Is BMR the same as maintenance calories?
No. BMR is resting energy use. Maintenance calories are higher because they include movement, exercise, and the energy cost of daily living.
Co je BMR a k čemu slouží
Co BMR říká, proč to není celý váš denní cíl a jak se v tom čísle neztratit.
Short answer
BMR is your basal metabolic rate, or the energy your body needs at rest. It is not your maintenance calories and it is not your fat-loss target. It is the starting layer of the estimate. Activity, body composition, and real-world weight trends still matter after that first number appears.
V tomto průvodci
Jak číst BMR
Co BMR ukazuje
BMR je množství energie, které tělo potřebuje v klidu. Není to váš celý denní cíl, ale spodní základ, od kterého se výpočet dál odvíjí.
Jak číslo chápat
BMR dává smysl jen jako součást širšího odhadu. Teprve potom se přidá aktivita, cíl a to, co se ve skutečnosti děje s váhou v běžném režimu.
Kde bývá omyl
Častý omyl je brát BMR jako přesnou osobní denní normu. Ve skutečnosti je to jen výchozí bod, ne hotový závěr.
Co navazuje potom
Po BMR obvykle dává smysl kalkulačka denního cíle. Pak přicházejí na řadu produkty, porce a průvodce ke kalorickému deficitu.
BMR FAQ
Which BMR equation is usually used in calculators?
Many calculators use Mifflin-St Jeor because it has been one of the better-performing practical equations in comparative reviews. Some tools also offer lean-mass-based formulas when body-fat data are available.
Why can two people with the same BMR need different calorie intakes?
Because daily expenditure is shaped by movement, work, training, and sometimes body-composition differences that a basic equation cannot fully capture. BMR is only the resting layer.
Should I eat at my BMR to lose weight?
Usually not. For most people that would be more restrictive than necessary because BMR is lower than maintenance. A workable fat-loss target is generally set below maintenance, not at the resting floor.
Research and sources
Mifflin MD, et al. A new predictive equation for resting energy expenditure in healthy individuals.
Original paper describing the Mifflin-St Jeor equation.
Frankenfield D, Roth-Yousey L, Compher C. Comparison of predictive equations for resting metabolic rate in healthy nonobese and obese adults: a systematic review.
Systematic review concluding that Mifflin-St Jeor was the most reliable of the commonly used equations studied.
Hall KD, et al. Quantification of the effect of energy imbalance on bodyweight.
Shows why energy expenditure changes as body weight changes instead of staying fixed.
Müller MJ, Bosy-Westphal A. Adaptive thermogenesis with weight loss in humans.
Useful background on why measured expenditure can drop during weight loss beyond what a simple equation predicts.