Rose A. Salata scite author profile

To determine whether diabetic individuals have more difficulty losing weight than nondiabetic individuals, 12 overweight diabetic subjects (6 men, 6 women) and their overweight nondiabetic spouses were treated together in a behavioral weight-control program. Diabetic and nondiabetic subjects did not differ in age, weight, or percent overweight. Weight losses of nondiabetic spouses were significantly greater than those of diabetic patients (13.4 +/- 1.7 vs. 7.5 +/- 1.4 kg; P less than .01). Differences emerged by wk 5 and became greater over the 20-wk program. Nondiabetic subjects reduced their intake significantly more than diabetics, suggesting that differences in dietary adherence were responsible for the differences in weight loss.

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Cold Water Stimulation of Oropharyngeal Receptors in Man Inhibits Release of Vasopressin*

Salata

Verbalis

Robinson

1987

The Journal of Clinical Endocrinology & Metabolism

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The act of drinking ameliorates thirst and inhibits the secretion of vasopressin before changes in extracellular fluid volume or osmolality in both animals and man. We evaluated whether this reflex inhibition of vasopressin secretion might be due to the presence of oropharyngeal receptors in humans. After dehydration, normal subjects (n = 4) were allowed to suck on ice chips for 30 min. Despite the absence of changes in plasma sodium (Na+) or osmolality, the mean plasma vasopressin level decreased promptly within 10 min from 2.8 to 1.8 pg/mL, and it remained low for 30 min after ice ingestion. When the dehydration protocol was repeated with the subjects receiving 100 mL water (25 C) for 30 min rather than ice chips, plasma vasopressin levels did not change. These data demonstrate that activation of cold-sensitive oropharyngeal receptors results in inhibition of vasopressin secretion independently of osmotic or gastric factors. In a second study 0.2 mL/kg X min 3% NaCl was administered for 90 min as a second stimulus to vasopressin secretion, and ice chips were given during the last 30 min of infusion. Plasma vasopressin levels increased steadily to 3.3 +/- 0.5 (+/- SEM) pg/mL by 45 min, and despite ice ingestion increased further to 4.6 +/- 0.8 pg/mL by 90 min. Consequently, hypertonicity appears to be a stronger stimulus to vasopressin release, since the suppressive effect of stimulation of oropharyngeal receptors with ice was not evident during the NaCl infusion. Finally, no changes in vasopressin levels were found in subjects holding concentrated NaCl solutions in their mouths for 30 min, indicating that the oropharyngeal receptors are not responsive to local changes in osmolality. The presence of such cold-sensitive oropharyngeal receptors may explain the desire of severely dehydrated patients, e.g. patients with diabetes insipidus, for cold liquids.

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Vasopressin stimulation of adrenocorticotropin hormone (ACTH) in humans. In vivo bioassay of corticotropin-releasing factor (CRF) which provides evidence for CRF mediation of the diurnal rhythm of ACTH.

Salata¹,

Jarrett²,

Verbalis³

et al. 1988

J. Clin. Invest.

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The diurnal response of ACTH release to intravenously administered arginine vasopressin was tested in normal volunteers given consecutively moderate doses of vasopressin every 15 min (0.1, 03, 1.0, and 3.0 IU) at 2200 h and again at 0700 h (PM/AM). This protocol was repeated 4 wk later with the times reversed (AM/PM). A dose-related increase in ACIH secretion was observed in all subjects. When the AM response of the AM/PM protocol was compared with the PM response of the PM/AM protocol, the release of ACTH was greater in the morning (P < 0.05) as evaluated by the following criteria: peak value of ACTH (129.9±30.4 pg/ml in the AM vs. 57.1±20.2 in the PM), area under the curve (689 in the AM vs.259 in the PM); and, sensitivity of the ACTH dose-response curve (first significant increase in ACTH with 1 IU of vasopressin in the AM but not significant even after 3 IU in the PM). In addition, when the AM vasopressin testing followed a previous evening stimulation (PM/AM protocol), there was a blunted ACTH response compared with the AM/PM protocol.Corticotropin-releasing factor (CRF) is probably the major ACTH secretagogue, but since vasopressin acts synergistically with CRF to produce an augmented release of ACTH, we suggest that the ACTH response to administered vasopressin depends upon the ambient endogenous level of CRF. We interpret our data and published data that CRF produces a lesser release of ACTH in the AM as follows: in the morning endogenous CRF is high and administered CRF produces little further release of ACTH, but administered vasopressin acting synergistically with high endogenous CRF causes a greater release of ACTH; conversely, in the evening endogenous CRF is low and administered CRF causes a greater release of ACHI, but vasopressin (a weak secretagogue by itself) gives a low ACTH response. We conclude that vasopressin stimulation of ACTH secretion can be used as an in vivo bioassay of endogenous CRF, and that there is a diurnal rhythm of CRF in hypophyseal portal blood.

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Addressing Pitfalls in Management of Diabetic Ketoacidosis with a Standardized Protocol

et al. 2019

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Identification of multiple endocrine neoplasia type 1 in patients with apparent sporadic primary hyperparathyroidism

Yip

Ogilvie

Challinor

et al. 2008

Surgery

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Rose A. Salata

Type II Diabetic Subjects Lose Less Weight Than Their Overweight Nondiabetic Spouses

Cold Water Stimulation of Oropharyngeal Receptors in Man Inhibits Release of Vasopressin*

Vasopressin stimulation of adrenocorticotropin hormone (ACTH) in humans. In vivo bioassay of corticotropin-releasing factor (CRF) which provides evidence for CRF mediation of the diurnal rhythm of ACTH.

Addressing Pitfalls in Management of Diabetic Ketoacidosis with a Standardized Protocol

Identification of multiple endocrine neoplasia type 1 in patients with apparent sporadic primary hyperparathyroidism

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