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Pros and Cons of Indirect Calorimetry
Indirect calorimetry is a scientific method linked with the analysis of metabolic processes. Unlike direct calorimetry, indirect calorimetry evaluates respiratory gasses such as carbon dioxide and oxygen which are influenced by metabolism to attain energy requirements. The expired gas analysis indirect calorimetry (EGAIC) is the most widely accepted indirect calorimetry method which is used to study steady exercise physiology and metabolic conditions. Exercise physiologists employ indirect calorimetry in assessing power, work, and intensity. They use equipment known as a metabolic cart to perform expired gas indirect calorimetry. The test setup is dependent on the purpose. For instance, in exercise testing, measurement is taken during physical activity while measuring resting conditions including no physical activity, at least five fasting hours, and abstinence from caffeine, nicotine, and other stimulants.
Indirect calorimetry has advantages and disadvantages. One of the advantages of indirect calorimetry is that it is rather accurate. Another advantage is portability which makes it useful in field testing activities such as running in a marathon. Additionally, indirect calorimetry is useful with animal testing and can be used to determine which type of substrate is being oxidized. On the downside, indirect calorimetry is more expensive than direct calorimetry with costs going as high as $35, 000 per unit (De Waele, and Arthur, 4). Another disadvantage of indirect calorimetry is that it requires some training in exercise physiology. Moreover, weight is likely to be an issue for this kind of testing. Another disadvantage is that indirect calorimetry is not convenient for tracking. Additionally, it is difficult for participants to wear all equipment in their daily living activities wearing equipment such as masks are impractical. Notably, hyperventilation is a possible reality in indirect calorimetry. As an accurate and reliable tool for studying energy expenditure, indirect calorimetry has numerous applications in programs ranging from nutrition, sports and performance testing, metabolic syndrome, research and critical trials, hospital care, and economy and efficiency.
Works Cited
De Waele, Elisabeth, and Arthur RH van Zanten. “Routine use of indirect calorimetry in critically ill patients: pros and cons.” Critical Care 26.1 (2022): 1-4. https://link.springer.com/article/10.1186/s13054-022-04000-5
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