/mg, respectively. The retinal levels of prinomastat were 22 ng/mg at 24 hr and dropped below 1 ng/mg at 48 hr. Prinomastat remained well above minimum effective concentration in the choroid for at least four weeks after a single intravitreal injection, suggesting that local intravitreal injection may have potential in treating choroidal neovascularization.

The effect of prinomastat (AG3340), a potent inhibitor of matrix metalloproteinases, on a subacute model of proliferative vitreoretinopathy.

PURPOSE: To determine the efficacy of prinomastat (AG3340), a synthetic inhibitor of matrix metalloproteinase, in the treatment of experimental proliferative vitreoretinopathy (PVR) induced by intravitreal dispase injection. METHODS: One eye each of 53 New Zealand white rabbits was injected in the vitreous cavity with 0.07 unit of dispase to induce PVR. One week after PVR induction, 53 rabbits were randomized (27:26) to receive 0.5 mg prinomastat or the vehicle of the drug (acidified water) intravitreally every two weeks. The scores of PVR severity (scale of 1-5) were graded to compare the prinomastat-treated animals with the control group. RESULTS: The average PVR scores in the treatment and control groups were 2.62 and 3.57 respectively (p = 0.038; Wilcoxon rank sum). Clinically significant PVR with retinal detachment (PVR > or = grade 3) developed in 76% of rabbits in the control group versus 51% of rabbits treated with prinomastat. CONCLUSIONS: Intravitreally administered prinomastat decreased development of PVR in an experimental model which made use of dispase to induce PVR.

Intravitreal toxicology and duration of efficacy of a novel antiviral lipid prodrug of ganciclovir in liposome formulation.

PURPOSE: To evaluate the intraocular safety and antiviral treatment efficacy of the sustained lipid prodrug of ganciclovir, 1-O-hexadecylpropanediol-3-phospho-ganciclovir (HDP-P-GCV), as an intravitreal injectable drug system for viral retinitis. METHODS: HDP-P-GCV was synthesized by coupling 1-O-hexadecyl-propanediol-3-phosphate to either free hydroxyl of ganciclovir in pyridine with dicyclohexylcarbodiimide as catalyst. The compound was formulated into liposomes. The antiviral activity was assessed by DNA reduction in vitro, and intraocular safety was assessed by ophthalmoscopy, electrophysiology, and histology after intravitreal injections, with resultant intravitreal concentrations of 0.2, 0.632, 1.12, and 2 mM. The treatment efficacy was evaluated by simultaneous intravitreal injection of HDP-P-GCV and herpes simplex virus type 1 (HSV-1) or by intravitreal injection of HDP-P-GCV at various times before HSV-1 intravitreal inoculation. Retinitis was scored with ophthalmoscopy and compared with controls. RESULTS: In vitro, the IC50 of HDP-P-GCV against HSV-1 and human cytomegalovirus (HCMV) infected cells was 0.02 and 0.6 microM, respectively. In rabbits in vivo, HDP-P-GCV dispersed evenly and maintained a good vitreous clarity at all doses except 2 mM final intravitreal concentration. Although cataracts were observed in some eyes at the higher doses, they were not observed in eyes with 0.2 mM final intravitreal concentration. No other indications of ocular toxicity were observed. Intravitreal injection of HDP-P-GCV with resultant 0.2 mM intravitreal concentration in the HSV-1 retinitis rabbit model demonstrated a complete protection of the retina with the simultaneous treatment strategy and a 4 (P = 0.03) to 6-(P = 0.058) week significant protection of retina with the pretreatment strategies when compared with ganciclovir or blank liposome controls. CONCLUSIONS: In the rabbit model of HSV-1 retinitis HDP-P-GCV acts as a long-lasting intravitreal injectable anti-CMV or anti-HSV compound. This self-assembling liposome system could be applicable for many compounds available for intraocular diseases.

Intravitreal toxicology and therapeutic efficacy of the carboxymethyl ester of the 1-O-octadecyl-sn-glycerol-3-phosphonoformate (ODG-PFA-O-Me), a novel lipid antiviral prodrug for intraocular drug delivery.

This study was conducted to evaluate the vitreous clarity and intraocular therapeutic index of three preparations ofthe carboxymethyl ester of 1-O-octadecyl-sn-glycerol-3-phosphonoformate (ODG-PFA-O-Me), a long acting lipid derivative of foscarnet with potent anti-CMV activity. Twenty-six New Zealand white rabbits were intravitreally injected with one of three preparations of ODG-PFA-O-Me or control diluent. The vitreous clarity was graded after injection using indirect ophthalmoscopy and fundus photography. Drug intraocular toxicity was evaluated by electroretinography and by post-sacrifice tissue pathology using light and electron microscopy. Intravitreal injection of micellar ODG-PFA-O-Me showed variable local retinal toxicity and vitreal compound aggregates in eyes with the middle and high doses. The intraocular therapeutic index was lower than 465:1. Intravitreal injection of liposomal ODG-PFA-O-Me, either free acid or sodium salt, revealed clear vitreous for the 0.632 and 0.84 mM final intravitreal concentrations. No retinal toxicity was confirmed for the 1.12 mM final intravitreal concentration at the eight week observation following injection. The intraocular therapeutic index was between 585-1037:1. ODG-PFA-O-Me possesses better vitreous compatibility than ODG-PFA. Liposomal ODG-PFA-O-Me can be intravitreally injected with a resulting clear vitreous and high intraocular therapeutic index. Liposomal ODG-PFA-O-Me could be a long acting nontoxic intravitreous injectable drug for CMV retinitis.

Treatment of herpes retinitis in an animal model with a sustained delivery antiviral drug, liposomal 1-O-octadecyl-SN-glycerol-3-phosphonoformate.

PURPOSE: To evaluate the clinical treatment efficacy of a long-lasting intravitreous injectable anti-cytomegalovirus (CMV) liposomal drug, 1-O-octadecyl-sn-glycerol-3-phosphonoformate (ODG-PFA). METHODS: Sixty-four pigmented rabbits were used for evaluation of the potency and duration of action of ODG-PFA after intravitreal injection using a herpes simplex virus (HSV)-1 retinitis model. For the potency evaluation, liposomal ODG-PFA was injected into rabbit vitreous at the same time that HSV-1 virus was inoculated onto the retina (simultaneous treatment). For the duration evaluation, ODG-PFA was injected days or weeks before inoculation (pretreatment). Retinitis was clinically graded by indirect ophthalmoscopy, and the retinitis scores were compared across the treatment and control groups. RESULTS: Simultaneous treatment study revealed that ODG-PFA was much more potent than its parent compound, foscarnet (P = 0.0027). Pretreatment study indicated that ODG-PFA possesses a much longer antiviral effect (at least 2 weeks) than foscarnet after a single intravitreal injection. CONCLUSION: Liposomal ODG-PFA is a potent long-lasting intravitreal injectable antiviral compound that may be an ideal alternative for treatment of CMV retinitis in patients with acquired immunodeficiency syndrome.

Intravitreal toxicology in rabbits of two preparations of 1-O-octadecyl-sn-glycerol-3-phosphonoformate, a sustained-delivery anti-CMV drug.

PURPOSE: To determine intraocular toxicity and efficacy of the lipid prodrug of foscarnet, 1-O-octadecyl-sn-glycerol-3-phosphonoformate (ODG-PFA), as a long-acting, nontoxic intravitreous injectable drug delivery system for cytomegalovirus (CMV) retinitis. METHODS: ODG-PFA was synthesized by coupling the phosphonate residue of PFA to the 3 hydroxyl of 1-O-octadecyl-sn-glycerol and formulated as micelles and liposomes at concentrations so that, after injection into the rabbit vitreous, the resultant intravitreal concentrations were 0.2 mM, 0.63 mM, and 2 mM in micellar formulation and 0.02 mM, 0.063 mM, 0.2 mM, and 0.63 mM for liposomal formulation. The compounds were injected, and toxicology evaluations were performed. RESULTS: Intravitreal injections of micellar ODG-PFA resulted in aggregation of the material in vitreous and variable local retinal damage. Intravitreal injections of the liposomal ODG-PFA revealed even dispersion of the compounds and a clear vitreous, using final concentration in the vitreous of 0.2 mM. No intraocular toxicity was found with the 0.632 mM final concentration. The 50% inhibitory concentration (IC50) for CMV of ODG-PFA was 0.43+/-0.27 microM, and the therapeutic index of ODG-PFA after intravitreal injection was estimated to be 1470:1. CONCLUSIONS: Lipid-derivatized foscarnet liposome formulations may be a useful long-acting delivery system for the therapy of CMV retinitis.

Evaluation of the human choroidal melanoma rabbit model for studying microcirculation patterns with confocal ICG and histology.

The aim of this study was to develop consistently focal elevated choroidal masses of human choroidal melanoma in immunosuppressed rabbits and to correlate the visualization of prognostically significant microcirculation patterns from confocal indocyanine green angiography with histologic microcirculation patterns. A human choroidal melanoma cell line (OCM1) was implanted in the choroid of 40 rabbit eyes using three different techniques: transscleral choroidal injection of a cell suspension, injection of a cell suspension in a surgically induced cyclodialysis cleft, and implantation of solid tumor fragments in a surgically induced cyclodialysis cleft. The rabbits were immunosuppressed with daily injections of Cyclosporin A to prevent host versus graft reaction. The eyes were studied weekly with indirect ophthalmoscopy and fundus photography to monitor tumor growth and indocyanine green angiography using a confocal scanning laser ophthalmoscope to identify microcirculation patterns in vivo and correlate these findings with the histologic demonstration of tumor microcirculation patterns. A tumor mass was identified by indirect ophthalmoscopy in 16 of the 40 implanted rabbit eyes (40%). Each of these tumors was confirmed histologically to represent a focal elevated choroidal mass. All 16 elevated choroidal masses grow in eyes in which solid tumor fragments were implanted. In total, a melanoma was identified histologically in 28 of the implanted 40 eyes (70%). In addition to the 16 eyes where the melanoma appeared as a focal elevated choroidal mass, 4 eyes contained a focal elevated mass in the sclera and 8 eyes contained a flat choroidal tumor. Histologically, microcirculation patterns were identified only in the 16 eyes with focal elevated choroidal masses. Confocal indocyanine green angiography imaged microcirculation patterns in 13 of these 16 eyes (81%). The surgical implantation of small solid fragments of human choroidal melanoma in immunosuppressed rabbit eyes provides the best method to consistently obtain focal elevated choroidal masses. These focal elevated choroidal masses resemble booth the localization and the growth pattern of choroidal melanomas in humans. In addition, they also contain microcirculation patterns similar to those seen in humans that are detectable with confocal indocyanine green angiography. The use of indocyanine green angiography with this animal model may be especially useful in designing and evaluating anti-microcirculation treatments directed at uveal melanoma.

Intravitreal pharmacokinetics in rabbits of the foscarnet lipid prodrug: 1-O-octadecyl-sn-glycerol-3-phosphonoformate (ODG-PFA).

PURPOSE: To evaluate the intraocular distribution and metabolism of the lipid prodrug of foscarnet, 1-O-octadecyl-sn-glycerol-3- phosphonoformate (ODG-PFA), following intravitreal administration. METHODS: Twenty rabbits received ODG-[14C]PFA intravitreal injection, yielding 0.632 mM resultant intravitreal concentration. Two animals per group were sacrificed at different intervals post-injection. The drug levels in ocular tissues were determined with counting the radioactivity by Tracor Mark III Liquid Scintillation Counter. Four rabbits were used for analysis of the drug metabolism in vitreous by lipid extraction technique. RESULTS: The drug level in vitreous was 526 microM at day one and 227 microM at the fifth week. The vitreous half life was approximately four to five weeks. The retinal level of the drug was 292 microM at day one, 75 microM at the fifth week and 32 microM at the tenth week, which was still more than ten times higher than the IC90 against HCMV. Lipid extraction analysis showed that, in vivo, both ODG-PFA and PFA were present in vitreous, but in in vitro incubations with vitreous, ODG-PFA conversion to PFA was negligible. CONCLUSION: ODG-PFA possesses a long vitreous half life and sustained high drug level in retina. The vitreous did not metabolize drug but acted as a drug reservoir. Intravitreal liposomal ODG-PFA may be expected to be a long acting potent local therapy for CMV retinitis.

Effects of topical and subconjunctival cidofovir (HPMPC) in an animal model.

PURPOSE: To characterize the anterior segment effects of cidofovir, using an animal model. METHODS: Cidofovir drops, at concentrations of 0.04%, 0.4% and 4%, were instilled in eyes of guinea pigs once daily for 10 days. Fellow eyes (controls) received normal saline. The corneal epithelium was debrided at day one and then at every other day for 10 days. Subconjunctival injections of 20 microl of 4% cidofovir were given in another group of animals. A micromanometer was used to determine the intraocular pressure (IOP). Eyes were studied histopathologically at the conclusion of the study. RESULTS: There was no significant drop in IOP after 10 days, using the 0.04% concentration of cidofovir drops. Histology revealed mild corneal edema and inflammatory infiltrate; iris, ciliary body and retina were normal. There was a statistically significant drop in IOP in the eyes treated with 0.4% and 4.0% cidofovir eye drops at 10 days (p = 0.005 and p < 0.0001, respectively) compared to baseline. Morphological changes included moderate to severe corneal edema, vascularization and inflammatory infiltration. The iris and ciliary body revealed mild inflammatory changes only at the 4% cidofovir dose. No changes were seen in the retina with any doses. No change in IOP was observed following subconjunctival injections of 4% cidofovir, and histologically, only localized inflammatory changes in the conjunctiva were observed. CONCLUSIONS: The IOP-decreasing effect of cidofovir occurs at doses below those causing intraocular inflammation and is likely due to an effect on the anterior segment. The anterior segment effects of cidofovir in guinea pigs were similar to those in humans. Thus, the guinea pig appears to be a good animal model for studying the effects of cidofovir on the anterior segment structures.

Influence of intravitreal injections of HPMPC and related nucleoside analogues on intraocular pressure in guinea pig eyes.

PURPOSE: Cidofovir (HPMPC) is a potent long-acting anticytomegalovirus agent. In humans, its dose-limiting intravitreal toxicity results in the lowering of intraocular pressure (IOP). The purpose of the present study was to determine the effects of HPMPC and various acyclic nucleoside phosphonate (ANP) analogues when administered intravitreally in guinea pig eyes and to establish the structural and functional relation of these compounds in connection with their effects on the ciliary body and retina. METHODS: Ninety-six guinea pig eyes were injected with various doses of HPMPC and ANP analogues. RESULTS: Severe lowering of IOP with structural alterations of the ciliary body was observed when doses were administered that achieved final intravitreal concentrations greater than 25 microg/ml HPMPC, 200 microg/ml cyclic HPMPC (cHPMPC), 25 microg/ml (S)-HPMPA, and 625 microg/ml PMEG. Concentrations of 25 microg/ml HPMPC, 200 microg/ml cHPMPC or less, and all concentrations of (R)-HPMPA, HPMPU, PMEA, PMEC, PMEDAP, (R)-PMPA, and (S)-PMPA did not lower IOP significantly, nor did they cause significant histologic changes. CONCLUSIONS: Of the HPMP series, the cyclic analogue of HPMPC (cHPMPC) and HPMPC are the least toxic of the compounds that show potent anti-human cytomegalovirus activity (HCMV). PMEG, the most potent anti-HCMV compound of the PME series, is toxic at higher doses. Further evaluation of lower doses is needed. Compounds of the PMP series are not toxic, but they show no anti-HCMV activities. The IOP-lowering effect of these compounds appears to be associated with an effect on the ciliary body.

An animal model for cidofovir (HPMPC) toxicity: intraocular pressure and histopathologic effects.

Intravitreal cidofovir has been shown to be a long acting and highly efficacious treatment for CMV retinitis; however decrease in IOP is an adverse effect. We wanted to determine the effect of cidofovir on intraocular pressure (IOP) in the guinea pig, and rabbit eye to develop an animal model of cidofovir induced ocular hypotony and to study the histopathology of this toxicity. Twenty-eight guinea pig eyes were injected with cidofovir yielding final intravitreal concentrations of 25, 200, 625 and 2000 micrograms ml-1. Eighteen eyes of pigmented rabbits were injected with cidofovir yielding final intravitreal concentrations of 625 and 2000 micrograms ml-1. A carefully calibrated low volume displacement manometer system using a micro-transducer was used to determine the IOP measurements in the guinea pig and rabbit eyes. Histology was evaluated using light and electron microscopy. Injection of 6.25 micrograms of cidofovir intravitreally (vitreous concentration of 25 micrograms ml-1) is the highest non-toxic dose in the guinea pig; the IOP was unchanged at two and four weeks after injection with this dose; histologically the eyes were normal. A single injection of 50 micrograms of cidofovir intravitreally (vitreous concentration of 200 micrograms ml-1) caused a long lasting (9.3 mmHg) decrease in IOP (approximately 50% of baseline). At this dose there were only mild and variable histologic changes in the ciliary body and the retina. Higher doses of 156.25 micrograms and 500 micrograms of cidofovir (vitreous concentrations of 625, and 2000 micrograms ml-1, respectively) caused moderate to severe ciliary body and retinal changes. In rabbit eyes there was a mild but statistically insignificant pressure drop with doses of 875 micrograms cidofovir intravitreally (vitreous concentration of 625 micrograms ml-1); retina was within normal limits after injection with this dose, there were mild changes in the ciliary body. There was a total destruction of ciliary body and loss of nonpigmented epithelial cells with injections of 2800 micrograms of cidofovir intravitreally (vitreous concentration of 2000 micrograms ml-1): retina was relatively well preserved. The guinea pig eye shows similar reduction in IOP and ciliary body changes as are seen in the human eye after intravitreal cidofovir and also appears to have a similar dose-response curve. However, the reduction of IOP caused by cidofovir occurs in the guinea pig eye at a concentration 40 times higher than was observed in the human eye.

Evaluation of a novel lipid prodrug for intraocular drug delivery: effect of acyclovir diphosphate dimyristoylglycerol in a rabbit model with herpes simplex virus-1 retinitis.

BACKGROUND: Acyclovir diphosphate dimyristoylglycerol is a lipid prodrug of acyclovir that forms liposomes and provides substantial activity against herpes simplex virus, acyclovir-resistant strains of herpes simplex virus, and human cytomegalovirus. We therefore tested this promising new drug in a rabbit model of herpes simplex retinitis. METHODS: A total of 22 pigmented rabbits were pretreated with either acyclovir diphosphate dimyristoylglycerol, ganciclovir, acyclovir, or buffer. Retinae then were inoculated with herpes simplex virus-1 or buffer 1 week after the injection of drug. In another experiment we compared the effects of acyclovir diphosphate dimyristoylglycerol and acyclovir diphosphate dioleoylglycerol on the optical clarity of vitreous. RESULTS: Animals injected intravitreally with acyclovir diphosphate dimyristoylglycerol showed retinitis that was less severe than that in animals injected with ganciclovir, acyclovir, and buffer; differences in grading scores of the retinitis between animals injected with acyclovir diphosphate dimyristoylglycerol and those injected with buffer were statistically significant (P = 0.0015). Vitreous and optical media became clear 4 days after acyclovir diphosphate dioleoylglycerol injection compared with 10 days after with acyclovir diphosphate dimyristoylglycerol injections. CONCLUSION: Acyclovir diphosphate dimyristoylglycerol had prolonged antiviral activity against herpes simplex virus-1 retinitis in a rabbit model. This drug delivery system, modified to improve optical clarity, may allow long-acting intravitreal treatment of cytomegalovirus retinitis and other retinal diseases.

Liposome-encapsulated (S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine for long-acting therapy of viral retinitis.

The effect of liposome-encapsulated (S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine (HPMPC; cidofovir) was evaluated as prophylaxis in a rabbit model of experimentally induced retinitis caused by preretinal inoculation of herpes simplex virus type 1 (HSV-1). Cidofovir (100 micrograms) in liposomes (0.1 mL) was injected intravitreally 10-120 days before retinal inoculation with HSV-1. Twenty-two of 26 eyes pretreated with liposome-encapsulated cidofovir 10-60 days before HSV-1 inoculation were protected from experimentally induced retinitis, and 2 of 5 eyes pretreated 120 days before inoculation were protected. Intravitreal levels of cidofovir were low (0.7 microgram/mL) but detectable 120 days after injection. One 100-micrograms intravitreal injection of liposome-encapsulated cidofovir appears to have a remarkably potent and prolonged (up to 4 months) antiviral effect in this experimental model of HSV-1 retinitis. Since HPMPC is even more potent against cytomegalovirus than HSV-1, liposome-encapsulated cidofovir may prove to be effective local therapy for AIDS patients with cytomegalovirus retinitis.

The Agar sandwich technique for retinal biopsy processing.

BACKGROUND: The authors developed an agar sandwich technique for retinal biopsy processing. This tissue agar embedding technique allows for a rapid and reliable method to handle and transport retinal biopsies from the operative field to the histology laboratory. METHODS: Biopsies from rabbit retinas infected with herpes simplex virus, epiretinal membranes from patients with macular pucker, and retinas from patients with acute retinal necrosis were studied. Each retinal biopsy was fixed, mounted on an agar disc, and covered with liquid agar. Light microscopy, electron microscopy, immunocytochemistry, and polymerase chain reaction were employed on the agar-embedded tissue. RESULTS: The tissues remained mounted in the agar sandwich and maintained their orientation throughout the processing. The morphologic integrity, histologic characteristics, antigenic properties, and DNA quality all were preserved using the agar sandwich technique. CONCLUSION: The agar sandwich technique is an efficient and simple technique for handling small biopsy specimens that require various analyses.

Intravitreous and plasma concentrations of ganciclovir and foscarnet after intravenous therapy in patients with AIDS and cytomegalovirus retinitis.

This study evaluated intravitreous and plasma ganciclovir and foscarnet concentrations after intravenous administration in AIDS patients with cytomegalovirus (CMV) retinitis and retinal detachment. Undiluted vitreous samples were prospectively obtained from 60 eyes (52 patients) at the time of pars plana vitrectomy. Thirty-three plasma samples (from 27 patients in the initial group of 52) were obtained simultaneously during surgery on 33 eyes. High-pressure liquid chromatography showed the mean vitreous ganciclovir concentrations in patients on induction and maintenance therapy were, respectively, 4.74 +/- 1.49 microM (n = 24) and 3.29 +/- 1.84 microM (n = 30; P = .005). Simultaneous plasma ganciclovir concentrations were less than the vitreous concentrations in 78% of the patients. The mean intravitreous foscarnet concentrations in patients receiving induction dosages were 189 +/- 177 microM (n = 5) versus 163 +/- 167 microM (n = 4; P > .20) for those receiving maintenance therapy. The foscarnet vitreous plasma concentration ratio averaged 1.43. Current drugs and doses for CMV retinitis result in borderline or progressively subtherapeutic concentrations.

Long-term therapy for herpes retinitis in an animal model with high-concentrated liposome-encapsulated HPMPC.

OBJECTIVE: To evaluate(s)-1-(3-hydroxy-2-phosphonyl methoxypropyl) cytosine (HPMPC), a potent antiherpes and anticytomegalovirus drug, as a long-term treatment of experimental retinitis in rabbits. METHODS: The drug was first encapsulated into a liposome delivery system in three different concentrations and injected intravitreally. Sequentially, the highest concentration that was shown to be nontoxic to the retina was evaluated in a model of retinitis at 60, 90, 120, 170, and 240 days, after which herpes simplex virus type 1 was inoculated onto the retinal surface. RESULTS: A dose of 1000 micrograms of HPMPC encapsulated in liposomes gives a protective effect for up to 8 months. CONCLUSIONS: Reduced toxic effects and longer-term efficacy compared with free drug was observed. Given the 50 times higher activity of HPMPC against human cytomegalovirus than herpes simplex virus type 1, a single injection of 1000 micrograms of liposome-encapsulated HPMPC may have a very prolonged effect in the treatment of cytomegalovirus retinitis.

Absence of infectious retinitis after injection of human cytomegalovirus into rabbit eyes.

The rabbit model of human cytomegalovirus (HCMV) retinitis was evaluated by preretinal and intravitreal injection of HCMV into rabbit eyes. Ocular disease was evaluated by indirect ophthalmoscopy, histopathology, and immunohistochemistry. Vitritis, optic nerve congestion, multiple small white infiltrates in the cortical vitreous or on the retinal surface, and retinal detachments were seen. Histopathologic examination showed inflammatory cell infiltration in the preretinal vitreous, optic nerve, and transiently in the superficial inner retina. Retinal structure was preserved except for changes in areas of retinal detachment. No necrosis or destruction of the retina was seen. Immunohistochemistry showed no evidence of cytomegalovirus infection. Inoculation of culture medium containing fetal calf serum caused a similar reaction. It is concluded that vitreous and retinal inoculation of HCMV in the rabbit eye caused nonspecific inflammation without evidence of infection, so this is not a suitable model for HCMV retinitis.

Intraocular tolerance of perfluorooctylbromide (perflubron)

PURPOSE: To determine the intraocular tolerance of perfluorooctylbromide (perflubron) in vitrectomized rabbit and pig eyes and evaluated its use as a vitreous substitute in virteoretinal surgery. METHODS: Pars plana vitrectomy was performed on 33 Dutch pigmented rabbits and 11 micro mini pigs. After vitrectomy the eyes were filled with perflubron for 2 hours, 1 week, 2 weeks, 1 month, and up to 6 months. RESULTS: No clinical, electroretinographic, or light and electron microscopic evidence of adverse effects on the retina and lens were observed. Perflubron emulsified and dispersed into small bubbles after 2-3 weeks. The lens showed mild posterior subcapsular cataracts in pig eyes after long-term retention of perflubron. CONCLUSION: These findings indicate that perflubron is safe for intraoperative and for long-term use intravitreally. However, emulsification and the breakdown into small bubbles limits the view of the retina when perflubron is used as a long-term tamponade.

Long-acting therapy of viral retinitis with (S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine.

(S)-1-(3-hydroxy-2-phosphonylmethoxypropyl)cytosine (HPMPC), a high-potency antiherpes and anticytomegalovirus (CMV) drug was evaluated in the treatment of experimental retinitis caused by preretinal herpes simplex virus (HSV-1) injection in rabbits. HPMPC (100 micrograms/0.1 mL) was intravitreally injected 10, 15, 21, 30, or 46 days before, concurrently, or 3, 5, or 7 days after viral inoculation. Ganciclovir (200 micrograms/0.1 mL) was intravitreally injected 3, 7, or 10 days before HSV-1 inoculation, concurrent with viral inoculation, or 3, 5, or 7 days after viral inoculation. Eyes pretreated with HPMPC were protected from retinitis for 15-21 days. Ganciclovir did not protect completely even if administered 3 days before inoculation. Early treatment of established retinitis with HPMPC markedly delayed the progression of the infection. However, with ganciclovir there was delayed progression only in rabbits treated 3 days after viral inoculation. HPMPC had a remarkably potent and prolonged (< or = 1 month) antiviral effect in this retinitis model and may prove more useful than ganciclovir in local treatment of CMV retinitis.