Impact of Weight Loss on Mitochondrial Function

Not yet recruiting

• Conditions: Weight Loss; Bariatric Surgery

• Registration Number: NCT07023133
• Lead Sponsor: Towson University

Brief Summary

Loss of body weight can elicit an adaptive decline in energy expenditure during rest and physical activity beyond what is expected based on the loss of metabolically active tissue, a phenomenon termed metabolic adaptation. The weight loss-induced decrease in energy expenditure (i.e., altered energy efficiency) can hinder continued weight loss and contributes to variation in weight loss success. The molecular mechanisms responsible for metabolic adaption include changes to sympathetic nervous system activity, decreases in leptin and thyroid hormones, and increases in skeletal muscle mitochondrial efficiency and capacity, though the dominant mechanism for metabolic adaptation is unclear. We have recently shown, using near-infrared spectroscopy (NIRS) technology, that we can non-invasively assess skeletal muscle mitochondrial efficiency (i.e., oxygen consumption rate) and capacity. The purpose of this study is to evaluate the association between skeletal muscle mitochondrial efficiency and capacity after weight loss with metabolic adaption and weight loss variability. To accomplish this aim, we will recruit individuals with obesity who have elected for bariatric surgery at local bariatric centers. We will assess their energy expenditure and mitochondrial efficiency and capacity before and after weight loss.

Detailed Description

The procedures for this study involve two visit, one before bariatric surgery and one approximately 4 months after surgery, to our laboratory. The specific tests performed are listed below and are the same for each visit (each visit will take about 2 hours). Participants will be asked to arrive dressed in loose-fitting shorts that allow for assessments to be done on the lower leg.

Upon receipt of a signed consent form, a Demographics and Health History survey will be emailed to participants. Participants will be asked to complete the questionnaire in advance of their first in-person visit and will not be repeated at the second visit. The questionnaire will take \~10 minutes to complete and will be used to document any health conditions and medications.

Upon arrival for their in-person visit, we will measure the participant's seated blood pressure and heart rate as well as height and weight to calculate their body mass index (BMI). The following tests will then be performed:

1. Body Composition measurement: A DEXA scan will be performed while the participant lays on their back. A separate risk acknowledgment form for the DXA scan will be provided. Female participants of childbearing age who believe they may be pregnant or are not sure, will be offered a free pregnancy test prior to the DEXA scan.

2. Blood pressure (SphygmoCor) measurement: An automated pressure cuff will be placed on the participant's upper arm and inflated.

3. Resting whole-body metabolism. This assessment measures the amount of energy the body needs at rest (i.e., resting metabolic rate) to maintain normal bodily function and will take approximately 20 minutes. Participants will be asked to lie down and rest quietly while their expired breath, collected via an open hood worn over the head, will be analyzed for oxygen and carbon dioxide content to assess their resting metabolic rate.

4. Resting muscle metabolism: Muscle metabolism will be measured using near-infrared spectroscopy (NIRS), which is the typical use of the NIRS device. Specifically, a small mark will be placed on the center of the tibialis anterior (TA) muscle on the front of the dominant lower leg. An ultrasound machine will be used over the marked site on their muscle to capture an image and calculate the thickness of the TA muscle as well as the fat and skin layer over the muscle. Next, a small NIRS probe will be placed over the mark and secured into place with flexible wrap to minimize movement. There is no known risk associated with the NIRS device beyond potential irritation of the skin akin to the placement of any plastic device on the skin. NIRS measurements will be collected continuously through the duration of the test using blue-tooth. Small adhesive electrical stimulation pads will be placed on the TA muscle above and below the probe. A pneumatic blood pressure cuff will be placed around the thigh (upper leg) of their dominant leg just above the knee. The testing protocol will begin with resting measures that include 3 x 30s occlusions of the leg in which the blood pressure cuff will be inflated between 250-300mmHg. This will be followed by 30s stimulation of the muscle to mimic "exercise" to the TA muscle using electrical stimulation and then a series of short (6 x 5s) occlusions of the leg in which the blood pressure cuff will be again inflated between 250-300mmHg. The intensity of electrical stimulation is moderate and produces a tingling sensation and twitching of the muscle but is not painful. It provides a standardized muscle movement that mimics tapping of one's foot. This test will be repeated 4 times. When the repetitions are complete, the test will end with 5-minutes of blood pressure cuff occlusion and 3 minutes of data collection after the cuff is released.

5. Walking metabolism measurement: Participant's customary walking speed and metabolic cost (i.e. rate of oxygen consumption) will be measured at the level of the whole-body and at the level of the muscle during a 5-minute walking test performed over a 20-meter course. Distance traveled during the 5 minutes will be used to calculate their walking speed. Whole-body metabolic cost will be calculated from the measurement of oxygen consumption and carbon dioxide production rates while walking using a COSMED indirect calorimeter device. Specifically, participants will walk while wearing a facemask (for collection of expired breath) connected to the COSMED device harnessed to their back. The COSMED and harness weigh less than 3 pounds. Muscle oxygen consumption rate (i.e., metabolic cost) while walking will be measured using the NIRS device previously placed on the TA muscle. A pneumatic blood pressure cuff will be placed around the thigh (upper leg) of their dominant leg just above the knee and inflated between 250-300 mmHg for 10 seconds at the end of the walking to allow for measurement of muscle oxygen consumption rate during the occlusion. Participants will also wear a polar hear rate monitor around their chest for measurement of heart rate while walking; heart rate will be recorded by the COSMED device via Bluetooth. These measures are painless and non-invasive. Given that participants will walk at their normal, customary gait speed, no screening for any medical conditions will be used for exclusion beyond those listed above. There is no risk beyond that risk associated with normal ambulation given the self-selected walking speed.

6. Physical activity level. Objective daily physical activity data will be collected using a wrist-worn accelerometer. At the end of their visit, participants will be fitted with this watch-like device that is worn at the wrist, wear it for seven consecutive days.

Study Timeline

• Status Verified: 2025-06
• Study First Submitted: 2025-06-08
• Study First Submitted QC: 2025-06-08
• Last Update Submitted: 2025-06-08
• Study First Posted: 2025-06-15
• Last Update Posted: 2025-06-15
• Study Start: 2025-07-28
• Primary Completion: 2026-12-31
• Study Completion: 2026-12-31

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 15

Inclusion Criteria

• obesity (BMI>30 kg/m2); self elected for bariatric surgery

Exclusion Criteria

• body mass > 350 pounds; presence of type 2 diabetes, thyroid disease, coronary heart disease, congenital heart disease, peripheral arterial disease; having a pacemaker; the use of a walking aid; the presence of an injury that would modify normal gait; and women who are currently pregnant or trying to become pregnant

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Weight loss	4 months	The degree of weight loss after bariatric surgery
Mitochondrial function	4 months	Degree of change in mitochondrial function as a result of weight loss