The obstructive sleep apnea syndrome is typically associated with conditions known to increase insulin resistance as hypertension, obesity, and diabetes. We investigated whether obstructive sleep apnea itself is an independent risk factor for increased insulin resistance and whether continuous positive airway pressure (CPAP) treatment improves insulin sensitivity. Forty patients (apnea-hypopnea index > 20) were treated with CPAP. Before, 2 days after, and after 3 months of effective CPAP treatment, hyperinsulinemic euglycemic clamp studies were performed. Insulin sensitivity significantly increased after 2 days (5.75 +/- 4.20 baseline versus 6.79 +/- 4.91 micromol/kg.min; p = 0.003) and remained stable after 3 months of treatment. The improvement in insulin sensitivity after 2 days was much greater in patients with a body mass index less than 30 kg/m2 than in more obese patients. The improved insulin sensitivity after 2 nights of treatment may reflect a decreasing sympathetic activity, indicating that sleep apnea is an independent risk factor for increased insulin resistance. The effect of CPAP on insulin sensitivity is smaller in obese patients than in nonobese patients, suggesting that in obese individuals insulin sensitivity is mainly determined by obesity and, to a smaller extent, by sleep apnea.
Serum leptin and ghrelin levels were investigated in patients with obstructive sleep apnoea (OSA) syndrome before and during continuous positive airways pressure (CPAP) treatment and compared with body mass index (BMI)-matched controls without OSA.Male patients (n=30) with OSA (apnoea/hypopnoea index=58 ¡ 16, BMI=32.6 ¡ 5.3 kg?m -2 ) underwent CPAP treatment. Fasting leptin and ghrelin were measured at baseline and 2 days, and in the case of leptin 2 months after initiation of treatment.Baseline plasma ghrelin levels were significantly higher in OSA patients than in controls. After 2 days of CPAP treatment, plasma ghrelin decreased in almost all OSA patients (n=9) to levels that were only slightly higher than those of controls (n=9). Leptin levels did not change significantly from baseline after 2 days of CPAP treatment, but were higher than in the control group. After 8 weeks, leptin levels decreased significantly, although the BMI of the patients showed no change. The decrease in leptin levels was more pronounced in patients with a BMI v30 kg?m -2 . These data indicate that the elevated leptin and ghrelin levels are not determined by obesity alone, since they rapidly decreased during continuous positive airways pressure therapy. Eur Respir J 2003; 22: 251-257 Obstructive sleep apnoea (OSA) is a common disorder affecting 2-4% of the adult population [1]. OSA is strongly associated with obesity. In a recent study involving 773 patients with OSA, only 6.5% had a normal body mass index (BMI), while 75.2% were obese (BMIo30 kg?m -2 ) [2]. Patients with OSA appear to be more likely to put on weight than equally obese subjects without OSA [3]. The mechanisms underlying this phenomenon remain obscure. Recently, a number of authors have speculated that changes in serum leptin levels or leptin-receptor insensitivity may be involved in the pathogenesis of progressive obesity in patients with OSA [4]. Leptin has been found to reduce appetite and simultaneously to increase respiratory drive in an animal model [5,6]. In humans, the situation may be expected to be more complicated. In recent studies, fasting leptin levels in patients with OSA decreased after initiation of continuous positive airways pressure (CPAP) treatment [7,8]. However, those leptin measurements were performed on awake individuals in the morning, when the respiratory situation was normalised, so that any linkage between leptin levels and respiratory effects is difficult in this setting. Furthermore, leptin levels are influenced by a multitude of factors, such as sex, body weight [9,10], the presence of hypertension, or specific medications impacting on leptin levels. Diurnal and ultradian variations in serum leptin levels are further factors complicating profound insights concerning significant respiratory effects [11][12][13].However, the finding that a hormone like leptin is able to cover a variety of biological functions, beyond its well-investigated role for the regulation of body weight and energy expenditure, also prompted the present aut...
Background: The obstructive sleep apnoea syndrome (OSA) is a frequent condition, as well as type 2 diabetes mellitus. Both diseases are characterized by insulin resistance. Objectives: The aim of this study was to establish whether OSA is an independent risk factor for increased insulin resistance in diabetics. For this purpose, we tested the hypothesis that the insulin sensitivity in patients with type 2 diabetes and OSA can be improved by 2 days or 3 months of continuous positive airway pressure (CPAP) treatment. Methods: In 9 obese patients with type 2 diabetes and OSA [apnoea/hypopnoea index 43.1 ± 21.3; body mass index (BMI) 37.3 ± 5.6 kg/m2] and good glycaemic control on oral antidiabetics or on diet alone (HbA1c 6.4 ± 0.7%), the insulin sensitivity index (ISI) was established by euglycaemic hyperinsulinaemic clamp tests at baseline, after 2 days and after 3 months of effective CPAP treatment. Results: ISI was unchanged after 2 days of CPAP treatment, but was significantly improved after 3 months (4.38 ± 2.94 vs. 2.74 ± 2.25 at baseline; p = 0.021), without any significant changes in BMI. Glycaemic control was unaffected after 3 months (HbA1c 6.3 ± 0.6%; not significant). Fasting leptin levels showed no significant changes. Conclusions: These results indicate that OSA itself is an independent risk factor for insulin resistance. This effect may be explained by the elevated sympathetic activity in OSA.
Background: Adiponectin is an adipocyte-derived hormone with anti-inflammatory and insulin-sensitizing properties. Insulin resistance is a typical feature of the obstructive sleep apnea syndrome (OSAS). Objectives: Since nasal continuous positive airway pressure (nCPAP) treatment improves insulin sensitivity in patients with OSAS, we investigated serum adiponectin levels before and during nCPAP treatment to clarify possible interactions between the adiponectin levels and insulin sensitivity in patients with OSAS. Methods: Thirty nondiabetic, obese patients with OSAS (mean age 56.4 ± 11.1 years; apnoea-hypopnoea index (AHI) 46.03 ± 19.57) underwent CPAP treatment. Adiponectin levels and the levels of proinflammatory cytokines and proteins reflecting platelet activation [regulated on activation normally T cell expressed and secreted (RANTES) and soluble P-selectin (sCD62p)], as well as the insulin sensitivity index were measured before, and after 2 days and 3 months of CPAP treatment. Results: Insulin sensitivity increased significantly under nCPAP treatment, whereas adiponectin levels decreased after 2 days of nCPAP treatment, but returned to baseline levels after 3 months of nCPAP treatment. The increase in insulin sensitivity was more pronounced in patients with the highest adiponectin levels at baseline (p = 0.021) after adjustment for body fat (p = 0.003). During treatment, changes in adiponectin levels were highly predictable by the insulin sensitivity index. Conclusions: We found a significant relation between adiponectin and the insulin sensitivity index in overweight patients with OSAS. The lack of a long-lasting change in adiponectin may be explained by the overwhelming influence of the body mass index on adiponectin secretion, which was unchanged during nCPAP treatment.
The aim of the study was to explore the nature and extent of the association between night eating, other forms of disordered eating and obstructive sleep apnea (OSAS).Eighty-one participants (20 women and 61 men), mean age 53.7 years diagnosed with OSAS were assessed prior to starting treatment. Using a cut-off of > or =25 on the Night Eating Questionnaire (NEQ), 8.6% of the participants screened positive for night eating syndrome (NES). In addition, 7.5% met criteria for a daytime eating disorder. NES was significantly associated with diagnoses of depression, anxiety and eating disorders and was significantly correlated with an impairment of mental quality of life. No associations were found between NES and gender, BMI and the severity of the OSAS. NES does not appear to be closely linked to OSAS; however, in patients with OSAS and NES a significant co-morbidity with psychiatric disorders can be expected which might require additional treatment.
Background: Manual titration of continuous positive airway pressure (CPAP) under polysomnographic control is the method most commonly employed to establish the minimal effective pressure (Peff) for the treatment of the obstructive sleep apnoea syndrome (OSA). To date, however, the reproducibility of Peff titrated in this way has not been investigated in any detail. Objectives: The present study aims to establish the reproducibility of Peff determined by manual titrations of CPAP under polysomnographic control in the sleep lab. Methods: In a group of 50 patients (5 women), with a mean (SD) apnoea-hypopnoea index of 39.3 (21.8), apnoea index of 28.1 (20.9) and oxygen desaturation index of 39.3 (22.6), with newly diagnosed OSA, manual titration of CPAP was performed on two consecutive nights using the following standard titration protocol: starting at 4 mbar, CPAP was increased by steps of 1 mbar at intervals of at least 5 min, until no signs of airway obstruction could be seen, and arousals were no longer elicited. When no airway obstruction was detected over a period of 30 min, the pressure was lowered once during the night in steps of 1 mbar at intervals of at least 10 min, until obstructive events reappeared, whereupon the pressure was again increased as described above, until, once more, no signs of airway obstruction and no arousals occurred. The second titration was carried out in a blind manner, that is the lab technician did not know the results of the first pressure titration. Results: The mean (SD) Peff for all titrations was 8.1 mbar (2.9). A high level of correlation was found between the Peff titrated on the first night and that titrated on the second night (Spearman correlation coefficient = 0.89). In a few individual cases, however, differences of up to 3 mbar were found between Peff on the first night and Peff on the second night. On average, the Peff measured on the second night was 0.5 mbar (SD = 1.3, range: –2.0 to 3.0 mbar) higher than that of the first night. Conclusions: With standardization of the manual titration of CPAP, Peff is readily reproducible. In individual cases, however, a difference of as much as 3.0 mbar between the two titrations is possible.
HARSCH, IGOR A., SIMIN POUR SCHAHIN, FLORIAN S. FUCHS, ECKHART G. HAHN, TOBIAS LOHMANN, PETER C. KONTUREK, AND JOACHIM H. FICKER.Insulin resistance, hyperleptinemia, and obstructive sleep apnea in Launois-Bensaude Syndrome. Obes Res. 2002; 10:625-632. Objective: Launois-Bensaude Syndrome (LBS) is a very rare cause of obesity, characterized by a symmetrical accumulation of a very large number of lipomata in different regions of the body, excluding the face, the forearms, and the shanks. Obesity is known to be closely associated with insulin resistance, hyperleptinemia, and obstructive sleep apnea (OSA). We were interested in studying whether these conditions are also present in patients with obesity due to LBS with a similar frequency as in patients with "simple" truncal obesity. Research Methods and Procedures:We performed polysomnography and hyperinsulinemic euglycemic clamp studies and measured serum leptin in three patients with LBS and in six patients with "simple" truncal obesity, matched for sex and body mass index (LBS group, 36.39 kg/m 2 ; controls, 35.82 kg/m 2 ). Results: Polysomnography revealed severe OSA in one LBS patient with marked "horsecollar lipomata." In the other LBS patients, no OSA could be demonstrated. The leptin levels of the two groups were comparable (LBS group, 36.39 g/liter; controls, 37.18 g/liter) and the insulin responsiveness index was also comparable in the two groups (LBS group, 3.47 mol/kg ⅐ minute; controls, 3.79 mol/kg ⅐ minute). Discussion: Patients with LBS demonstrated similar metabolic features in terms of insulin sensitivity and hyperleptinemia as patients with "simple" truncal obesity. LBS is not strictly associated with OSA.
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