Monitoring Total Energy Expenditure
Total Energy Expenditure (TEE) represents the total number of calories a person burns per day, including resting metabolism, physical activity, and the energy used for digestion. Accurate measurement of TEE under real-life conditions is essential for nutrition, metabolism, obesity, and health research.
What is the DLW Method?
The DLW method measures TEE by tracking how much CO₂ the body produces over time. As CO₂ production is directly linked to energy metabolism, the DLW method is the ideal tool for clinical studies with a focus on weight loss and energy consumption.
What Does Participation Involve?
At home, participants drink water enriched with two safe, stable (non-radioactive) isotopes that naturally mix with the body’s water: deuterium (²H) – a stable isotope of hydrogen and oxygen-18 (¹⁸O) – a stable isotope of oxygen. Participants then collect urine samples at home (no blood sampling, no hospital or laboratory visit). The typical observation period is 3 to 14 days, with longer protocols possible if required.
Key Benefits
• Measures energy expenditure under real-life conditions
• Safe for children, pregnant women, and vulnerable groups
• Provides long-term average TEE, not just short-term snapshots
• High scientific accuracy (≈1–3% deviation from laboratory reference methods)
Why Use DLW?
Traditional laboratory techniques (respiration chambers, ventilated hoods, face masks) restrict movement and behavior and only capture short time periods. DLW uniquely answers the question:
“How much energy does a person truly expend in everyday life?”
Complete DLW Services available at JOANNEUM RESEARCH
• Study design and logistics
• Isotope production and analysis using laser spectroscopy
• Calculation and reporting of Total Energy Expenditure
Please order our ready-to-use TEE – DLW kits including isotope solutions and urine cups here:
Research groups
Downloads
Unsere beteiligten Partner & Fördergeber
Das sagen unsere Kunden
More Products and Services
aOFM can be used to monitor local drug distribution and biomarkers in subcutaneous adipose tissue.
Fast and efficient PK-based bioequivalence studies for topical generics
With cOFM, local drug distribution and biomarkers in the brain can be monitored - with the blood-brain barrier intact.
Unique de-risking and proof-of-mechanism studies for dermal active ingredients
Specialized methods for analyses and testing for preclincial and clinical studies (GLP and non-GLP).
Instruments and methods for the measurement of pharmacokinetics and pharmacodynamics in different tissues.
Comprehensive and compliant data management and biostatistics for clinical trials
We test drug release in a fast and reliable way using IVRT based on vertical diffusion cells and synthetic membranes.
We perform untargeted and targeted metabolomics studies to quantify metabolites to investigate metabolic processes and identify biomarkers.
The digital checklist and cross-professional process documentation for surgical procedures.
We offer extensive, professional support in reporting and publishing the results of your preclinical and clinical studies.
Unlock success in regulatory compliance for medical devices with tailored, hands-on guidance