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Query: UMLS:C0028754 (
obesity
)
124,988
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of a combined treatment with supraphysiological doses of the thyroid hormone T3 (15 micrograms/kg BW/day, s.c.) and high doses of a predominant beta 1-blocker (atenolol, 12.5 and 25 mg/kg BW, 3X/day, s.c.) or a non-specific beta-blocker (propranolol, 5 mg/kg BW s.c. and 33 mg/kg BW p.o., each 3X/day) on energy intake, body composition and the heart were studied in overfed rats with an increased body fat content. The goal of the study was to investigate whether the above treatment constitutes a therapy for
obesity
in that T3 causes weight and fat loss and the beta-blockers prevent the unwanted T3-effects on the heart (tachycardia and increased heart weight). T3 did not increase energy intake above the level seen in overfed animals. It caused loss of body weight due to loss of fat but not protein, an increase in interscapular brown adipose tissue (IBAT) weight and fat, tachycardia and an increase in heart weight.
Atenolol
and propranolol blocked T3-induced tachycardia. With the exception of the highest propranolol dose which abolished the T3-induced increase in IBAT fat content, the beta-blockers did not modify the other T3 effects. Thus, in spite of the weight and fat loss and the lack of significant protein loss and tachycardia observed under T3/high dose beta-blockers treatment, the T3-induced increase in heart weight makes this treatment unsuitable as a therapy for
obesity
.
...
PMID:T3 plus high doses of beta-blockers: effects on energy intake, body composition, bat and heart in rats. 198 82
1. In the present study, we determined the effect of diet-induced
obesity
on cardiovascular and metabolic regulation in mice at standard laboratory temperatures (ambient temperature (Ta) = 22 degrees C) and during exposure to thermoneutrality (Ta = 30 degrees C). 2. Male C57BL/6J (B6) mice fed a high-fat diet (HFF; n = 17) or chow (CHW; n = 14) for 15 weeks were surgically instrumented with telemetry devices, housed in metabolic chambers and assigned to either control or atenolol treatment (25 mg/kg per day in drinking water) to determine the effects of
obesity
on baseline cardiovascular function and on the responses to thermoneutrality and 24 h fasting. Mean arterial pressure (MAP), heart rate (HR), arterial pressure and HR variability (time and frequency domain), oxygen consumption (VO2) and locomotor activity were determined. 3. The HFF mice exhibited increased bodyweight (+10.6 +/- 4.1 g), moderate light period hypertension (+8.6 +/- 2.6 mmHg), no difference in HR and increased HR variability at standard laboratory temperature compared with CHW controls.
Atenolol
produced less of a decrease in HR in HFF mice (-42 +/- 10 b.p.m.) compared with CHW controls (-73 +/- 15 b.p.m.). Acute exposure to thermoneutrality (Ta = 30 degrees C) reduced HR similarly in both HFF and CHW mice (approximately 175 b.p.m.), but reduced MAP less in HFF than in CHW mice (-7.3 +/- 2.5 and -15.2 +/- 1.0 mmHg), respectively.
Atenolol
treatment had only minor effects on the HR response to thermonuetrality (-114 +/- 13 and -129 +/- 8 b.p.m. in HFF and CHW mice, respectively). The HFF mice displayed greater fasting-induced reductions in light period MAP than did CHW mice (-10.0 +/- 1.1 vs-3.1 +/- 3.5 mmHg, respectively), whereas HR was decreased equally in both groups. Fasting-induced increases in HR variability were attenuated in HFF mice. 4. We conclude that diet-induced
obesity
produced generally minor changes in cardiovascular regulation in B6 mice at baseline, some of which are distinct from the effects of diet-induced
obesity
in larger animal models. In contrast, acute variations in Ta or caloric availability produce pronounced alterations in cardiovascular function in either lean or obese mice, which are generally evident after atenolol and, thus, presumably not due exclusively to variation in cardiac sympathetic activity. Interestingly, the degree of
obesity
induced hypertension was augmented when mice were studied at thermonuetrality. The results suggest an important unrecognized role for vagal tone in the regulation of cardiovascular function in mice and support the need for considerable caution when using mouse models of
obesity
to examine regulation of cardiovascular function. We argue that mouse physiology studies should be performed in thermoneutral conditions.
...
PMID:Diet-induced obesity and cardiovascular regulation in C57BL/6J mice. 1451 17
