Acceptance-based Care for Child Eating and Physical Activity Treatment
Pediatric ObesityExecutive Function1 moreThe purpose of this study is to develop and pilot test a new type of patient-centered, family-based treatment for children aged 8-12 with obesity and their caregivers. The treatment will focus specifically on improving children's self-regulation (SR) skills to help them better manage their feelings, behaviors, and thoughts to help them live a healthier lifestyle.
Effects of Vitamin E Supplementation on Free Radicals and Fat Level of Obese Adolescence in Jakarta,...
ObesityAdolescent1 moreThis study evaluate supplementation of vitamin E (alpha-tocopherol) in obese adolescent. Half of the patient will receive vitamin E and the other half received placebo
Interventions for Adolescent Obesity
Adolescent ObesityThis study will evaluate whether the short-term use of activity tracking devices improves short-term weight loss in adolescents. The investigators will evaluate whether weight loss translates into a change in obesity-related biomarkers associated with adolescent obesity. In addition, the investigators will report outcomes after the implementation of activity tracking devices in conjunction with an intense adolescent weight loss program.
Home Exercise Intervention in Childhood Obesity
Child ObesityAim: To evaluate the impact of a physical exercise Web-based program with or without support on body composition, physical fitness and blood pressure values. Design: Randomized Controlled Trial. Population: Obese children and adolescents.
TRUST Study of Adolescent Weight Self-Management
Adolescent ObesityThe purpose of this pilot study is to evaluate the effect of the Trust-building weight Self-management Together (TRUST) intervention on weight self-management behaviors and neural processing in overweight/obese adolescents. Study aims include comparing the effects of the TRUST intervention with Enhanced Usual Care on BMI and quality of life in overweight/obese early adolescents and exploring differences in neural processing (DMT/TPN switching and reward activation).
Population Effects of MI on Pediatric Obesity in Primary Care
Pediatric ObesityIn this cluster randomized effectiveness trial, pediatric primary care practices will be recruited from the American Academy of Pediatrics' national Pediatric Research in Office Settings (PROS) practice-based research network, as well as the client database of the Physician's Computer Company (PCC) - an Electronic Health Record (EHR) vendor. We will recruit 18 practices. 9 practices will be randomized to the Intervention arm and 9 practices to Usual Care. Intervention arm practices will select 1-2 pediatric clinicians, including pediatricians (PED) and nurse practitioners (NP), to receive in-person training in Motivational Interviewing (MI), behavioral therapy, billing and coding, and study procedures. Usual Care practices will select 1-2 pediatric clinicians to receive billing / coding and study protocol training only, via telephone and webinar; they will be offered in-person MI training at the close of the trial. Around 316 parents of overweight or obese children (BMI > 85th percentile for age and gender) between 3 and 11 years of age at baseline that are patients of participating Intervention arm clinicians will be enrolled. Over 24 months, these parents may receive up to 4 in-person, MI-based counseling sessions with a trained pediatric clinician and up to 6 telephone counseling sessions with an MI-trained Registered Dietician (RD). There will be no study-specific contact with parents or their children in Usual Care practices during the trial - they will continue to receive usual care. EHR and billing data for all 3-11 year old children within all participating practices will be extracted by PCC to permit determination of the effectiveness of the intervention versus usual care on change in BMI z-score among 3 groups: 1) all eligible children in the Intervention arm), 2) all eligible children whose parent actively participates in the trial , and 3) all 3-11 year old children in all participating practices.
Safety and Efficacy of Omega-3 Free Fatty Acids in Adolescents With Obesity and Hypertriglyceridemia....
HypertriglyceridemiaPediatric ObesityThe primary objetive was to evaluate the safety and efficacy the 3 grams per day of omega-3 in adolescents with obesity and hypertriglyceridemia ( ≥ 150 mg/dl and ≤ 1000 mg/dl) for 12 weeks, compared with placebo. Half of subjects received 3 grams of omega 3, while the other half received placebo.
Registry on Obesity Surgery in Adolescents
Morbid ObesityBariatric Surgery1 moreWhile bariatric surgery is established as a safe and effective alternative with well-defined risks for severely obese adults, little has been published on its use in children. There are many unresolved questions concerning the long-term metabolic and psychological consequences of bariatric surgery in adolescents, and the difference with the adult population. The appropriate timing for bariatric surgery in young people, and the predictors of success and safety still need to be determined. The aim of this long-term prospective study is therefore to establish the safety and efficacy profile of surgical procedures and to clarify whether reductions in morbidity and mortality outweigh the risks of serious surgical complications and lifelong nutritional deficiencies.
Primary Care Pediatrics Learning Activity and Nutrition With Families
Pediatric ObesityThis study is designed to translate an evidence-based family-based weight loss treatment for childhood obesity (FBT) into primary care settings using co-located interventionists to serve as a model for care delivered within a patient-centered medical home. FBT will be compared to usual care (UC), and the families will be followed for a 2 year period to assess between group differences in the targeted child and parent outcomes, weight changes in non-targeted siblings who are overweight/obese, parent and child changes in delay of gratification, and how these changes relate to weight loss, and the assessment of how provider attitudes predict their intention to use FBT in the future. The results of this study will inform future dissemination and implementation of FBT into primary care settings.
Reducing Exercise-induced Bronchoconstriction in Children With Asthma and Obesity
Asthma in ChildrenObesity2 moreGuidelines from the American Thoracic Society strongly recommend interval warm-up exercise before planned exercise to reduce exercise-induced bronchoconstriction severity. However, no empirical data on the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity are available in obese asthmatic children, where excess fat exerts such an unfavorable burden on the respiratory system, particularly during exercise. The objective of this study is to investigate the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity in obese and nonobese asthmatic children. Our approach will be to investigate exercise tolerance, respiratory function, and exercise-induced bronchoconstriction severity and the effects of (1) 8x30sec interval warm-up & (2) pretreatment with a bronchodilator compared with a no-treatment control on exercise-induced bronchoconstriction severity in 8-12 yr, prepubescent, obese and nonobese asthmatic children. [Aim]: To investigate the effects of interval warm-up exercise on exercise-induced bronchoconstriction severity. [Hypothesis]: Interval warm-up exercise will reduce exercise-induced bronchoconstriction severity after an exercise challenge test to a similar extent as bronchodilator and better than control.