Adipose tissue dysregulation and metabolic consequences in childhood and adolescent obesity: potential impact of dietary fat quality

McMorrow, Aoibheann M; Connaughton, Ruth M.; Lithander, Fiona E; Roche, Helen M.

doi:10.1017/s002966511400158x

Cited by 35 publications

(27 citation statements)

References 210 publications

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“…However, given that CRP levels affected the MUOV–ferritin association but did not affect the MUO–ferritin association, subclinical inflammation appears to exert influence to a lesser extent. In people with overweight or obesity and cardiometabolic risk factors, the adipose tissue phenotype is clearly different, with fat tending to centrally accumulate in the form of visceral fat , which is known to secrete proinflammatory cytokines . This was consistent with the fact that in the group of children with overweight and obesity, WC and CRP levels were significant predictors of serum ferritin in univariate analyses.…”

Section: Discussionsupporting

confidence: 68%

Iron Status and Metabolically Unhealthy Obesity in Prepubertal Children

Suárez‐Ortegón

Echeverri

Prats‐Puig

et al. 2019

Obesity

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Objective This study aimed to evaluate the association of metabolically healthy obesity (MHO) and metabolically unhealthy obesity (MUO) with iron status markers in prepubertal children. Methods Three hundred twelve prepubertal children with overweight and obesity from a pediatric general Spanish population were evaluated. MHO and MUO were defined as obesity with the absence or presence of metabolic syndrome components. Phenotypes of metabolically healthy overweight including obesity (MHOV) and metabolically unhealthy overweight including obesity (MUOV) were also studied and defined using the same criteria. Serum ferritin, transferrin, and blood hemoglobin levels were evaluated. Results Prevalence rates of MHOV and MHO were 35% (n = 111/312) and 27.1% (n = 42/155), respectively. Ferritin and hemoglobin levels were higher in children with MUOV versus MHOV (P < 0.05). MUO was positively associated with ferritin (beta [95% CI] = 0.43 [0.05 to 0.81]) and hemoglobin levels (0.43 [0.05 to 0.81]). These associations remained significant independently of age, sex, C‐reactive protein, physical activity, and BMI/waist z scores in bivariate linear regression models. In multivariable models, transaminase levels attenuated the association of MUO with ferritin and hemoglobin levels (P > 0.05). Conclusions MUOV and MUO are associated with higher ferritin and hemoglobin levels in prepubertal children affected by overweight and obesity. Increased circulating ferritin in MUO might be influenced by liver injury.

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Section: Discussionsupporting

confidence: 68%

Iron Status and Metabolically Unhealthy Obesity in Prepubertal Children

Suárez‐Ortegón

Echeverri

Prats‐Puig

et al. 2019

Obesity

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“…The pathway to MUO may be characterized by dysfunctional adipose tissue (larger fat cells), increased immune cell infiltration, elevated proinflammatory status, and reduced capacity of subcutaneous adipose tissue to expand and leading to increased ectopic fat deposition, resulting in lipotoxicity, insulin resistance in peripheral tissues, and a range of metabolic derangements (Fig. ) . In MHO individuals, the excess calories are channeled into insulin‐sensitive subcutaneous adipose tissue, which is capable of expansion; thus, visceral and ectopic adiposity are reduced, macrophage infiltration and raised proinflammatory state are attenuated, insulin sensitivity is preserved, and the individual is protected from development of the MetS …”

Section: Characterization and Determinants Of Mhomentioning

confidence: 99%

Metabolically healthy obesity across the life course: epidemiology, determinants, and implications

Phillips

2016

Annals of the New York Academy of Sciences

149

100

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In recent years, different subphenotypes of obesity have been described, including metabolically healthy obesity (MHO), in which a proportion of obese individuals, despite excess body fat, remain free of metabolic abnormalities and increased cardiometabolic risk. In the absence of a universally accepted set of criteria to classify MHO, the reported prevalence estimates vary widely. Our understanding of the determinants and stability of MHO over time and the associated cardiometabolic and mortality risks is improving, but many questions remain. For example, whether MHO is truly benign is debatable, and whether risk stratification of obese individuals on the basis of their metabolic health status may offer new opportunities for more personalized approaches in diagnosis, intervention, and treatment of diabetes remains speculative. Furthermore, as most of the research to date has focused on MHO in adults, little is known about childhood MHO. In this review, we focus on the epidemiology, determinants, stability, and health implications of MHO across the life course.

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“…α-Tocopherol supplementation, in conjunction with vitamin D 3 , was demonstrated to decrease IL-6 concentrations in vitro and in a mouse model of obesity (72) . In a cohort of T2D patients, while α-tocopherol supplementation ameliorated systemic oxidative stress, no positive effect was seen on plasma markers of inflammation (97) .…”

Section: Proceedings Of the Nutrition Societymentioning

confidence: 98%

Impact of anti-inflammatory nutrients on obesity-associated metabolic-inflammation from childhood through to adulthood

et al. 2016

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Obesity-related metabolic conditions such as insulin resistance (IR), type 2 diabetes and CVD share a number of pathological features, one of which is metabolic-inflammation. Metabolic-inflammation results from the infiltration of immune cells into the adipose tissue, driving a pro-inflammatory environment, which can induce IR. Furthermore, resolution of inflammation, an active process wherein the immune system counteracts pro-inflammatory states, may be dysregulated in obesity. Anti-inflammatory nutritional interventions have focused on attenuating this pro-inflammatory environment. Furthermore, with inherent variability among individuals, establishing at-risk populations who respond favourably to nutritional intervention strategies is important. This review will focus on chronic low-grade metabolic-inflammation, resolution of inflammation and the putative role anti-inflammatory nutrients have as a potential therapy. Finally, in the context of personalised nutrition, the approaches used in defining individuals who respond favourably to nutritional interventions will be highlighted. With increasing prevalence of obesity in younger people, age-dependent biological processes, preventative strategies and therapeutic options are important to help protect against development of obesity-associated co-morbidities.

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Adipose tissue dysregulation and metabolic consequences in childhood and adolescent obesity: potential impact of dietary fat quality

Cited by 35 publications

References 210 publications

Iron Status and Metabolically Unhealthy Obesity in Prepubertal Children

Iron Status and Metabolically Unhealthy Obesity in Prepubertal Children

Metabolically healthy obesity across the life course: epidemiology, determinants, and implications

Impact of anti-inflammatory nutrients on obesity-associated metabolic-inflammation from childhood through to adulthood

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