The Calorigenic Action of D- And L-Thyroxin

Salter, William T.; Jacob, Louis; Means, J. H.

doi:10.1172/jci100655

Cited by 31 publications

(16 citation statements)

References 7 publications

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“…However, too few data are presented to warrant quantitative deductions. Salter, Lerman and Means (14), using material obtained by Harington (15) in the same manner as that supplied to Gaddum, reported the two isomers to possess the same activity in man.…”

Section: Methodsmentioning

confidence: 76%

The Effect of Heating With Alkali on the Calorigenic Activity of Desiccated Thyroid and of Thyroxine 1

Thompson¹,

Thompson²,

Taylor³

et al. 1937

J. Clin. Invest.

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Section: Methodsmentioning

confidence: 76%

The Effect of Heating With Alkali on the Calorigenic Activity of Desiccated Thyroid and of Thyroxine 1

Thompson¹,

Thompson²,

Taylor³

et al. 1937

J. Clin. Invest.

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“…Activity two times as great was actually found, a result that only approximates the expected value. In this connection, it should be mentioned that Salter, Lerman and Means (20) found no difference in the calorigenic activity of the d-and 1-forms of thyroxine when administered to patients with spontaneous myxedema.…”

Section: Methodsmentioning

confidence: 83%

Comparative Calorigenic Action of Normal and Patho-Logical Thyroid Glands Administered in Equi-Thyroxine Doses

Palmer

Leland²

1935

J. Clin. Invest.

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“…By the subcutaneous route we found the L-isomer to be twice as active as the DL-mixture (Table VI) and closely similar results were obtained from oral administration, in accord with the findings of Foster, Palmer, and Leland (1936) and of Reineke andTurner (1943 and1945). The results suggest that the D-isomer is inactive, but it would be unwise, in view of the large experimental errors involved, to draw final conclusions from these results, especially as a number of workers have found D-thyroxine active in man (Salter, Lerman, and Means, 1935;Pitt Rivers and Lerman, 1948). We have not yet been able to examine the pure D-isomer by this method.…”

mentioning

confidence: 94%

Measurement of Thyroid Activity by the Mouse Anoxia Method

Basil¹,

Somers²,

Woollett³

1950

British Journal of Pharmacology and Chemotherapy

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Animals given substances with thyroid activity show a reduced resistance to anoxia (Duran, 1920), and Smith, Emmens, and Parkes (1947) have used this effect in a method of thyroid assay based on the survival times of mice in closed jars. We have used it for comparing the activities of thyroxine and some of its derivatives. We find it relatively simple to carry out; the results it gave have been confirmed in clinical trials, both with sodium thyroxine and with the N-formyl derivative (Hart and Maclagan, 1950).We were particularly interested in two questions: has solubility an important effect on the activity of thyroxine and has thyroxine enhanced activity in the dried glandular extract ? For this purpose a number of preparations of synthetic thyroxine and its derivatives were prepared (Clayton and Hems, 1949) and examined for thyroid activity. This paper records the results obtained biologically. PROCEDURE Throughout the whole of the experiment the mice were kept in a thermostatically controlled incubator room at a temperature of 25.50 ± 1°. For each experiment use was made of male fawn mice of the GFF strain, weighing between 18 and 24 grammes, distributed into groups of twenty animals to give uniform body weight representation. Usually six groups, at ascending dose levels, were employed, three for the standard and three for the test preparations; a further twenty mice were kept as controls.The doses were administered on three alternate days, every animal in a group receiving the same dose irrespective of body weight and the volume of the solution injected being the same for all groups. All compounds for assay were either suspended in 0.9 per cent sodium chloride solution or dissolved in 0.01 M-sodium carbonate solution containing 0.9 per cent sodium chloride.On the second day after the final injection the groups of ten mice were sealed in glass jars and the time of sealing was recorded. We used 32-oz. wide neck, screwcapped clear bottles, with soft paraffin smeared on the neck to ensure a complete seal. The volumes of the jars ranged from 980 to 1,020 ml., and they were randomly distributed. The time of survival was recorded for each individual mouse, the endpoint being the last visible respiration, which is almost invariably preceded by marked terminal convulsions.

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The Calorigenic Action of D- And L-Thyroxin

Cited by 31 publications

References 7 publications

The Effect of Heating With Alkali on the Calorigenic Activity of Desiccated Thyroid and of Thyroxine 1

The Effect of Heating With Alkali on the Calorigenic Activity of Desiccated Thyroid and of Thyroxine 1

Comparative Calorigenic Action of Normal and Patho-Logical Thyroid Glands Administered in Equi-Thyroxine Doses

Measurement of Thyroid Activity by the Mouse Anoxia Method

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