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Adiponectin-leptin ratio: A promising index to estimate adipose tissue dysfunction. Relation with obesity-associated cardiometabolic risk.
Frühbeck, G, Catalán, V, Rodríguez, A, Gómez-Ambrosi, J
Adipocyte. 2018;7(1):57-62
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Obesity is medically defined as a condition of abnormal or excessive fat accumulation in adipose tissue, of sufficient extent to produce adverse health consequences. Presently, adipose tissue has emerged as an extremely active endocrine organ, based on its ability to secrete a plethora of biologically active adipokines [a class of cytokine mediators that are predominantly secreted by adipose cells] such as leptin and adiponectin. Furthermore, obesity is characterized by an increase in circulating leptin concentrations, in parallel to a decrease in blood levels of adiponectin. Thus, the adiponectin/leptin ratio has been suggested as a marker of adipose tissue dysfunction. A dysfunctional adipose tissue, evidenced by a lower adiponectin/ leptin ratio, is a clear contributor to the low-grade chronic inflammation associated with metabolic syndrome. Authors conclude that this ratio is highly and negatively correlated with markers of low-grade chronic inflammation emerging as a useful estimator of obesity- and metabolic syndrome- associated cardiometabolic risk.
Abstract
Obesity is currently the most extended metabolic disturbance worldwide favoring the development of cardiometabolic alterations such as type 2 diabetes, hypertension, and dyslipidemia. Obesity and the metabolic syndrome (MS) are characterized by an increase in circulating leptin concentrations, in parallel to a decrease in blood levels of adiponectin. Consequently, the adiponectin/leptin ratio has been suggested as a maker of adipose tissue dysfunction. This emerging biomarker correlates with insulin resistance better than adiponectin or leptin alone, or even HOMA and is decreased with increasing number of metabolic risk factors having been proposed as a predictive marker for the MS. Moreover, the adiponectin/leptin ratio is negatively correlated with markers of low-grade chronic inflammation. In this sense, an increase in this ratio has been related with reduced atherosclerosis risk as well as with a decreased risk of some types of cancer in epidemiological studies. In this commentary we propose new cutoffs to estimate obesity- and MS-associated cardiometabolic risk according to the adiponectin/leptin ratio and discuss different therapeutic strategies to increase this promising biomarker of metabolic risk.
2.
Testosterone Deficiency, Weakness, and Multimorbidity in Men.
Peterson, MD, Belakovskiy, A, McGrath, R, Yarrow, JF
Scientific reports. 2018;8(1):5897
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With age, the occurrence of total testosterone (TT) deficiency in men also increases. Such deficiency can have a detrimental impact on the musculoskeletal system leading to bone and muscle loss, increasing the risk of cardiovascular disease and all-cause mortality. Hence muscle weakness is a known a predicitve factor for chronic disease. Whereby reference ranges have been set for testosterone levels in young healthy men, uncertainty exists about optimal levels throughout different age ranges, ethnicities and in concurrence with diseases. This observational study evaluated how TT deficiency and muscle weakness assessed via grip strength, relates to chronic health conditions in men. The study included 2399 young, middle-aged, and older men in the US, with a diverse ethnic backgrounds, who presented with and without testosterone deficiency. The findings indicated that TT levels were highest amongst young men, yet no particular difference was seen in levels between middle-aged and older men. Grip strength decreased in the higher age categories. Chronic health conditions were more common in young and older men who displayed testosterone deficiencies, whilst low testosterone and reduced grip strength were linked to the presence of chronic disease in all age groups. Overall the study confirmed previous research, that in men with testosterone deficiency chronic disease was much more prevalent, even after accounting for other variables. The study also observed a much lower average of TT levels in young men compared to previous research, in mostly white males. Thus testosterone deficiency appears much more common in men of all ages when including a variety of ethnic groups. As low testosterone may play an early, causal role in the chronic disease process, continuous monitoring of testosterone levels through the life span may aid the early identification of chronic disease development or disease progression. Further research is needed on the independent and joint effects of low TT and muscular weakness. From a clinical perspective, this study affirms that low testosterone in men is a presenting risk factor for chronic disease and that chronic disease is commonly accompanied by low testosterone. It also highlights some unsettled aspects around reference ranges of testosterone
Abstract
The purposes of this study were to evaluate the association between total testosterone (TT) deficiency and weakness on multimorbidity in men. Analyses were performed to examine the prevalence of multimobidity among young, middle-aged, and older men, with and without testosterone deficiency. Multivariate logistic models were also used to determine the association between age-specific TT tertiles and multimorbidity, adjusting for key sociodemographic variables, as well as a secondary analysis adjusted for grip strength. Multimorbidity was more prevalent among men with testosterone deficiency, compared to normal TT in the entire group (36.6% vs 55.2%; p < 0.001); however, differences were only seen within young (testosterone deficiency: 36.4%; normal TT: 13.5%; p < 0.001) and older men (testosterone deficiency: 75.0%; normal TT: 61.5%; p < 0.001). Robust associations were found between the age-specific low-TT (OR: 2.87; 95%CI: 2.14-3.83) and moderate-TT (OR: 1.67; 95%CI: 1.27-2.20) tertiles (reference high-TT) and multimorbidity. Secondary analysis demonstrated that both low TT (OR: 1.82; 95%CI: 1.29-2.55) and moderate-TT (OR: 1.31; 95%CI: 1.01-1.69) were associated with multimorbidity, even after adjusting for obesity (OR: 1.75; 95%CI: 1.07-2.87) and NGS (OR: 1.21 per 0.05 unit lower NGS). Low TT and weakness in men were independently associated with multimorbidity at all ages; however, multimorbidity was more prevalent among young and older men with testosterone deficiency.