RESUMEN

Eye exposure to the extremely toxic organophosphorus sarin results in long-term miosis and visual impairment. As current treatment using atropine or homatropine eye drops may lead to considerable visual side effects, alternative combined treatments of intramuscular (im) oximes (16.8 µmol/kg, im) with atropine (0.5 mg/kg, im) or with the short acting antimuscarinic tropicamide (0.5%; w/v) eye drops were thus evaluated. The combined treatments efficacy following topical exposure to sarin (1 µg) was assessed by measuring pupil width and light reflex using an infra-red based digital photographic system. Results showed that the combined treatment of various oximes with atropine or with topical tropicamide eye drops rapidly reversed the sarin-induced miosis and presented a long-term improvement of 67-98% (oxime+tropicamide) or 84-109% (oxime+atropine) in pupil widening as early as 10-min following treatment. This recovery was shown to persist for at least 8-h following exposure. All combined treatments facilitated the ability of the iris to contract following sarin insult as tested by a light reflex response.Our findings emphasize the high efficacy of im oxime treatment combined with either atropine im or tropicamide eye drops in counteracting sarin-induced ocular insult. Therefore, in a mass casualty scenario the systemic combined treatment may be sufficient to ameliorate sarin-induced ocular insult with no need for additional, topical anticholinergic treatment at least in the initial stage of intoxication. For very mild casualties, who are unlikely to receive im treatment, the combined oxime (im) with topical tropicamide treatment may be sufficient in ameliorating the ocular insult.

Asunto(s)

RESUMEN

BACKGROUND AND PURPOSE: Eye exposure to the organophosphorus (OP) irreversible cholinesterase inhibitor sarin results in long-term miosis and impaired visual function. We have previously shown that tropicamide is better at ameliorating this insult than topical atropine or cyclopentolate. However, to minimize side effects associated with repeated tropicamide applications and high treatment doses, we evaluated the effects of oximes (ChE re-activators) alone and combined with tropicamide at ameliorating OP-induced ocular impairments. EXPERIMENTAL APPROACH: Rats were topically exposed to sarin, followed by topical treatment with various oximes alone or in combination with tropicamide. Pupil width and light reflex were measured by an infrared-based digital photograph system, while visual performance was assessed by employing the cueing version of the Morris water maze (MWM). KEY RESULTS: Oxime treatment following sarin ocular exposure induced a slow persistent pupil widening with efficacy in the order of HLö-7 > HI-6 > obidoxime = TMB-4 = MMB-4. In the light reflex test, the ability of the iris to contract following oxime treatment was mostly impaired at 1 h and was back to normal at 4 h following sarin exposure. All oxime treatments ameliorated the sarin-induced visual impairment as tested in the visual task (MWM). The combined topical treatment of tropicamide with an oxime induced a rapid improvement in pupil widening, light reflex and visual performance, and enabled a reduction in tropicamide dose. CONCLUSIONS AND IMPLICATIONS: The use of tropicamide combined with an oxime should be considered as the topical treatment of choice against the toxic effects of ocular OP exposure.

Asunto(s)

Asunto(s)

RESUMEN

PURPOSE: To establish an experimental model for sulfur mustard-induced acute and delayed ocular lesions in rabbits. METHODS: Rabbit eyes were exposed to sulfur mustard (HD) vapor (370, 420 microg/l) for a period of two minutes. A three months follow-up study was carried out, based on the evaluation of clinical, biochemical and histological parameters. RESULTS: HD exposure initiated typical clinical symptoms within 2-6 hrs, characterized by eye closure, eyelid swelling, conjunctival hyperemia, corneal erosions and inflammation. The clinical signs were significantly dose-dependent and reached a peak at 24--72 hrs post exposure. Biochemical evaluation of the aqueous humor exhibited an inflammatory reaction and oxidative stress at 4 hrs after exposure, subsiding at 28 hrs after exposure. Histological examination of corneas at 48 hrs revealed epithelial denudation and marked stromal edema, accompanied by cellular infiltration. Epithelial regeneration started after 72 hrs, and recovery was almost completed within 1--2 weeks, depending on the HD dose. A second phase of pathological processes started as early as two weeks post exposure and was characterized by corneal edema, opacity, recurrent erosions and neovascularization. The delayed injuries were found in 25 and 40% of the eyes respectively, and when appearing, were more severe than the initial ones. CONCLUSIONS: The development of HD-induced ocular lesions in rabbits is similar to the lesions described in human casualties. Quantitative analysis of the various clinical parameters emphasizes the contribution of each tissue to the overall toxic picture. Our experimental model is useful for studying the pathological mechanisms of HD-ocular lesions, and may serve for testing potential therapies.

Asunto(s)

RESUMEN

Ocular injuries following sulfur mustard (HD) exposure are characterized by an inflammatory response, observed as eyelid swelling, conjunctivitis, corneal oedema and cellular infiltration starting 1-4 h after exposure, depending on dose. These effects heal partially during the first 1-2 weeks after exposure, with the later appearance of neovascularization, recurrent erosions and recurrent oedema of the cornea (delayed response). We have shown previously that topically applied steroid treatment, administered after HD exposure, attenuated the extent of neovascularization, one of the characteristics of delayed ocular pathology in rabbits. The present study was designed to characterize further the initial inflammatory response and to elucidate the role of anti-inflammatory (AI) drugs as a potential therapy. Rabbit eyes were exposed to HD vapour (390 microg l(-1) for 2 min) and were treated with a topical commercial ophthalmic solution of dexamethasone or diclofenac, starting 1 h post-exposure (four times a day). Inflammation was evaluated by clinical observations, biochemical analysis of aqueous humour and by histology. Sulfur mustard exposure initiated typical clinical ocular symptoms within 4-6 h after exposure. Biochemical analysis of aqueous humour showed that protein content and prostaglandin E (PGE) increased significantly at 6 h and were still high 48 h after HD exposure. Light microscopy evaluation revealed severe damage to the cornea, characterized by epithelial denudation, oedema and cellular infiltration (mostly eosinophiles) in the stroma. Both treatments were effective in alleviating the clinical symptoms and in preventing the HD-induced increase in protein and PGE in the anterior chamber, as well as the cellular infiltration, in the corneal stroma. However, the AI treatments had no therapeutic effect on corneal erosions, and a short delay in epithelial regeneration was noted. It is concluded that AI drugs are potential candidates for the treatment of ocular lesions following HD exposure.

Asunto(s)

RESUMEN

PURPOSE: Treatment of the retina by laser photocoagulation often is complicated by an immediate side effect of visual impairment, caused by unavoidable, laser-induced destruction of healthy tissue adjacent to the lesion. A neuroprotective therapy that salvages this healthy tissue might enhance the benefit obtained from the treatment. This study was proposed to determine whether glutamate-receptor blockers can provide adjuvant neuroprotection during laser photocoagulation. The effect of MK-801, an NMDA-receptor antagonist, on laser-induced retinal injury was examined, in a rat model. METHODS: Argon laser lesions were created in the retinas of 36 DA rats, and were followed immediately by intraperitoneal injections of MK-801 (2 mg/kg) or saline. The animals were killed after 3, 20, or 60 days and the retinal lesions were evaluated histologically and morphometrically. RESULTS: Photoreceptor-cell loss was significantly less in MK-801-treated rats than in control animals. The proliferative membrane composed of retinal pigment epithelial cells and neovascular blood vessels, which was seen at the base of the lesion in control group retinas, was smaller in the MK-801-treated retinas. In rats treated with a higher dose of MK-801, the lesions showed almost no proliferative reaction. CONCLUSIONS: A potent noncompetitive NMDA-receptor blocker, MK-801 exhibits neuroprotective and antiproliferative properties in the retina. Glutamate-receptor blockers should be investigated further as potential adjuvant therapy in retinal photocoagulation treatments.

Asunto(s)

Asunto(s)

RESUMEN

Laser photocoagulation treatment of the central retina is often complicated by an immediate side effect of visual impairment, caused by the unavoidable laser-induced destruction of the normal tissue lying adjacent to the lesion and not affected directly by the laser beam. Furthermore, accidental laser injuries are at present untreatable. A neuroprotective therapy for salvaging the normal tissue might enhance the benefit obtained from treatment and allow safe perifoveal photocoagulation. We have developed a rat model for studying the efficacy of putative neuroprotective compounds in ameliorating laser-induced retinal damage. Four compounds were evaluated: the corticosteroid methylprednisolone, the glutamate-receptor blocker MK-801, the anti-oxidant enzyme superoxide dismutase, and the calcium-overload antagonist flunarizine. The study was carried out in two steps: in the first, the histopathological development of retinal laser injuries was studied. Argon laser lesions were inflicted in the retinas of 18 pigmented rats. The animals were killed after 3, 20 or 60 days and their retinal lesions were evaluated under the light microscope. The laser injury mainly involved the outer layers of the retina, where it destroyed significant numbers of photoreceptor cells. Over time, evidence of two major histopathological processes was observed: traction of adjacent normal retinal cells into the central area of the lesion forming an internal retinal bulging, and a retinal pigmented epithelial proliferative reaction associated with subretinal neovascularization and invasion of the retinal lesion site by phagocytes. The neuroprotective effects of each of the four compounds were verified in a second step of the study. For each drug tested, 12 rats were irradiated with argon laser inflictions: six of them received the tested agent while the other six were treated with the corresponding vehicle. Twenty days after laser exposure, the rats were killed and their lesions were subjected to image-analysis morphometry. The extent of retinal destruction was assessed by measuring the lesion diameter and the amount of photoreceptor cell loss in the outer nuclear layer. Methylprednisolone and MK-801 were shown to ameliorate laser-induced retinal damage, whereas both superoxide dismutase and flunarizine were ineffective. Furthermore, MK-801 diminished the proliferative reaction of the retinal pigment epithelial cells. On the basis of our results we suggest that the pigmented rat model is suitable for studying and screening various compounds for their neuroprotective efficacy in treating retinal laser injury. We further suggest that glutamate might play a key role in mediating retinal injury induced by laser irradiation.

Asunto(s)

Asunto(s)