6 Clinical Trials for Various Conditions
The purpose of this study is to evaluate the PK properties, tolerability, and safety of lorcaserin HCL (BELVIQ) in obese adolescent subjects between the ages of 12 to 17 years old
Fentanyl is a frequently used pain medication in pediatric and adult anesthesia. Although there are some studies considering the breakdown of oral, transmucosal and intravenous fentanyl preparations in children, the disposition of fentanyl in pediatric patients has not been sufficiently described. This study aims to show that the clearance of fentanyl in obese children and adolescents is increased as compared to children with a normal weight. Consequently, the elimination half-life of fentanyl is different in overweight and obese children from that in children having a normal body weight.
The primary objective of this study is to describe the pharmacokinetic profiles of VI-0521 in obese adolescents.
This study is about a drug called enoxaparin which is used to prevent or treat blood clots. There are no studies about the use of this drug in obese adolescents and yet the investigators use it to prevent clots when they have surgery at Children's National for weight loss. The investigators hypothesis is that the obesity leads to increased kidney size and faster drug clearance. Therefore the investigators think they might be underdosing these adolescents. This study will check the drug levels at different points after the drug dose to see whether the investigators are achieving the expected levels for prevention of clots.
Pediatric severe obesity is the fastest growing obesity category in the United States, and anti-obesity pharmacotherapies are promising adjuncts to lifestyle modification (LSM) for the treatment of this disease. While anti-obesity pharmacotherapies have overall been associated with mean weight loss, there is substantial variability in their individual-level effectiveness. While some patients lose a significant amount of weight with anti-obesity pharmacotherapies, others lose little or even gain weight. Due to this well-recognized variability in individual-level response, the National Institutes of Health (NIH) has recognized the importance of using precision medicine approaches in order to optimize treatments for pediatric severe obesity. Pharmacometrics, which uses mathematical models to study medication dose-exposure (i.e. blood drug concentrations)-response relationships, is an emerging science that can help determine optimal dosing regimens based upon patient-specific characteristics. Pharmacometrics quantitates the interplay between pharmacokinetics (PK; drug dose-exposure associations) and pharmacodynamics (PD; drug exposure-response associations). Population PK (popPK), a type of PK, can be used to quantitate variability in drug exposure among individuals in order to help inform recommendations on therapeutic individualization (e.g. through tailored dosing). In this study, investigators will use popPK/PD modeling to characterize associations between anti-obesity pharmacotherapy dose, exposure, and changes in weight and weight-related outcomes in youth with severe obesity. This study will focus on topiramate because this medication is commonly prescribed for weight loss in youth with severe obesity and has been associated with highly variable individual-level effectiveness.
The World Health Organization has declared childhood obesity to be "one of the most serious public health challenges of the 21st century," (http://www.who.int/dietphysicalactivity/childhood). Given that obese children are generally excluded from clinical trials, little to no information exists regarding the impact of obesity on drug disposition and drug action, creating a gap in physicians' knowledge on how to appropriately select the dose of many critical medications (e.g., anticancer agents), so as to prevent toxicity associated with overdosing, while avoiding the harms of under-treatment. The proposed study will examine the effect of obesity on the metabolism of a commonly used medication, the proton pump inhibitor pantoprazole, by exploring the relationships between age, obesity, basal metabolic rate and genetic control of the enzyme primarily responsible for pantoprazole metabolism. We will also validate a simple breath test that can be used to predict pantoprazole dose requirement for obese children. The study is designed to test the following experimental hypotheses:\[13C\]-pantoprazole pharmacokinetic parameters are not different between non-obese and obese children and adolescents, collectively (both age groups combined) or stratified by age group (SA 1) \[13C\]-pantoprazole pharmacokinetic parameters or DOB values (and thus, CYP2C19 activity) are not different between males and females (SA 1 \& 2) \[13C\]-pantoprazole pharmacokinetic parameters and DOB (Delta over baseline) values (and thus, CYP2C19 activity) are independent of age over the age range of 6 to 17 years (SA 1 \& 2) Obesity does not alter the relative contributions of CYP2C19-dependent and non-CYP2C19-dependent (i.e., CYP3A4) metabolism of pantoprazole, as measured by the urinary ratio of 4-hydroxy-pantoprazole to pantoprazole sulfone (SA 1 \& 2) The \[13C\]-pantoprazole breath test, by determining DOB at discrete time point(s), is a non-invasive measure of CYP2C19 phenotype (SA 2) Clearance of pantoprazole (surrogate for CYP2C19 activity) is a function of REE in obese and non-obese children and adolescents (SA 3) Pantoprazole clearance (surrogate for CYP2C19 activity) is associated with fat distribution, as determined by waist-to-hip ratios (SA 3)