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The aim of this study is to assess whether the energy you burn daily increases after you
have bariatric surgery. Until now, there hasn't been an effective way of measuring all
activity on a daily basis. Physical Activity Monitoring System (PAMS) has been created just
for this purpose. PAMS is a garment that can be worn under your clothes, that records body
position and movement through space. We will use the PAMS along with special water to
measure your total daily energy expenditure right before surgery, and again 6 months and 18
months after surgery.
Study subjects will be initially recruited from OHSU IRB-Approved advertisements.
Interested study subjects will be screened through an informal telephone interview. If there
are no health conditions that exclude participation, subjects will be asked to give
IRB-approved consent.
Subjects will be consenting to undergo three 18 day phases. Each phase will consist of 15
daily visits to the Clinical & Translational Research Center (CTRC), and 3 full day and
nights in the CTRC. The CTRC day visits will be 1 hour visits, where subjects will shower,
replace their dirty PAMS with a clean PAMS, have their weight measured and be asked to walk
on a treadmill for a total of 12 minutes with 3 minutes each at 0.0, 0.6, 1.6 and 2.4 mph.
Subjects will be asked to drink special water on Day 2, and daily urine samples will be
collected for 14 days. On Day 16 subjects will undergo a series of Energy Expenditure tests
using a breath analyzer. Subjects will begin with lying for 30 minutes, then sitting for 20
minutes, standing for 20 minutes, and a transitional period of standing and sitting for 20
minutes. Subjects will then be asked to walk for three 15 minute intervals at 0.8, 1.6, and
2.4 mph. Day 17 will be a repeat of Day 16 but will be followed by Dual Energy X-Ray
Absorptiometry (DEXA) or BodPod (for individuals over 350 lbs) which is device which uses
the movement of air to measure your muscle and fat volumes. Day 18 subjects will begin with
lying for 30 minutes,then be given a breakfast to eat. Their breathing test will then
continue every 15 of 30 minutes after eating breakfast to assess how much energy their body
burns during digestion, for 450 minutes (7.5 hours).
PAMS allows physical activity to be measured precisely during daily activities. By
attaching sensors (inclinometers) to the torso and thigh, body posture can be defined:
Lying: torso and thigh sensors indicate horizontal, Standing: torso and thigh sensors
indicate vertical, Sitting: torso sensor = vertical, thigh sensor = horizontal. Duplicate
sensor sets are used in all subjects to gather duplicate data every ½ second for 14 days.
The physical activity data are combined with the breath measurement data to allow us to
measure all forms of activity. The following are key features; specialized sensors
(accelerometers) are completely integrated with the inclinometers so that data on body
position and movement are continuously gathered; the sensors are attached to the subject
using a harnesses that allows a full range of daytime and nighttime physical activities as
well as bathroom use.
Data analysis is simple requiring a standard PC that runs Excel and written macros programs.
Once this data is downloaded, it will be sent to Mayo Rochester where it will be analyzed
for the following:
- Time-spent lying, sitting, standing and walking,
- Average accelerometer output for non-walking activities (lying, sitting and standing).
- Average accelerometer output for walking and,
- Number of transitions made between postures (e.g. 'sitting-to-standing'). Breathing
feedback will be used to calculate, in duplicate measurements of the Energy Expenditure
(EE) of sitting, standing, transitions and walking at 0.8, 1.6 and 2.4 mph.
Posture and activity EE data collection. For the physical activity monitoring period (Days
2-15), the EE for sitting, standing and transitions will be calculated by multiplying the
time engaged in each activity (or number of transitions) by the EE for that activity.
Non-Exercise Activity EE = EE sitting + EE standing + EE transitions + EE walking.
The special water will be measured in the urine collected daily. The daily urine samples
will be shipped to and analyzed by University of Wisconsin's special instrument in Dr.
Schoeller's lab. This special water has the ability to tell us your total energy
expenditure over the whole day. The special water has a marker or label attached to the
water molecule. The special instrument reads how many water molecules possess this special
label. Body water excreted through urine can tell us a person's total daily energy
expenditure.
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