Ignite Creation Date:
2024-05-06 @ 8:15 PM
Last Modification Date:
2024-10-26 @ 3:23 PM
Study NCT ID:
NCT06309576
Status:
NOT_YET_RECRUITING
Last Update Posted:
2024-05-08
First Post:
2024-03-01
Brief Title:
Experimental Approach to Test Predictions of Body Weight Regulation Models
Sponsor:
Pennington Biomedical Research Center
Organization:
Pennington Biomedical Research Center
Study Overview
Official Title:
Experimental Approach to Test Predictions of Body Weight Regulation Models
Status:
NOT_YET_RECRUITING
Status Verified Date:
2024-08
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:
DIP
Brief Summary:
The regulation of human body weight and fatness is not fully understood Although some models of regulation have been proposed set point dual-intervention point others no studies have been designed to test their predictions In this pilot and feasibility study the investigators will implement an experimental approach to test the predictions of models of body weight regulation in humans Men and women with either underweight or obesity will be exposed to a 2-day fasting followed by a 2-day ad-libitum refeeding During the entire fasting-refeeding period energy intake and expenditure will be accurately measured within metabolic chambers The investigators will therefore determine the compensatory responses to fasting elicited to prevent weight loss The results will serve to design and power future studies to better understand body weight regulation
Detailed Description:
Background
Although body weight regulation models have been proposed experimental approaches for testing their predictions are lacking The set point SP model proposes that a biologically determined fatness is defended by activating compensatory responses to prevent its change The dual-intervention point DIP model proposes that there are two levels of fatness lower and upper intervention points within which fatness is weakly regulated Compensatory responses would only be activated once the lower or upper intervention points are reached In response to prolonged fasting the SP model predicts the compensatory responses to be independent of the initial body weight In contrast the DIP model predicts higher responses in individuals who are closer to the lower intervention point underweight compared to those who are farther away obesity None of these models predicts a different response in men vs women Our pilot and feasibility study will implement an experimental approach to test these predictions in humans by thoroughly measuring compensatory responses in energy expenditure and energy intake
Design
Twelve individuals 3 men with underweight and 3 with obesity 3 women with underweight and 3 with obesity will be kept inpatient in metabolic chambers for 5 consecutive days and exposed to a 1-day energy balance 2-day fasting and 2-day ad-libitum refeeding The primary outcome will be the extent of compensatory response calculated as the cumulative energy balance during the 5-day inpatient period
Objectives
1 To determine the extent of compensatory response induced by a 2-day fasting followed by a 2-day ad-libitum refeeding in humans overall and among different subgroups underweight obesity men women
2 To explore the timing of the compensatory responses during a 2-day fasting followed by a 2-day ad-libitum refeeding in humans
3 To explore potential physiological determinants of the inter-individual variability in the compensatory response induced by a 2-day fasting followed by a 2-day ad-libitum refeeding in humans
Relevance
Understanding how body weight is regulated in humans can help to prevent or treat obesity In this pilot and feasibility study the investigators propose an experimental approach to test the predictions of two body weight regulation models in response to fasting and explore potential sex differences These preliminary data will be used to design and power future studies for testing models of body weight regulation in humans
Although body weight regulation models have been proposed experimental approaches for testing their predictions are lacking The set point SP model proposes that a biologically determined fatness is defended by activating compensatory responses to prevent its change The dual-intervention point DIP model proposes that there are two levels of fatness lower and upper intervention points within which fatness is weakly regulated Compensatory responses would only be activated once the lower or upper intervention points are reached In response to prolonged fasting the SP model predicts the compensatory responses to be independent of the initial body weight In contrast the DIP model predicts higher responses in individuals who are closer to the lower intervention point underweight compared to those who are farther away obesity None of these models predicts a different response in men vs women Our pilot and feasibility study will implement an experimental approach to test these predictions in humans by thoroughly measuring compensatory responses in energy expenditure and energy intake
Design
Twelve individuals 3 men with underweight and 3 with obesity 3 women with underweight and 3 with obesity will be kept inpatient in metabolic chambers for 5 consecutive days and exposed to a 1-day energy balance 2-day fasting and 2-day ad-libitum refeeding The primary outcome will be the extent of compensatory response calculated as the cumulative energy balance during the 5-day inpatient period
Objectives
1 To determine the extent of compensatory response induced by a 2-day fasting followed by a 2-day ad-libitum refeeding in humans overall and among different subgroups underweight obesity men women
2 To explore the timing of the compensatory responses during a 2-day fasting followed by a 2-day ad-libitum refeeding in humans
3 To explore potential physiological determinants of the inter-individual variability in the compensatory response induced by a 2-day fasting followed by a 2-day ad-libitum refeeding in humans
Relevance
Understanding how body weight is regulated in humans can help to prevent or treat obesity In this pilot and feasibility study the investigators propose an experimental approach to test the predictions of two body weight regulation models in response to fasting and explore potential sex differences These preliminary data will be used to design and power future studies for testing models of body weight regulation in humans
Study Oversight
Has Oversight DMC:
None
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?:
None