Physiology, Respiratory Quotient


Article Author:
Hiran Patel


Article Editor:
Abhishek Bhardwaj


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Tehmina Warsi


Updated:
10/27/2018 12:31:50 PM

Introduction

Respiration is the process by which the respiratory substrate is broken down to release energy. The two main operating factors of cell respiration are aerobic and anaerobic respiration, where aerobic respiration requires the presence of oxygen and anaerobic respiration does not. The most common respiratory substrate is glucose, which has a 6-carbon compound. The substrate is metabolized through glycolysis, TCA cycle, electron transport chain, and oxidative phosphorylation. Through these cycles, cells are able to produce and store ATP, and carbon dioxide is produced as a by-product. It is important to understand the levels of carbon dioxide produced from different substrates because toxic levels can be destructive to the body. Healthcare professionals can recommend that a patient alter his or her diet, particularly for those with pulmonary and liver conditions, to increase the release of CO2 and avoid respiratory fatigue and utilize it as a prognostic factor, respectively.[1]

Respiratory quotient, also known as the respiratory ratio (RQ), is defined as the volume of carbon dioxide released over the volume of oxygen absorbed during respiration. It is a dimensionless number used in a calculation for basal metabolic rate when estimated from carbon dioxide production to oxygen absorption. Uptake of oxygen is a form of indirect calorimetry and is measured by a respirometer directly at the tissue or mouth.

Respiratory Ratio

RQ = Vol CO2 released/Vol O2 absorbed

It is calculated for a particular substrate i.e., carbohydrates, organic acid, fat, and protein. Carbohydrates are oxidized through aerobic respiration resulting in an equal ratio of CO2 release and oxygen consumption. Subsequently, the RQ for fat, protein, and anaerobe is 0.7, 0.8, and 0 respectively. If a mixture of the substrates is consumed, then the RQ ratio collectively is 0.8.[2]

Function

When inspired oxygen is collected in the alveolar sac, perfusion occurs through the capillary network surrounding the alveoli. This perfused oxygen is transported by the red blood cell to the surrounding tissues. As blood is traveling through the capillary bed, oxygen is released from the RBC to the respective tissue site. Concurrently, the tissue releases CO2 through metabolic processes into the red blood cell, delivering it to the lungs.

Normal Respiration

  • Vol CO2 = 200 mL/min and Vol O2 = 250 mL/min, resulting in 0.8 respiratory ratio

In the presence of macronutrients, oxygen is required for the breakdown of carbohydrates, fat, and protein. Carbohydrates (C6H12O6 + 6O2) have a 6 carbon chain and metabolize via glycolysis to form 2 pyruvate substrates, releasing CO2 as a by-product when converting to acetyl CoA. CO2 is also a by-product in the Krebs cycle when 2 carbon acetyl CoA reacts with a 4 carbon citrate, making a total of 3 CO2 in each metabolizing cascade. If the starting molecule is a fatty acid, which contains 12, 18, 20, or 22 carbon molecules, it goes through the process of B - oxidation to form acetyl Co-A which does not generate carbon dioxide. Therefore, when using fat over carbohydrate as a form of fuel, less CO2 is generated for every oxygen consumed.

Related Testing

Indirect Calorimetry

To validate RQ, it is important to calculate heat production by measuring pulmonary gas exchange first; this is known as indirect calorimetry. The method for measuring inspired oxygen and expired carbon dioxide is to calculate the resting energy expenditure (REE) and respiratory quotient (RQ). REE allows the nutritionist to understand how much they need to feed their patients.

Respiratory Quotient and Respiratory Exchange Ratio[3]

Respiratory Exchange Ratio (RER) directly measures Vol CO2 released/Vol O2 absorbed at the mouth and does not require invasive procedures. Respiratory quotient, on the other hand, measures directly at the tissue, requiring an arterial and venous catheter while monitoring blood pressure for optimal results.

Carbohydrates are oxidized through aerobic respiration using RER, resulting in an equal ratio of CO2 release and oxygen consumption; this implies that 100% of carbohydrates are consumed to produce ATP.

  • C6H12O2 + 6 O2 ? 6O2 + 6 H2O + Energy
  •  RQ= 6 CO2 /6 O2 = 1.0

When fat is oxidized and measured using RER, the outcome is reduced CO2 production for every oxygen molecule consumed.

  • C16H32O2 + 23 O2 ? 16O2 + 16 H2O + Energy
  • RQ= 16 CO2 / 23 O2 = 0.7

When protein is the respiratory substrates, it results in reduced CO2 production for every oxygen molecule consumed.[4]

  • C72H112N18O22 + 77 O2 ? 63O2 + 38 H2O + Energy
  • RQ= 63 CO2 / 77 O2= 0.9

Clinical Significance

Chronic Obstructive Pulmonary Disease

Chronic Obstructive Pulmonary Disease (COPD) is a pulmonary disease that causes chronic obstruction of airflow. Chronic inflammation of the bronchioles along with mucous production causes them to become deformed and narrow along with mucous production, limiting the air flow as a person exhales. Because the patient is not able to fully exhale, carbon dioxide remains in the alveoli due to loss of elasticity of the sac. The patients suffer from shortness of breath, productive cough, respiratory acidosis, and complicated pneumonia. 

In 1992, a study showed that carbohydrate-rich food increases production of CO2, leading to an increase in respiratory rate and eventually respiratory failure. On the contrary, fat-rich meals decrease the production of CO2, leading to reduce alveolar ventilation and minor improvement in respiration in patients who initially have an RQ ratio greater than 0.75.[5] 

Non-Insulin Dependent Weight Gain

The respiratory quotient can be used to predict weight gain in non-insulin-dependent diabetic patients. Normally, a diabetic patient has insulin-resistant receptors, which results in hyperglycemia. This prevents metabolization from occurring via glycolysis, therefore, increasing lipolysis. As mentioned, an increase in lipolysis will reduce the production of CO2. A study done in 1998, demonstrated an inverse correlation between RQ ratio and serum glucose levels in non-insulin-dependent diabetes mellitus treated with oral hypoglycemic agents or insulin. Patients who were on the oral hypoglycemic agents and had a higher BMI verified that their RQ ratio was much higher than those of average BMI. After following them for a year, a weight gain of 3 kg was noticed in 50% of the patients along with an increase of RQ ratio. This study concluded that RQ ratio is a valid predictor for weight gain in diabetics treated with oral agents.[6]

Nutrition Guide for Sick Patients

Utilizing the indirect calorimetry and respiratory energy expenditure aids in calculating the ideal kcal patients need to consume per day, especially when unable to estimate caloric requirements, inadequate clinical response to a predicted equation, or clinical sign of over and under-feeding. Patients who are morbidly obese or suffering from sepsis have an alteration in their VCO2 release and VO2 consumption. For this reason, a daily RQ and indirect calorimetry are essential to optimize their diet and reduce hospital stay.[7][8]

  • REE = (kcal/d)= (VO2 x 3.94) + (VCO2 x 1.11) x 1440

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Physiology, Respiratory Quotient - Questions

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A 55-year-old patient with a past medical history of chronic obstructive pulmonary disease and obesity has a respiratory quotient of 0.97. Which of the following is true?



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A 45-year-old male with a current history of pyruvate kinase deficiency will have which of the following changes in the respiratory quotient ratio?



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A comatose patient has received intravenous feedings for several weeks. His medical team uses his respiratory quotient (RQ) to determine his nutritional state. Which of the following is true of the respiratory quotient?



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Physiology, Respiratory Quotient - References

References

Suteerojntrakool O,Sanguanrungsirikul S,Sritippayawan S,Jantarabenjakul W,Sirimongkol P,Chomtho S, Effect of a low-carbohydrate diet on respiratory quotient of infants with chronic lung disease. Journal of the Medical Association of Thailand = Chotmaihet thangphaet. 2015 Jan     [PubMed]
Prentice RL,Neuhouser ML,Tinker LF,Pettinger M,Thomson CA,Mossavar-Rahmani Y,Thomas F,Qi L,Huang Y, An exploratory study of respiratory quotient calibration and association with postmenopausal breast cancer. Cancer epidemiology, biomarkers     [PubMed]
Efthimiou J,Mounsey PJ,Benson DN,Madgwick R,Coles SJ,Benson MK, Effect of carbohydrate rich versus fat rich loads on gas exchange and walking performance in patients with chronic obstructive lung disease. Thorax. 1992 Jun     [PubMed]
Nakaya Y,Ohnaka M,Sakamoto S,Niwa Y,Okada K,Nomura M,Hara T,Kusonoki M, Respiratory quotient in patients with non-insulin-dependent diabetes mellitus treated with insulin and oral hypoglycemic agents. Annals of nutrition     [PubMed]
Patkova A,Joskova V,Havel E,Najpaverova S,Uramova D,Kovarik M,Zadak Z,Hronek M, Prognostic value of respiratory quotients in severe polytrauma patients with nutritional support. Nutrition (Burbank, Los Angeles County, Calif.). 2018 May     [PubMed]
Fernández-Verdejo R,Bajpeyi S,Ravussin E,Galgani JE, Metabolic Flexibility to Lipid Availability During Exercise is Enhanced in Individuals with High Insulin Sensitivity. American journal of physiology. Endocrinology and metabolism. 2018 Jun 5     [PubMed]
Grandl G,Straub L,Rudigier C,Arnold M,Wueest S,Konrad D,Wolfrum C, Short-term feeding of a ketogenic diet induces more severe hepatic insulin resistance than a obesogenic high-fat diet. The Journal of physiology. 2018 Aug 8     [PubMed]
Birnbaumer P,Müller A,Tschakert G,Sattler MC,Hofmann P, Performance Enhancing Effect of Metabolic Pre-conditioning on Upper-Body Strength-Endurance Exercise. Frontiers in physiology. 2018     [PubMed]

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