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By 2050 there will be 9 billion people on earth. Yet a major issue facing governments is that the current method by which food demands are estimated is widely acknowledged to be completely inaccurate. There is an accurate method available. It is based on measurements of isotope elimination and is called the doubly-labeled water (DLW) method. As part of an initiative sponsored by the International Atomic energy agency (IAEA), the investigators recently compiled a database of measurements using this technique. It showed that use of the DLW method has been mostly restricted to the USA and western Europe. It has been rarely applied across Africa and Asia. There is a clear need to fill this gap in our knowledge providing information that governments across the belt and road countries can use to forecast future food demands. A letter of support from the IAEA confirms the practical importance of having these data which will become reference standards for food intake estimates across the region. Having this information not only fills a very practical need, but also has a strong scientific purpose. The population of earth is not only getting bigger, but the people are getting fatter. The causes of this obesity epidemic are strongly disputed with some suggesting it is due to our increasingly sedentary lives (computers, cars, phones etc), but others suggesting it is mostly due to changing food patterns (junk food and sugar sweetened beverages). Measuring energy expenditure of people across countries that vary enormously in their levels of obesity will address whether falling expenditure due to lowered physical activity is a key cause of the epidemic.
Full description
Energy Expenditure and Activity
Energy expenditure, body composition, and metabolism will be assessed by the following measures:
Total Energy Expenditure (TEE) using Doubly-labeled water (DLW):
TEE will be measured using the DLW method. Urine samples from all participants in the DLW subset will be stored at -20 oC and shipped on dry ice for analysis in the laboratory of Dr. John Speakman at the University of Aberdeen, or the Shenzhen Institute of Advanced Technology, Chinese academy of sciences. Isotopes will be measured in benchtop near-infrared isotope gas analyzer, and mean CO2 production will be calculated from isotope ratios using the recently derived equation. TEE will then be calculated using mean CO2 production.
Resting Metabolic Rate (RMR):
RMR will be measured by indirect calorimetry while participants are resting supine in thermoneutral conditions. Oxygen consumption and CO2 production will be measured over a period of 25 min, and measurements from the final 10 min will be used to calculate RMR using Weir's equation. Calorimeters will be assessed with a turbine test to ensure accuracy of measurements.
Physical Activity:
Physical activity estimates obtained from the activity monitors will be used to assess energy expenditure concurrently with TEE and RMR measurements. The output generated from the accelerometer worn near the hip will include the following: 24-hour physical activity and sleep/wake measurements including acceleration, activity counts, energy expenditure, and physical activity intensity.
Body Composition
Bioelectrical impedance (BIA):
The BIA method will be used to estimate total body water, fat and fat free mass using the BIA machine available at each site. Since this is a cross-sectional study, a uniform BIA machine is not specified as a requirement in the protocol. Where available body composition by DZ=XA will also be measured.
Height, Weight, Waist Circumference, and Blood Pressure:
Duplicate measurements of weight (to +0.1kg), height (to +0.1 cm), hip and waist circumference (to +0.3 cm), and blood pressure will be taken. At visit 1, fasting weight will be measured at the beginning of the visit. Fasting weight will be measured at visit 2 and, if applicable.
Environmental temperature:
The Ibutton (DS1921G) monitors will be provided for the assessment of both indoor and outdoor temperature of their living environment. The iButtons can be affixed to the handbag (or clothes) to measure the subject exposure temperature, an indoor wall of home and workplace, and the building outside to measure the outdoor temperature using a strip of adhesive, water resistant, medical grade tape.
Metabolomics and SNP genotyping:
The subjects will have their venous blood collected in a fasted state. 4ml of venous blood (BD vacutainer K2 EDTA, BD, USA) will be used to separate plasma for metabolomics analysis and to extract genomic DNA (TIANamp Blood DNA kit, TIANGEN, China. QIAamp Midi Blood DNA kit, QIAGEN, Germany) for Single nucleotide polymorphism (SNP) genotyping (Agena MassARRAY, CapitalBio Technology, China).
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159 participants in 4 patient groups
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Xueying Zhang, Doctor; John R. Speakman, Doctor
Data sourced from clinicaltrials.gov
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