RMR
Take the guess work out of nutrition! Discover how many calories your body requires at rest to guide fat loss, muscle gain, or weight maintenance with an RMR assessment at the CHAMP Center!
RMR: What It Is
Resting Metabolic Rate (RMR) represents the number of calories your body requires at rest to maintain vital functions, including breathing, circulation, and cellular activity. RMR accounts for approximately 60–70% of total daily energy expenditure (TDEE), which also includes activity energy expenditure (~20–30%) and the thermic effect of food (~10%).
RMR is measured using indirect calorimetry, which calculates energy expenditure from oxygen consumed (VO₂) and carbon dioxide produced (VCO₂). During the test, participants rest quietly on a bed while a metabolic mask or hood captures gas exchange. Testing is non-invasive, painless, and typically takes 45–60 minutes. Measurements are most accurate in a fasted state, usually after 10–12 hours without food or caffeinated/sugary beverages. Further preparation details can be found on the CHAMP Center Prepare Page.
At the CHAMP Center, RMR is assessed using the TrueOne® Parvo Medics metabolic cart, the same system trusted by NASA, US Olympic Training Centers, and leading research institutions, ensuring professional-grade equipment and precise results.
RMR: Why It's Important
Resting Metabolic Rate (RMR) represents the largest portion of daily energy expenditure, supporting essential physiological functions like breathing, circulation, and cellular repair. Knowing RMR establishes a clear baseline for energy needs, removing guesswork from calorie planning and nutrition strategies.
Understanding RMR allows participants to:
• Guide nutrition by determining calories needed to maintain, lose, or gain weight
• Support body composition goals through individualized macronutrient planning
• Monitor metabolic adaptations due to training, aging, hormones, or dietary changes
• Account for individual variability that generic formulas cannot capture
By identifying true baseline energy requirements, RMR testing provides an evidence-based foundation for nutrition, performance, and metabolic health.
RMR: Who Should Do It
Resting Metabolic Rate (RMR) testing measures calories burned at rest to establish a baseline for energy needs. This test benefits anyone seeking to understand their metabolism and optimize nutrition, including:
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Body Recomposition Focused: Set accurate calorie targets for fat loss, maintenance, or gain.
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Athletes or Active Individuals: Ensure adequate fueling to support training, recovery, and performance.
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Just Curious: Understand how your body uses energy at rest to inform lifestyle and nutrition choices.
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Navigating Metabolic or Hormonal Changes: Track the effects of thyroid function, insulin sensitivity, autoimmune conditions, or other metabolic or hormonal factors on your energy needs.
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Life Stage Considerations: Personalize nutrition during different life stages, including pregnancy/postpartum, peri- or post-menopause, or transitions into new decades of life.
RMR: Interpreting Results
Your RMR results reveal the unique number of calories your body burns at rest. This baseline reflects the energy required to maintain essential functions such as breathing, circulation, and organ activity, independent of activity or exercise. Understanding your RMR empowers you to make precise, personalized decisions about nutrition, training, and recovery.
Rather than relying on predictive formulas or population averages, RMR testing measures your metabolism under standardized conditions. CHAMP Center staff interpret your results using clinically and performance-relevant metrics, providing context for your energy needs relative to your goals, lifestyle, and training history.
Key Metrics Include:
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Resting Metabolic Rate (RMR)
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Respiratory Quotient (RQ)
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TDEE Guidelines
View the other tabs to read more on each metric.
Respiratory Quotient (RQ):
Respiratory Quotient (RQ) reflects the relative contribution of fat versus carbohydrate being used for energy at rest. It is calculated as the ratio of carbon dioxide production (VCO₂) to oxygen consumption (VO₂) and provides insight into substrate utilization under resting conditions.
Typical RQ values include:
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~0.70–0.80: Predominantly fat oxidation
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~0.85: Mixed fuel usage (fat and carbohydrate)
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~0.90–1.00: Predominantly carbohydrate reliance
Because RMR testing is performed in a rested, fasted state, the body is expected to rely primarily on fat for energy, reflected by an RQ closer to ~0.70–0.80. Lower resting RQ values generally indicate efficient fat oxidation and metabolic flexibility. Higher resting RQ values suggest greater carbohydrate reliance and may reflect recent dietary intake, reduced fat oxidation capacity, metabolic stress, insulin resistance, hormonal influences, or a history of underfueling.
RQ is sensitive to both short-term factors (recent nutrition, sleep, stress) and long-term adaptations related to training status, metabolic health, and hormonal regulation.
How it’s used:
RQ helps assess metabolic flexibility and resting substrate preference, informing individualized nutrition and lifestyle strategies. A higher resting RQ may indicate the need to evaluate fueling patterns, recovery, or metabolic health, while a lower RQ suggests effective fat utilization that can support endurance performance, weight management, and long-term metabolic resilience. When interpreted alongside RMR and body composition data, RQ provides a more complete picture of energy metabolism and helps guide personalized fueling strategies, training intensity decisions, and recovery planning.
How to Use Your Results:
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Establish personalized calorie targets for weight loss, maintenance, or muscle gain using measured RMR, rather than estimated formulas
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Adjust daily energy intake to reflect training volume, recovery demands, and lifestyle changes by applying activity factors to calculate Total Daily Energy Expenditure (TDEE)
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Identify potential signs of metabolic adaptation or under-fueling when RMR is suppressed relative to lean mass, body size, or activity level
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Monitor changes in RMR and resting RQ over time to evaluate how your metabolism responds to nutrition strategies, training load, body composition changes, or hormonal transitions
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Pair RMR results with other assessments, such as VO₂ max and DEXA, to gain a comprehensive view of energy balance, metabolic health, and longevity potential. Our Longevity Package combines all three for a complete metabolic and performance profile.
Resting Metabolic Rate (RMR, kcal/day):
RMR represents the total number of calories your body requires at rest to support essential physiological functions such as breathing, circulation, cellular repair, thermoregulation, and nervous system activity. It accounts for the largest portion of daily energy expenditure and reflects the baseline energy cost of keeping the body functioning independent of physical activity.
RMR is influenced by several factors, including lean mass, age, sex, hormonal status, genetics, and recent energy availability. Higher RMR values are commonly associated with greater lean mass, higher metabolic demand, or increased physiological activity. Lower RMR values may reflect reduced lean mass, age-related metabolic decline, hormonal shifts, prolonged energy restriction, or adaptive metabolic responses to stress or underfueling.
Because RMR varies significantly between individuals, direct measurement provides far more accurate insight than predictive equations or population averages.
How it’s used:
RMR serves as the foundation for calculating total daily energy expenditure (TDEE) and establishing personalized calorie targets for weight maintenance, fat loss, or muscle gain. Tracking RMR over time allows metabolic adaptations to be identified in response to changes in training load, nutrition, body composition, or hormonal status. Expressing RMR relative to lean mass can offer additional insight into metabolic efficiency, while pairing RMR with VO₂ max, BodPod, or DEXA results creates a comprehensive view of energy balance, performance capacity, and long-term metabolic health.
Total Daily Energy Expenditure (TDEE):
Total Daily Energy Expenditure (TDEE) represents the total number of calories your body burns in an entire day. It includes not only your Resting Metabolic Rate (RMR), but also calories expended through physical activity, digestion, and non-exercise movement. While RMR establishes your baseline energy requirement, TDEE reflects how much energy your body needs to support your full lifestyle.
TDEE is influenced by multiple factors, including training volume and intensity, occupational activity, daily movement patterns, body composition, and recovery demands. Because these variables change over time, TDEE is not a fixed number but a dynamic value that should be periodically reassessed as training, body composition, or lifestyle changes.
How TDEE is determined using RMR:
RMR serves as the foundation for estimating TDEE. To calculate TDEE, RMR is multiplied by an activity factor that reflects your typical daily movement and training load. This approach allows your daily calorie needs to be individualized rather than relying on generalized equations.
Common activity multipliers include:
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Sedentary (little structured activity): RMR × 1.2
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Lightly active (light training or movement): RMR × 1.35–1.45
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Moderately active (regular training): RMR × 1.55–1.65
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Highly active (intense or frequent training): RMR × 1.75–1.9+
Using a measured RMR rather than a predicted value significantly improves the accuracy of TDEE estimates, especially for athletes, individuals undergoing body recomposition, or those navigating hormonal or metabolic changes. CHAMP Center staff are also available to help you interpret your results and select an appropriate activity multiplier based on your training schedule, lifestyle, and goals.
How it’s used:
TDEE provides the framework for setting personalized nutrition targets based on your goals. Eating near TDEE supports weight maintenance, a modest calorie deficit supports fat loss, and a controlled surplus supports muscle gain or recovery. Tracking changes in body composition alongside TDEE helps determine whether calorie intake aligns with metabolic needs or if adjustments are needed due to training load, recovery demands, or metabolic adaptation. When combined with RQ and body composition data, TDEE helps ensure that energy intake supports both performance and long-term metabolic health.