Adverse outcome of critical illness is often caused by systemic inflammation and sepsis. A recent study showed that mortality is significantly reduced by maintenance of normoglycemia using intensive insulin therapy. We examined whether the beneficial effects of intensive insulin therapy involve modulations of mannose-binding lectin (MBL) and C-reactive protein (CRP) levels. From a study of 1548 patients randomly assigned to either conventional treatment or intensive insulin therapy at an intensive care unit (ICU) we included all 451 patients who needed prolonged intensive care (>5 d). CRP and MBL concentrations were measured on admission, d 5, d 15, and the last day in the ICU. In all patients, serum MBL concentrations increased with time in the ICU (P < 0.0001). This acute phase response was suppressed by intensive insulin therapy at all time points studied (P < 0.02). Selectively in patients receiving conventional therapy, MBL concentrations at baseline were almost 3 times higher in survivors than in nonsurvivors (P = 0.04). Baseline CRP concentrations were elevated, but decreased with time in ICU (P < 0.0001). The decrease in CRP was significantly more pronounced in the intensive insulin-treated patients compared with the conventionally treated patients (P = 0.02) at all time points. Multivariate logistic regression analysis, corrected for all other determinants of outcome, revealed that the antiinflammatory action on CRP, but not on MBL, largely explained the beneficial effects of intensive insulin therapy on morbidity and mortality. In conclusion, intensive insulin therapy exerts a powerful antiinflammatory effect during critical illness which at least partially explains improvement in morbidity and mortality. Possible adverse effects of low baseline MBL are overcome by intensive insulin therapy.
This study provides evidence of a reversible suppression of ghrelin associated with obesity. The feasibility of measuring ghrelin in the circulation provides a new tool for the investigation of the complex hormonal regulation of appetite and energy balance.
The vascular endothelium controls vasomotor tone and microvascular flow and regulates trafficking of nutrients and biologically active molecules. When endothelial activation is excessive, compromised microcirculation and subsequent cellular hypoxia contribute to the risk of organ failure. We hypothesized that strict blood glucose control with insulin during critical illness protects the endothelium, mediating prevention of organ failure and death. In this preplanned subanalysis of a large, randomized controlled study, intensive insulin therapy lowered circulating levels of ICAM-1 and tended to reduce E-selectin levels in patients with prolonged critical illness, which reflects reduced endothelial activation. This effect was not brought about by altered levels of endothelial stimuli, such as cytokines or VEGF, or by upregulation of eNOS. In contrast, prevention of hyperglycemia by intensive insulin therapy suppressed iNOS gene expression in postmortem liver and skeletal muscle, possibly in part via reduced NF-κB activation, and lowered the elevated circulating NO levels in both survivors and nonsurvivors. These effects on the endothelium statistically explained a significant part of the improved patient outcome with intensive insulin therapy. In conclusion, maintaining normoglycemia with intensive insulin therapy during critical illness protects the endothelium, likely in part via inhibition of excessive iNOS-induced NO release, and thereby contributes to prevention of organ failure and death.
This study evaluated the long-term safety and efficacy of dapagliflozin as an adjunct to adjustable insulin in patients with type 1 diabetes and inadequate glycemic control. RESEARCH DESIGN AND METHODS DEPICT-1 (Dapagliflozin Evaluation in Patients With Inadequately Controlled Type 1 Diabetes) was a randomized (1:1:1), double-blind, placebo-controlled phase 3 study of dapagliflozin 5 mg and 10 mg in patients with type 1 diabetes (HbA 1c 7.5-10.5% [58-91 mmol/mol]) (NCT02268214). The results of the 52-week study, consisting of the 24-week short-term and 28-week extension period, are reported here. RESULTS Of the 833 patients randomized into the study, 708 (85%) completed the 52-week study. Over 52 weeks, dapagliflozin 5 mg and 10 mg led to clinically significant reductions in HbA 1c (difference vs. placebo [95% CI] 20.
Aims/hypothesis: Low serum adiponectin (ADPN) has been associated with increased risk of cardiovascular disease (CVD) and retinopathy in patients with type 2 diabetes mellitus. In type 1 diabetic patients, the relationship between ADPN and the presence of vascular complications is largely unknown. Methods: We investigated the relationship between serum ADPN and the presence of retinopathy, nephropathy and CVD in patients with type 1 diabetes, divided into matched groups with normoalbuminuria and no retinopathy (n=67), simplex retinopathy (n=106) or proliferative retinopathy (n=19), and nephropathy with simplex (n=62) or proliferative retinopathy (n=137). Healthy control subjects (n=25) were included. Results: Serum ADPN was increased in subjects with type 1 diabetes compared with control subjects (p<0.0001). Further, serum ADPN was higher in patients with than in those without nephropathy (p<0.0001). It was also higher in normoalbuminuric patients with than in those without proliferative retinopathy (p<0.0001). These differences remained significant after adjustment for known risk factors (p<0.03). CVD was also associated with elevated ADPN levels (p<0.05), but this difference became insignificant after risk factor adjustment. The most important predictor of serum ADPN was sex (r 2 =19%) in normoalbuminuric patients and GFR in patients with nephropathy (r 2 =18%). Conclusion/interpretation: Patients with type 1 diabetes and microvascular complications have higher serum levels of ADPN than patients without complications. It remains to be clarified whether elevated levels of ADPN are pathogenically related to the development of microvascular complications or represent a beneficial counter-regulatory response.
OBJECTIVETo investigate the efficacy and safety of liraglutide added to capped insulin doses in subjects with type 1 diabetes. RESEARCH DESIGN AND METHODSA 26-week, placebo-controlled, double-blind, parallel-group trial enrolling 835 subjects randomized 3:1 receiving once-daily subcutaneous liraglutide (1.8, 1.2, and 0.6 mg) or placebo added to an individually capped total daily dose of insulin. (-5.1, -4.0, and -2.5 kg for 1.8, 1.2, and 0.6 mg, respectively) versus placebo (-0.2 kg). Significant reductions in daily insulin dose and increases in quality of life were seen with liraglutide versus placebo. There were higher rates of symptomatic hypoglycemia (21.3 vs. 16.6 events/patient/year; P = 0.03) with liraglutide 1.2 mg vs. placebo and of hyperglycemia with ketosis >1.5 mmol/L with liraglutide 1.8 mg vs. placebo (0.5 vs. 0.1 events/patient/year; P = 0.01). RESULTS Mean CONCLUSIONSIn a broad population of subjects with long-standing type 1 diabetes, liraglutide added to capped insulin reduced HbA 1c , body weight, and insulin requirements but with higher rates of hypoglycemia for liraglutide 1.2 mg and hyperglycemia with ketosis for liraglutide 1.8 mg.Most people with type 1 diabetes do not currently reach glycemic targets (1), as both patients and providers are often reluctant to intensify glycemic therapy because of reasons such as concern about hypoglycemia and/or weight gain (2). Moreover, a recent study using electronic health records from the U.S. reported that 47.8% of people with type 1 diabetes are obese (3). Therefore, noninsulin adjunctive treatments with a low intrinsic risk of hypoglycemia and weight gain offer a potential means of complementing intensive insulin therapy in people
OBJECTIVE-Ghrelin is a gut-derived peptide and an endogenous ligand for the growth hormone (GH) secretagogue receptor. Exogenous ghrelin stimulates the release of GH (potently) and adrenocorticotropic hormone (ACTH) (moderately). Ghrelin is also orexigenic, but its impact on substrate metabolism is controversial. We aimed to study direct effects of ghrelin on substrate metabolism and insulin sensitivity in human subjects. RESEARCH DESIGN AND METHODS-Six healthy men underwent ghrelin (5 pmol ⅐ kgϪ1 ⅐ min Ϫ1 ) and saline infusions in a double-blind, cross-over study to study GH signaling proteins in muscle. To circumvent effects of endogenous GH and ACTH, we performed a similar study in eight hypopituitary adults but replaced with GH and hydrocortisone. The methods included a hyperinsulinemic-euglycemic clamp, muscle biopsies, microdialysis, and indirect calorimetry.RESULTS-In healthy subjects, ghrelin-induced GH secretion translated into acute GH receptor signaling in muscle. In the absence of GH and cortisol secretion, ghrelin acutely decreased peripheral, but not hepatic, insulin sensitivity together with stimulation of lipolysis. These effects occurred without detectable suppression of AMP-activated protein kinase phosphorylation (an alleged second messenger for ghrelin) in skeletal muscle.CONCLUSIONS-Ghrelin infusion acutely induces lipolysis and insulin resistance independently of GH and cortisol. We hypothesize that the metabolic effects of ghrelin provide a means to partition glucose to glucose-dependent tissues during conditions of energy shortage. Diabetes 57:3205-3210, 2008 G hrelin, an endogenous ligand for the growth hormone (GH) secretagogue receptor (GHS-R), stimulates GH and adrenocorticotropic hormone (ACTH) secretion (1) in addition to having orexigenic and gastrokinetic effects (2,3). The observation that GHS-R is located in peripheral tissues suggests that ghrelin may exert direct effects (4). The effects of ghrelin on substrate in humans are uncertain, but insulin resistance and stimulation of lipolysis have been reported (5-7). However, it remains difficult to segregate direct effects from effects related to GH and cortisol, and we have recently demonstrated that somatostatin infusion fails to sufficiently suppress ghrelin-induced GH and cortisol secretion (8). Hormonally replaced hypopituitary patients constitute a means for studying putative GH-and cortisol-independent effects of ghrelin in human subjects in vivo.We aimed to study potential direct effects of ghrelin on substrate metabolism and insulin sensitivity in the postabsorptive state. In one experiment in healthy adults, we assessed whether ghrelin-induced GH release translated into GH signaling in skeletal muscle, in the event of which the importance of abrogating indirect effects of ghrelin is obvious. Second, we studied the effects of ghrelin exposure on whole-body and regional substrate metabolism in the basal and insulin-stimulated state in hypopituitary patients on stable replacement with GH and hydrocortisone. RESEARCH DESIGN ...
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