Effect of exogenous and endogenous ketones on respiratory exchange ratio and glucose metabolism in healthy subjects

Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on o...

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Published in	American Journal of Physiology: Cell Physiology Vol. 326; no. 4; pp. C1027 - C1033
Main Authors	Dörner, Rebecca, Hägele, Franziska A., Müller, Manfred J., Seidel, Ulrike, Rimbach, Gerald, Bosy-Westphal, Anja
Format	Journal Article
Language	English
Published	United States American Physiological Society 01.04.2024
Series	Ketones in Cellular Physiology: Metabolic, Signaling, and Therapeutic Advances
Subjects	Beta cells Blood Glucose - metabolism Body mass index Carbon dioxide Energy balance Energy Metabolism Excretion Fasting Glucose Glucose metabolism Glucose tolerance Healthy Volunteers High fat diet Humans Insulin Insulins Ketogenesis Ketones Low carbohydrate diet Metabolism Oxygen consumption Physical activity Salts insulin sensitivity respiratory exchange ratio ketone salts glucose metabolism
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ISSN	0363-6143 1522-1563 1522-1563
DOI	10.1152/ajpcell.00429.2023

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Abstract	Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o 2 ), carbon dioxide production (V̇co 2 ), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m 2 ] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only ( P < 0.05). When compared with ISO, V̇o 2 significantly increased in KETO ( P < 0.01) and EXO ( P < 0.001), whereas there was no difference in FAST. V̇co 2 increased in EXO but decreased in KETO (both P < 0.01) and FAST ( P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) ( P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance. NEW & NOTEWORTHY Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism.
AbstractList	This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o2), carbon dioxide production (V̇co2), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m2] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only (P < 0.05). When compared with ISO, V̇o2 significantly increased in KETO (P < 0.01) and EXO (P < 0.001), whereas there was no difference in FAST. V̇co2 increased in EXO but decreased in KETO (both P < 0.01) and FAST (P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) (P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance.NEW & NOTEWORTHY Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o2 and V̇co2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism.This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o2), carbon dioxide production (V̇co2), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m2] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only (P < 0.05). When compared with ISO, V̇o2 significantly increased in KETO (P < 0.01) and EXO (P < 0.001), whereas there was no difference in FAST. V̇co2 increased in EXO but decreased in KETO (both P < 0.01) and FAST (P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) (P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance.NEW & NOTEWORTHY Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o2 and V̇co2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o ), carbon dioxide production (V̇co ), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m ] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only ( < 0.05). When compared with ISO, V̇o significantly increased in KETO ( < 0.01) and EXO ( < 0.001), whereas there was no difference in FAST. V̇co increased in EXO but decreased in KETO (both < 0.01) and FAST ( < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) ( < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance. Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o and V̇co while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o 2 ), carbon dioxide production (V̇co 2 ), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m 2 ] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only ( P < 0.05). When compared with ISO, V̇o 2 significantly increased in KETO ( P < 0.01) and EXO ( P < 0.001), whereas there was no difference in FAST. V̇co 2 increased in EXO but decreased in KETO (both P < 0.01) and FAST ( P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) ( P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance. NEW & NOTEWORTHY Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇ o 2 ), carbon dioxide production (V̇ co 2 ), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m 2 ] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only ( P < 0.05). When compared with ISO, V̇ o 2 significantly increased in KETO ( P < 0.01) and EXO ( P < 0.001), whereas there was no difference in FAST. V̇ co 2 increased in EXO but decreased in KETO (both P < 0.01) and FAST ( P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) ( P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance. NEW & NOTEWORTHY Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇ o 2 and V̇ co 2 while lowering the respiratory exchange ratio (RER). Ketone salts had no effect on postprandial glucose metabolism. This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o2), carbon dioxide production (V̇co2), and glucose metabolism. The data were compared with the effects of endogenous ketonemia during both, a ketogenic diet or fasting. Eight healthy individuals [24.1 ± 2.5 yr, body mass index (BMI) 24.3 ± 3.1 kg/m2] participated in a crossover intervention study and were studied in a whole-room indirect calorimeter (WRIC) to assess macronutrient oxidation following four 24-h interventions: isocaloric controlled mixed diet (ISO), ISO supplemented with ketone salts (38.7 g of β-hydroxybutyrate/day, EXO), isocaloric ketogenic diet (KETO), and total fasting (FAST). A physical activity level of 1.65 was obtained. In addition to plasma KB, 24-h C-peptide and KB excretion rates in the urine and postprandial glucose and insulin levels were measured. Although 24-h KB excretion increased in response to KETO and FAST, there was a modest increase in response to EXO only (P < 0.05). When compared with ISO, V̇o2 significantly increased in KETO (P < 0.01) and EXO (P < 0.001), whereas there was no difference in FAST. V̇co2 increased in EXO but decreased in KETO (both P < 0.01) and FAST (P < 0.001), resulting in 24-h respiratory exchange ratios (RER) of 0.828 ± 0.024 (ISO) and 0.811 ± 0.024 (EXO) (P < 0.05). In response to EXO there were no differences in basal and postprandial glucose and insulin levels, as well as in insulin sensitivity. When compared with ISO, EXO, and KETO, FAST increased homeostatic model assessment β-cell function (HOMA-B) (all P < 0.05). In conclusion, at energy balance exogenous ketone salts decreased respiratory exchange ratio without affecting glucose tolerance.
Author	Seidel, Ulrike Bosy-Westphal, Anja Rimbach, Gerald Dörner, Rebecca Hägele, Franziska A. Müller, Manfred J.
Author_xml	– sequence: 1 givenname: Rebecca orcidid: 0000-0002-7576-2099 surname: Dörner fullname: Dörner, Rebecca organization: Department of Human Nutrition, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany – sequence: 2 givenname: Franziska A. orcidid: 0000-0002-6229-7503 surname: Hägele fullname: Hägele, Franziska A. organization: Department of Human Nutrition, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany – sequence: 3 givenname: Manfred J. orcidid: 0000-0002-7280-2411 surname: Müller fullname: Müller, Manfred J. organization: Department of Human Nutrition, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany – sequence: 4 givenname: Ulrike surname: Seidel fullname: Seidel, Ulrike organization: Department of Food Sciences, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany – sequence: 5 givenname: Gerald orcidid: 0000-0001-7888-4684 surname: Rimbach fullname: Rimbach, Gerald organization: Department of Food Sciences, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany – sequence: 6 givenname: Anja orcidid: 0000-0002-8318-9448 surname: Bosy-Westphal fullname: Bosy-Westphal, Anja organization: Department of Human Nutrition, Institute of Human Nutrition and Food Sciences, Kiel University, Kiel, Germany
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Snippet	Our findings revealed that during isocaloric nutrition, additional exogenous ketone salts increased V̇o 2 and V̇co 2 while lowering the respiratory exchange... This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o ), carbon dioxide production (V̇co ), and glucose metabolism. The... This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇o2), carbon dioxide production (V̇co2), and glucose metabolism. The... This study examined the effect of exogenous ketone bodies (KB) on oxygen consumption (V̇ o 2 ), carbon dioxide production (V̇ co 2 ), and glucose metabolism....
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SubjectTerms	Beta cells Blood Glucose - metabolism Body mass index Carbon dioxide Energy balance Energy Metabolism Excretion Fasting Glucose Glucose metabolism Glucose tolerance Healthy Volunteers High fat diet Humans Insulin Insulins Ketogenesis Ketones Low carbohydrate diet Metabolism Oxygen consumption Physical activity Salts
Title	Effect of exogenous and endogenous ketones on respiratory exchange ratio and glucose metabolism in healthy subjects
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