Experimental Degeneration of the Retina Ii. The Lesion Produced by Bromoacetate: Ophthalmoscopic and Histological Features

Lucas, Daniel; Newhouse, J. P.; Davey, J. B.

doi:10.1136/bjo.41.5.313

Cited by 8 publications

(5 citation statements)

References 4 publications

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“…The histological changes caused by sodium bromoacetate, particularly in the visual cell layer, were less marked than those of NaIA. This lesser severity corresponds to that already observed upon the retina in vivo (Lucas, Newhouse, and Davey, 1957). lodoacetamide was less effective as a glycolytic inhibitor than its parent acid, but produced cytological changes of comparable severity (Fig.…”

Section: Resultssupporting

confidence: 83%

“…12, overleaf) were similar to those seen in the rabbit, and that the minimal effective concentrations were the same. The sensitivity of the isolated rat retina to either structural damage or metabolic inhibition (Newhouse, 1959) by NaTA contrasts with its relative resistance to damage in the intact animal (Sorsby, Newhouse, and Lucas, 1957).…”

Section: Metabolic Poisons and The Isolated Retinamentioning

confidence: 94%

“…These difficulties could be avoided by studying the short-term effects of iodoacetate and other inhibitors on the isolated retina, maintained in vitro in a saline medium. By this means, one of us (Newhouse, 1959) has already found that several thiol reagents are able to inhibit retinal glycolysis almost as readily as NaIA, while others are able to depress respiration even more effectively. It seems doubtful therefore whether the singular retinal necrosis that follows parenteral iodoacetate is due simply to glycolytic inhibition.…”

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confidence: 95%

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Action of Metabolic Poisons on the Isolated Retina: Relation of Histological to Biochemical Lesions

Lucas¹,

Newhouse²

1959

British Journal of Ophthalmology

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Section: Resultssupporting

confidence: 83%

Section: Metabolic Poisons and The Isolated Retinamentioning

confidence: 94%

mentioning

confidence: 95%

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Action of Metabolic Poisons on the Isolated Retina: Relation of Histological to Biochemical Lesions

Lucas¹,

Newhouse²

1959

British Journal of Ophthalmology

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“…These changes, obtained with a dose of 32 mg./kg., were similar to those obtained with iodoacetate in doses of 29 mg./kg., differing mainly in being rather milder and largely restricted to the central area. They are described in detail elsewhere in this issue (Lucas, Newhouse, and Davey, 1957). …”

Section: Resultsmentioning

confidence: 99%

Experimental Degeneration of the Retina I. Thiol Reactors as Inducing Agents

Sorsby¹,

Newhouse²,

Lucas³

1957

British Journal of Ophthalmology

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USING electroretinography in attempts to elucidate the relative significance of aerobic glycolysis and of respiration in the metabolism of the retina in the intact animal, Noell (1951, a, b) found that intravenous injections of sodium iodoacetate-an inhibitor of glycolysis-extinguished within a few minutes electrical response to illumination of the retina in the cat and rabbit.In confirming these findings, Schubert and Bornschein (1951) drew attention to the extensive destruction of the rod and cone and the outer nuclear layers of the retina induced by the iodoacetate injection-observations also recorded by Noell (1952, a, b). That the relationship between changes in the electrical response and histological damage is not direct is seen from the fact that only functional and no anatomical disturbances are observed after injections of azide (Noell, 1952, a), and of sodium fluorite (Babel and Ziv, 1956). The histological damage induced by iodoacetate has been repeatedly confirmed (Karli, 1952 and1954; de Berardinis and Bonavolonta, 1952; de Berardinis, 1953;and Babel and Ziv, 1956), but the mode of action remains obscure. Remarking on the known ability of iodoacetate to react with thiol groups, Noell (1952, b) observed that many intracellular activities might be affected by this agent. The present investigation was undertaken to determine whether the injurious action-upon the retina is shared by other compounds reactive for thiol groups when given intravenously to the rabbit and rat. Methods and Agents UsedWith sodium iodoacetate in a dose of 29 mg./kg. in the rabbit, ophthalmoscopic and histological lesions essentially similar to those reported by previous observers were obtained. Like Karli, we found it unnecessary to give more than one injection. In the rat, a dose of 42 mg./kg. had to be used, but the effect was less consistent, the lesions being either mild or entirely absent.The various thiol reagents administered are listed in the Table (overleaf). Usually only one injection was given, but some animals received two or three similar injections, generally on consecutive days. The single doses given represented more than 80 per cent. of the minimum lethal dose in nearly every case.In the rabbit, reagents were injected in the ear vein; in the rat, the injection *

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“…88,74 Iris and Pupil.-Little new concerning toxic involvement of either pupillary mo¬ tion or accommodation has appeared in the past year, but additional cases have been reported of mydriasis and cycloplegia from exposure to dusts and seeds of Jimson weed 138 and of miosis and blurred vision from cyclotonia induced by parathion.60 These latter effects have attracted attention recently particu¬ larly because of a close resemblance to the effects induced by high-intensity ionizing radiation.…”

Section: Ophthalmic Pharmacologymentioning

confidence: 99%

Ophthalmic Pharmacology and Toxicology

Wm¹

1958

Archives of Ophthalmology

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Experimental Degeneration of the Retina Ii. The Lesion Produced by Bromoacetate: Ophthalmoscopic and Histological Features

Cited by 8 publications

References 4 publications

Action of Metabolic Poisons on the Isolated Retina: Relation of Histological to Biochemical Lesions

Action of Metabolic Poisons on the Isolated Retina: Relation of Histological to Biochemical Lesions

Experimental Degeneration of the Retina I. Thiol Reactors as Inducing Agents

Ophthalmic Pharmacology and Toxicology

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