Changes in body composition and insulin sensitivity in severely obese subjects after laparoscopic adjustable silicone gastric banding (LASGB).

BACKGROUND: Laparoscopic adjustable silicone gastric banding (LASGB) is a viable therapeutic approach to achieve stable body weight reduction in severe obesity. The aim of this study was to evaluate body composition and metabolic features in morbidly obese patients before and after LASGB. MATERIAL/METHODS: There were 15 severely obese patients (Ob) (M/F: 4/11; mean age: 32.5 +/- 3.8 years) and 16 age-and sex-matched healthy lean controls (C) (M/F: 4/12; mean age: 39.5 +/- 2 years). Body mass index (BMI), waist circumference, waist-to-hip ratio, blood pressure, lipid profile, serum glucose and insulin during OGTT, and HOMA-IR were evaluated in all subjects. Body composition and fat distribution were measured using dual energy X-ray absorptiometry (DEXA). Patients were assessed before and six months after LASGB. RESULTS: The obese subjects showed several metabolic alterations. There were also positive correlations between waist, fat mass (FM), and HOMA-IR at baseline. After LASGB, mean BMI fell from 42.2 kg/m2 to 33.2 kg/m2; waist circumference and abdominal FM% decreased significantly. FM% declined, whereas FFM% increased. The ratio of FM loss to FFM loss was 3.7:1. Serum glucose and insulin levels during OGTT diminished slightly after weight loss and triglyceride levels fell dramatically. After LASGB, fasting insulin and HOMA-IR declined. RESULTS: LASGB induced a significant improvement in insulin sensitivity and a redistribution of body composition with a relative increase of FFM.

Adipose tissue as an endocrine organ? A review of recent data related to cardiovascular complications of endocrine dysfunctions.

Clinical and experimental data obtained in the last few years have modified the concept of adipose tissue as one solely directed at energy storage and release. The adipose tissue is a target organ for glucocorticoids and several studies have been carried out on the function of hypothalamic-pituitary-adrenal axis in obese subjects without conclusive results. A recent and innovative finding is that adipose tissue can produce cortisol from its inactive precursor, cortisone. The identification of leptin, a hormone synthesised by fat tissue, has ushered in the modern view of this tissue as a true endocrine organ. Leptin is produced primarily by subcutaneous and to a lesser extent by visceral adipose tissue, and has a central role in controlling body weight and, especially in regulating fat stores. Leptin is also involved in several complex functions, including physiological processes associated with puberty. Another hormone of fat tissue is angiotensinogen, which is produced in larger amounts by visceral than subcutaneous fat. Human and animals adipose tissue express a whole renin-angiotensin system (RAS). Angiotensin II, the final effector of this system is probably produced locally by adipose tissue. The function of adipose RAS is not well known. RAS can participate together with other hormones and substances, in adipocyte differentiation and fat tissue growth, but could be also involved in the pathogenesis of complications of obesity including arterial hypertension.