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1. Measurement of resting energy expenditure and its accuracy in women with breast cancer.

2. Measured and predicted resting metabolic rate in patients with inflammatory bowel disease.

3. The usefulness of a new indirect calorimeter in critically ill adult patients.

4. Composite activity type and stride-specific energy expenditure estimation model for thigh-worn accelerometry.

5. Bioelectrical Impedance Analysis to Assess Energy Expenditure in Critically Ill Patients: A Cross-Sectional Study.

6. Evaluating predictive equations for energy requirements throughout breast cancer trajectory: A comparative study.

7. Resting energy expenditure in patients with liver cirrhosis: Indirect calorimetry vs. predictive equations.

8. Comparative analysis of basal metabolic rate measurement methods in overweight and obese individuals: A retrospective study.

9. Energy Expenditure Validation of an Exergame Platform: Ring Fit Adventure Use in Adults with Overweight and Obesity.

10. Perioperative estimations of oxygen consumption from LiDCO™plus-derived cardiac output and Ca-cvO2 difference: Relationship with measurements by indirect calorimetry in elderly patients undergoing major abdominal surgery.

11. The use of accelerometers to improve estimation of the thermic effect of food in whole room calorimetry studies.

12. Validity and reliability of a new whole room indirect calorimeter to assess metabolic response to small calorie loads.

13. A CNN Model for Physical Activity Recognition and Energy Expenditure Estimation from an Eyeglass-Mounted Wearable Sensor.

14. Indirect calorimetry directed feeding and cycling in the older ICU population: a pilot randomised controlled trial.

15. Development and validation of a smartwatch algorithm for differentiating physical activity intensity in health monitoring.

16. Measurement and estimation of energy in the critically ill.

17. Describing Energy Expenditure in Children with a Chronic Disease: A Systematic Review.

18. Low respiratory quotient correlates with high mortality in patients undergoing mechanical ventilation.

19. A Proposed Predictive Equation for Energy Expenditure Estimation Among Noncritically Ill Patients With Acute Kidney Injury.

20. Nutrition in critically ill children with acute kidney injury on continuous kidney replacement therapy: a 2023 executive summary.

21. An evaluation of intensive care nurses' performance of indirect calorimetry measurements.

22. Comparative characteristics of some methods for estimating energy expenditure in critically ill mechanically ventilated patients.

23. Comparison of energy expenditure measurements by a new basic respiratory room vs. classical ventilated hood.

24. Effect of influenza vaccination on resting metabolic rate and c-reactive protein concentrations in healthy young adults.

25. Clinical metabolic monitoring to inform metabolic dysregulation in sepsis.

26. Continuous and repeat metabolic measurements compared between post-cardiothoracic surgery and critical care patients.

27. Accuracy of equations for estimating resting energy expenditure in children and adolescents living with phenylketonuria.

28. [Correlation of equations for energy expenditure with indirect calorimetry in critically ill patients].

29. Modified indirect calorimetry for patients on venoarterial extracorporeal membrane oxygenation: a pilot feasibility study.

30. Two-hour indirect calorimetry measurement as a predictor of 24-hour energy expenditure in critically ill surgical patients: A longitudinal study.

31. Validation of predictive equations for resting energy expenditure in children and adolescents with different body mass indexes.

32. DYNAMIC METABOLIC CHANGES OBSERVED IN AN LPS-INDUCED SYSTEMIC INFLAMMATION RAT MODEL USING CONTINUOUS LONG-TERM INDIRECT CALORIMETRY EXPERIMENTS.

33. Development and validation of new predictive equations for the resting metabolic rate of older adults aged ≥65 y.

34. Comparison of Actual and Predicted Resting Metabolic Rate in Women with Lipedema.

35. Indirect Calorimetry in Spontaneously Breathing, Mechanically Ventilated and Extracorporeally Oxygenated Patients: An Engineering Review.

36. Validity and reproducibility of a whole-room indirect calorimeter for the estimation of VO 2 , VCO 2 , and resting metabolic rate.

37. Indirect Calorimetry to Measure Metabolic Rate and Energy Expenditure in Psychiatric Populations: A Systematic Review.

38. Energy Guidance Using Indirect Calorimetry for Intestinal Failure Patients with Home Parenteral Nutrition: The Right Bag Right at the Start.

39. Closed-loop control of air supply to whole-room indirect calorimeters to improve accuracy and standardize measurements during 24-hour dynamic metabolic studies.

40. Reliability of resting metabolic rate between and within day measurements using the Vyntus CPX system and comparison against predictive formulas.

41. A longitudinal analysis of resting energy expenditure and body composition in people with spinal cord injury undergoing surgical repair of pressure injuries: a pilot study.

42. Resting energy expenditure in adolescents with Down syndrome: a comparison of commonly used predictive equations.

43. Reproducibility of the energy metabolism response to an oral glucose tolerance test: influence of a postcalorimetric correction procedure.

44. [Comparison of three different measurement methods to determine resting energy expenditure in patients with decompensated hepatitis B cirrhosis].

45. Indirect Calorimetry to Assess Energy Balance in Mice: Measurement and Data Analysis.

46. Predicting resting energy expenditure in people with chronic spinal cord injury.

47. Comparison of Indirect Calorimetry and Common Prediction Equations for Evaluating Changes in Resting Metabolic Rate Induced by Resistance Training and a Hypercaloric Diet.

48. An Automation System Equivalent to the Douglas Bag Technique Enables Continuous and Repeat Metabolic Measurements in Patients Undergoing Mechanical Ventilation.

49. Energy expenditure in COVID-19 mechanically ventilated patients: A comparison of three methods of energy estimation.

50. External Validation with Accuracy Confounders of VCO 2 -Derived Predicted Energy Expenditure Compared to Resting Energy Expenditure Measured by Indirect Calorimetry in Mechanically Ventilated Children.

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