View clinical trials related to Pediatric Obesity.
Filter by:Childhood obesity is one of the most serious public health problems of the 21st century. It is considered that if there are no changes in prevention and treatment strategies there will be an increase to 70 million obese children by 2025. Of the only pharmacological treatments accepted at this age to improve insulin resistance is metformin, but it can condition gastrointestinal, muscular and hepatic adverse events. Cinnamon is an alternative therapy, which due to its high concentrations of polyphenols, improves insulin resistance by decreasing the proinflammatory environment that occurs in this group of patients, and unlike metformin with less frequent adverse events. The effectiveness of cinnamon has been demonstrated by decreasing insulin resistance in the adult population.
Pediatric obesity is a risk factor for the onset of obesity in adulthood and is a risk factor for various chronic non-communicable diseases. Metabolic syndrome (MS) is the name for a group of risk factors that increase cardiovascular risk and other health problems characterized by the presence of abdominal obesity, dyslipidemia, hyperglycaemia and high blood pressure. Numerous preclinical and clinical data suggest a potential role of the intestinal microbiota in these diseaes. Unfortunately, comparative studies of the gut microbiota are still scarce in pediatric subjects suffering from obesity than obesity complicated by MS. The aim is to study the metagenomics and metabolomics characteristics of the intestinal microbiota in obese children/adolescents with or without MS, that could provide useful data for innovative intervention strategies for these conditions.
This study aims to evaluate the impact of the COVID-19 pandemic and its measures on lifestyle in Dutch children between 4 - 18 years.
Attrition from pediatric weight management programs is unacceptably high, with dropout ranging from 27-73%. This project will utilize a model that predicts dropout from treatment, increasing its power and accuracy through a multi-site observational study. This will result in a powerful tool that will be used to decrease attrition from pediatric weight management, with the potential for widespread dissemination to improve treatment outcomes.
The purpose of this study is to examine the effects of aerobic eccentric training in overweight and obese children.
This proposal involves a collaboration with the Massachusetts Alliance of Boys and Girls Clubs. The goal is to evaluate the efficacy of youth empowerment intervention targeting sugar-sweetened beverage consumption on childhood obesity among youth. The 12-session 6-week intervention consists of health and narrative sessions and youth-led activities. For this cluster randomized controlled trial [RCT} at 10 sites, the investigators will recruit 45 parent-child pairs per site for a total of 450 parent-child pairs. The primary outcome is child participants' body mass index (BMI) z scores. Secondary outcomes include children's sugar-sweetened beverage intake, water intake, and youth empowerment. Change in outcomes over time among participants in the intervention sites will be compared to change in outcomes over time among participants
Comprehensive lifestyle interventions are recommended for the treatment of adolescent obesity; however, evidence suggests that they are not as effective in teens as they are in children and adults. Recent evidence supports that shifting the timing of energy intake earlier in the day has led to improved weight loss outcomes among adults with overweight and obesity. Given that adolescents traditionally consume the majority of their daily energy intake late in the day (past 5PM), this approach may improve the effectiveness of traditional behavioral weight control interventions in teens. Therefore, the primary aim of the proposed research is to pilot a novel adaptation of an evidence-based adolescent weight control intervention in which adolescents will be randomized to consume the majority of their daily energy needs earlier versus later in the day. More specifically, 40 adolescents, ages 13-17, with obesity (BMI>95% for age and sex) will be randomized to a 16-week evidence-based weight control intervention that has the participant consume >50 percent of their total energy intake before 3PM (i.e. at breakfast / lunch; BFL) or after 3PM (i.e. dinner; DIN). Assessments will take place at baseline and 16 weeks (post-treatment). The proposed study will test 1) the adherence and feasibility of the BFL vs. DIN interventions as measured by the average number of days on which daily energy was consumed in accordance with the prescribed eating plan and, secondarily, mean session attendance, 2) if the BFL group will have significantly greater reductions in BMI post-treatment as compared to the DIN group, 3) if there are differences in sleep duration and quality between groups, and finally, as an exploratory aim, whether there are differences in dietary quality between groups. The proposed research is significant, as it addresses obesity in teens. It is innovative as the timing of meals and snacks have not been manipulated in adolescents in the context of behavioral weight control. Moreover, the study will shed light on whether doing so improves sleep and could help to untangle how sleep and weight gain relate in adolescents.
This longitudinal study tests the hypothesis that obesity affects drug pharmacology of acid suppression medications in children.
Objectives. To assess the effectiveness of a programmed family/group intervention to reduce weight in the treatment of obesity in children 7 to 12 years old in front of usual treatment. Design. Cluster randomized controlled trial, multicenter. Location. Primary health care centers. Participants. Obese children 7 to 12 years old of primary health care centers. Body mass index (BMI) > P 97. Patients give Informed consent. Sampling. Randomized cluster assigned. Assignation unit: primary care center. Analysis unit. Patient (Children and childminder). Size: 280 patients (140 by group). Principal measurements Variables.BMI z score (BMI-SDS) after the 6 month intervention and after 12 -month follow-up. Secondary Measurements Variables. quality of Mediterranean diet, Brief questionnaire of physical activity in children. Brief Physical Activity Assessment Tool (BPAAT) for adults (Parents) , apgar-family questionnaire. sociocultural level., educational level, Gender. Age. BMI parents, family antecedent. Analysis: Primary effectiveness. Initial comparability of groups according to the outcome and confusion variables. Mean differences in z score of BMI with 95% confidence intervals, between groups and generation of a multivariate and multilevel model. Analysis by intention to treat.
In adolescents with obesity cardiopulmonary exercise testing (CPET) has become an important clinical examination providing valuable information with regard to the integrative exercise responses, including the pulmonary, cardiovascular and muscular systems. During CPET, mechanical constraints in ventilation, an elevated risk for hypoxia and chronotropic incompetence (CI) (defined as the inability of the heart to increase its rate with increased activity), or compromised cardiac function (e.g. lowered heart rate (HR) recovery, chronotropic index and stroke volume) are often observed in obese adults. Moreover, several studies regarding exercise capacity and cardiopulmonary responses to maximal endurance exercise testing have been performed in obese adolescents. Despite these previous investigations in obese adolescents it remains controversial whether cardiopulmonary disturbances can be observed consistently during CPET. However, a number of studies have reported a suboptimal response to exercise, in particular a reduced peak heart rate (HRpeak) and peak cycling power output (Wpeak). Adult obesity modifies cardiac behavior, including resting HR and CI, which has a marked effect on exercise capacity. Therefore, chronotropic variables are the most important factors that affect exercise performance. It has been shown that both peak and resting HR account for over forty percent of variability of exercise capacity. Interestingly, resting HR and HR response to exercise, including a blunted HR increase, low chronotropic index and HR recovery, are important predictors of all-cause mortality and cardiovascular death, at least in adults. These changes in HR during and recovery from CPET are mediated by the balance between sympathetic and vagal activity of the autonomic nervous system. Adverse cardiovascular outcomes associated with the metabolic syndrome may be mediated by autonomic dysfunction, whereby obesity is characterized by sympathetic predominance and a decrease in vagal activity in the basal state, where reduced sympathetic responsiveness has been observed during exercise. Therefore, these multiple exercise risk markers could provide valuable clinical information regarding cardiometabolic health. Nonetheless HR behavior during CPET has not been described in obese adolescents. The goal of this study is to examine the HR behavior of obese adolescents during CPET to clarify whether this population suffer from CI.