The Augmented Insulin Tolerance Test for Detecting Insulin Resistance

Fraser, Russell; Joplin, G. F.; Opie, LH; Rabinowitz, D.

doi:10.1677/joe.0.0250299

Cited by 42 publications

(23 citation statements)

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“…Thus patients with acromegaly have been shown to be resistant to the hypoglycemic action of insulin (17); the four patients with untreated acromegaly in the present study required 0.30 U of insulin per kg to produce a response similar to that found in control subjects given half this amount. The increased insulin sensitivity found in hypopituitarism (18) or hypothalamic dysfunction (19) would appear to be of less diagnostic value, since some patients in the present study, who had definite endocrine hypofunction, showed a normal plasma sugar response to insulin.…”

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confidence: 61%

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The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin, and the comparison of this procedure with other tests of pituitary and adrenal function. II. In patients with hypothalamic or pituitary dysfunction or anorexia nervosa.

Landon¹,

Greenwood²,

Stamp³

et al. 1966

J. Clin. Invest.

265

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Data have previously been presented suggesting that a test based on the plasma cortisol response to insulin-induced hypoglycemia may be valuable in the diagnosis of patients with suspected hypothalamic or pituitary dysfunction (1). Further, the increased secretion of growth hormone that normally follows the injection of insulin (2-4) has been shown to be mediated via the hypothalamus (5) and to be impaired in children and adults with hypopituitarism (2, 4, 6, 7). These studies, which have been limited to small groups of patients, have not involved the simultaneous determination of both the plasma cortisol and the growth. hormone response and have not been related to other tests of pituitary or adrenal function.The object of the present investigation was to compare the plasma cortisol and growth hormone responses to insulin in patients with disorders of hypothalamic or pituitary function with the results obtained in control subjects, and to study the relative value of this procedure in relation to other tests of pituitary and adrenal function. The free fatty acid (FFA) response to insulin was followed in several patients because of the important role assigned to the pituitary in regulating their rate of turnover and plasma level (8-10). Finally, patients with anorexia nervosa were studied because

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confidence: 61%

“…Thus Patients 5, 6,12,13,14,17,19,21,22, and 24 were receiving 0.2 or 0.3 mg of L-thyroxine daily, Patients 5,6,12,14,19,21, and 22 were receiving 20 or 30 mg of cortisol daily, and Patient 27 was receiving 15 mg daily of methyl testosterone.…”

mentioning

confidence: 99%

The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin, and the comparison of this procedure with other tests of pituitary and adrenal function. II. In patients with hypothalamic or pituitary dysfunction or anorexia nervosa.

Landon¹,

Greenwood²,

Stamp³

et al. 1966

J. Clin. Invest.

265

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“…Pregnancy is associated with an antagonism to the hypoglycemic action of insulin (3,4) which is comparable to that observed in acromegaly (5,6) and to that which follows the administration of growth hormone (7,8). Experimental studies have indicated that HPL, like growth hormone, induces impaired glucose tolerance in cortisol-treated hypophysectomized rats (9), stimulates glucose oxidation to CO2 and incorporation into fat in the rat epididymal fat pad (10), and promotes lipolysis in isolated fat cells ( 11 ).…”

Section: Introductionmentioning

confidence: 79%

Human Placental Lactogen: Studies of Its Acute Metabolic Effects and Disposition in Normal Man*

Beck¹,

Daughaday²

1967

J. Clin. Invest.

200

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Summary. The acute metabolic effects and disposition of human placental lactogen (HPL) After 12-hour infusions of HPL in physiologic amounts, impairment of glucose tolerance despite increased plasma insulin responses to glucose was observed in 7 of 8 subjects tested. However, HPL, unlike HGH, did not produce significant changes in blood glucose, plasma insulin, or plasma free fatty acid concentrations in fasting subjects before glucose administration or in carbohydrate tolerance or plasma insulin responses to glucose during 5-hour infusions. These findings are compatible with the thesis that HPL is a physiologic antagonist to insulin during pregnancy. IntroductionThe appearance in the plasma of pregnant women of a peptide, human placental lactogen, which cross-reacts immunologically with human

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“…There is evidence that glucocorticoids and growth hormone play an important role as hormonal insulin antagonists. Thus both Addison's disease and hypopituitarism are known to be associated with increased insulin sensitivity, whereas patients with Cushing's syndrome or acromegaly are resistant to its hypoglycemic action (2,3). The observation that the intravenous injection of insulin into control subjects results in rapid elevations of plasma cortisol (4,5) and growth hormone (6)(7)(8)(9) also supports the possible physiologic importance of these hormones as insulin antagonists.…”

mentioning

confidence: 99%

The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin. I. In control subjects.

Greenwood¹,

Landon²,

Stamp³

1966

J. Clin. Invest.

320

113

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The Augmented Insulin Tolerance Test for Detecting Insulin Resistance

Cited by 42 publications

References 0 publications

The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin, and the comparison of this procedure with other tests of pituitary and adrenal function. II. In patients with hypothalamic or pituitary dysfunction or anorexia nervosa.

The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin, and the comparison of this procedure with other tests of pituitary and adrenal function. II. In patients with hypothalamic or pituitary dysfunction or anorexia nervosa.

Human Placental Lactogen: Studies of Its Acute Metabolic Effects and Disposition in Normal Man*

The plasma sugar, free fatty acid, cortisol, and growth hormone response to insulin. I. In control subjects.

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