Viewing Study NCT02786251

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Ignite Creation Date: 2025-12-24 @ 11:45 PM
Ignite Modification Date: 2026-01-03 @ 11:33 PM
Study NCT ID: NCT02786251
Status: COMPLETED
Last Update Posted: 2022-03-15
First Post: 2016-05-20
Is NOT Gene Therapy: True
Has Adverse Events: False
Brief Title: The Role of Brown Adipose Tissue in Triglyceride Clearance in People
Sponsor: Washington University School of Medicine
Organization:
Overview Dates Organization Conditions Design Enrollment Locations Outcomes Modules Raw JSON

Study Overview

Official Title: The Role of Brown Adipose Tissue in Triglyceride Clearance in People
Status: COMPLETED
Status Verified Date: 2022-03
Last Known Status: None
Delayed Posting: No
If Stopped, Why?: Not Stopped
Has Expanded Access: False
If Expanded Access, NCT#: N/A
Has Expanded Access, NCT# Status: N/A
Acronym: BAT-TG
Brief Summary: The recent discovery of functional brown adipose tissue (BAT) in humans has led to a paradigm shift in adipose tissue biology; it is now believed that adipocytes may play a significant role in regulating substrate metabolism. Given that the resurgence in the interest in human BAT is still in its infancy, a number of fundamental questions pertaining to the role of BAT in human physiology remain unanswered. One area of particular importance, but poorly understood, is the potential effect of BAT on triglyceride (TG) metabolism. Data from a series of studies have found that BAT is inversely associated with adiposity, high blood lipids, and fatty liver in people. However, the role of BAT in the regulation of TG metabolism in people is not known. The overall goal of this study is to determine the physiological importance of the human BAT in TG metabolism. To this end, we are planning to study overweight/obese women with high amounts of BAT (BAT+, n=14) and with no/minimal BAT (BAT-, n=14) both under thermoneutrality and mild cold exposure (\~2 weeks apart). The investigators hypothesize that BAT+ participants will demonstrate greater plasma very low-density lipoprotein triglycerides (VLDL-TG) clearance rate compared to BAT- participants, and higher expression of genes involved in lipid metabolism only in BAT (but not muscle and white adipose tissue). Infusion of stable isotope tracers and metabolic modeling techniques will be used to assess VLDL-TG kinetics. Positron emission tomography computed tomography will be used for the identification and quantification of BAT. Supraclavicular BAT, abdominal white adipose tissue, and skeletal muscle tissue biopsies during cold exposure and thermoneutral conditions in conjunction with molecular biology techniques will used to measure expression of genes involved in lipid metabolism.
Detailed Description: None

Study Oversight

Has Oversight DMC: False
Is a FDA Regulated Drug?: False
Is a FDA Regulated Device?: False
Is an Unapproved Device?: None
Is a PPSD?: None
Is a US Export?: None
Is an FDA AA801 Violation?: