Dilution of oral D3‐Creatine to measure creatine pool size and estimate skeletal muscle mass: development of a correction algorithm
Background Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by measurement of the steady‐state enrichment of D3‐creatinine (D3‐Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered...
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| Published in | Journal of cachexia, sarcopenia and muscle Vol. 9; no. 3; pp. 540 - 546 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken
John Wiley and Sons Inc
01.06.2018
Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2190-5991 2190-6009 2190-6009 |
| DOI | 10.1002/jcsm.12278 |
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| Abstract | Background
Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by measurement of the steady‐state enrichment of D3‐creatinine (D3‐Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered to the pool of interest. In a subset of human subjects, a small amount of orally administered D3‐Cr ‘spills’ into urine after absorption and prior to transport into skeletal muscle cells. The objectives were to develop a method to correct for spillage to compare the estimate of muscle mass by D3‐Cr dilution to other assessments of fat‐free mass.
Methods
Subjects (19 males, 23–81 years old; 20 females, 20–77 years old) ingested a single dose of 60 mg D3‐Cr and urine was collected prior to and daily for 4 days following the dose. Fasting morning urine samples was assessed for D3‐Cr, total Cr, D3‐Crn, and total Crn concentrations, as well as isotopic enrichments of D3‐Crn, by LC/MS. The 24‐h urine collections over 3 days after the dose of D3‐Cr were also performed to determine D3‐Cr spillage. Total body water, fat mass, and fat‐free mass were assessed by bioelectrical impedance spectroscopy (BIS).
Results
Spillage of D3‐Cr in the urine was greater in women than men. D3‐Crn enrichment and the ratio of Cr/Crn were used in an algorithm to calculate Cr pool size and muscle mass. Specifically, an algorithm was developed for the estimation of spillage based on the relationship between the fasting Cr/Crn ratio and the cumulative proportion of the D3‐Cr dose excreted over 3 days based on 24‐h urine collections. Muscle mass corrected using the algorithm based on fasting urine levels correlated (r = 0.9967, P < 0.0001) with that corrected by measuring D3‐Cr dose excreted. Muscle mass measured by D3‐Crn enrichment also correlated (r = 0.8579, P < 0.0001, algorithm corrected) with that measured by 24‐h Crn excretion. Muscle mass measured by D3‐Cr dilution method correlated with intracellular water by BIS, whether using spillage corrected by the algorithm (r = 0.9041, P < 0.0001) or measured by 3 day D3‐Cr losses (r = 0.91, P < 0.0001) and similarly correlated with fat‐free mass by BIA (r = 0.8857 and 0.8929, P < 0.0001, respectively).
Conclusions
The D3‐Cr dilution method is further validated here as a non‐invasive, easy‐to‐use test for measuring muscle mass. The technical issue of D3‐Cr spillage can be corrected for with a simple algorithm based on fasting spot urine samples. Muscle mass by Cr dilution potentially has broad applications in clinical and research settings. |
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| AbstractList | Background
Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by measurement of the steady‐state enrichment of D3‐creatinine (D3‐Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered to the pool of interest. In a subset of human subjects, a small amount of orally administered D3‐Cr ‘spills’ into urine after absorption and prior to transport into skeletal muscle cells. The objectives were to develop a method to correct for spillage to compare the estimate of muscle mass by D3‐Cr dilution to other assessments of fat‐free mass.
Methods
Subjects (19 males, 23–81 years old; 20 females, 20–77 years old) ingested a single dose of 60 mg D3‐Cr and urine was collected prior to and daily for 4 days following the dose. Fasting morning urine samples was assessed for D3‐Cr, total Cr, D3‐Crn, and total Crn concentrations, as well as isotopic enrichments of D3‐Crn, by LC/MS. The 24‐h urine collections over 3 days after the dose of D3‐Cr were also performed to determine D3‐Cr spillage. Total body water, fat mass, and fat‐free mass were assessed by bioelectrical impedance spectroscopy (BIS).
Results
Spillage of D3‐Cr in the urine was greater in women than men. D3‐Crn enrichment and the ratio of Cr/Crn were used in an algorithm to calculate Cr pool size and muscle mass. Specifically, an algorithm was developed for the estimation of spillage based on the relationship between the fasting Cr/Crn ratio and the cumulative proportion of the D3‐Cr dose excreted over 3 days based on 24‐h urine collections. Muscle mass corrected using the algorithm based on fasting urine levels correlated (r = 0.9967, P < 0.0001) with that corrected by measuring D3‐Cr dose excreted. Muscle mass measured by D3‐Crn enrichment also correlated (r = 0.8579, P < 0.0001, algorithm corrected) with that measured by 24‐h Crn excretion. Muscle mass measured by D3‐Cr dilution method correlated with intracellular water by BIS, whether using spillage corrected by the algorithm (r = 0.9041, P < 0.0001) or measured by 3 day D3‐Cr losses (r = 0.91, P < 0.0001) and similarly correlated with fat‐free mass by BIA (r = 0.8857 and 0.8929, P < 0.0001, respectively).
Conclusions
The D3‐Cr dilution method is further validated here as a non‐invasive, easy‐to‐use test for measuring muscle mass. The technical issue of D3‐Cr spillage can be corrected for with a simple algorithm based on fasting spot urine samples. Muscle mass by Cr dilution potentially has broad applications in clinical and research settings. Abstract Background Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by measurement of the steady‐state enrichment of D3‐creatinine (D3‐Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered to the pool of interest. In a subset of human subjects, a small amount of orally administered D3‐Cr ‘spills’ into urine after absorption and prior to transport into skeletal muscle cells. The objectives were to develop a method to correct for spillage to compare the estimate of muscle mass by D3‐Cr dilution to other assessments of fat‐free mass. Methods Subjects (19 males, 23–81 years old; 20 females, 20–77 years old) ingested a single dose of 60 mg D3‐Cr and urine was collected prior to and daily for 4 days following the dose. Fasting morning urine samples was assessed for D3‐Cr, total Cr, D3‐Crn, and total Crn concentrations, as well as isotopic enrichments of D3‐Crn, by LC/MS. The 24‐h urine collections over 3 days after the dose of D3‐Cr were also performed to determine D3‐Cr spillage. Total body water, fat mass, and fat‐free mass were assessed by bioelectrical impedance spectroscopy (BIS). Results Spillage of D3‐Cr in the urine was greater in women than men. D3‐Crn enrichment and the ratio of Cr/Crn were used in an algorithm to calculate Cr pool size and muscle mass. Specifically, an algorithm was developed for the estimation of spillage based on the relationship between the fasting Cr/Crn ratio and the cumulative proportion of the D3‐Cr dose excreted over 3 days based on 24‐h urine collections. Muscle mass corrected using the algorithm based on fasting urine levels correlated (r = 0.9967, P < 0.0001) with that corrected by measuring D3‐Cr dose excreted. Muscle mass measured by D3‐Crn enrichment also correlated (r = 0.8579, P < 0.0001, algorithm corrected) with that measured by 24‐h Crn excretion. Muscle mass measured by D3‐Cr dilution method correlated with intracellular water by BIS, whether using spillage corrected by the algorithm (r = 0.9041, P < 0.0001) or measured by 3 day D3‐Cr losses (r = 0.91, P < 0.0001) and similarly correlated with fat‐free mass by BIA (r = 0.8857 and 0.8929, P < 0.0001, respectively). Conclusions The D3‐Cr dilution method is further validated here as a non‐invasive, easy‐to‐use test for measuring muscle mass. The technical issue of D3‐Cr spillage can be corrected for with a simple algorithm based on fasting spot urine samples. Muscle mass by Cr dilution potentially has broad applications in clinical and research settings. Muscle mass can be measured directly in vivo by isotope dilution, using Creatine-(methyl-d3 ) monohydrate (D3 -Cr) by mouth followed by measurement of the steady-state enrichment of D3 -creatinine (D3 -Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered to the pool of interest. In a subset of human subjects, a small amount of orally administered D3 -Cr 'spills' into urine after absorption and prior to transport into skeletal muscle cells. The objectives were to develop a method to correct for spillage to compare the estimate of muscle mass by D3 -Cr dilution to other assessments of fat-free mass.BACKGROUNDMuscle mass can be measured directly in vivo by isotope dilution, using Creatine-(methyl-d3 ) monohydrate (D3 -Cr) by mouth followed by measurement of the steady-state enrichment of D3 -creatinine (D3 -Crn) in urine. Isotope dilution methods require knowledge of the amount of tracer delivered to the pool of interest. In a subset of human subjects, a small amount of orally administered D3 -Cr 'spills' into urine after absorption and prior to transport into skeletal muscle cells. The objectives were to develop a method to correct for spillage to compare the estimate of muscle mass by D3 -Cr dilution to other assessments of fat-free mass.Subjects (19 males, 23-81 years old; 20 females, 20-77 years old) ingested a single dose of 60 mg D3 -Cr and urine was collected prior to and daily for 4 days following the dose. Fasting morning urine samples was assessed for D3 -Cr, total Cr, D3 -Crn, and total Crn concentrations, as well as isotopic enrichments of D3 -Crn, by LC/MS. The 24-h urine collections over 3 days after the dose of D3 -Cr were also performed to determine D3 -Cr spillage. Total body water, fat mass, and fat-free mass were assessed by bioelectrical impedance spectroscopy (BIS).METHODSSubjects (19 males, 23-81 years old; 20 females, 20-77 years old) ingested a single dose of 60 mg D3 -Cr and urine was collected prior to and daily for 4 days following the dose. Fasting morning urine samples was assessed for D3 -Cr, total Cr, D3 -Crn, and total Crn concentrations, as well as isotopic enrichments of D3 -Crn, by LC/MS. The 24-h urine collections over 3 days after the dose of D3 -Cr were also performed to determine D3 -Cr spillage. Total body water, fat mass, and fat-free mass were assessed by bioelectrical impedance spectroscopy (BIS).Spillage of D3 -Cr in the urine was greater in women than men. D3 -Crn enrichment and the ratio of Cr/Crn were used in an algorithm to calculate Cr pool size and muscle mass. Specifically, an algorithm was developed for the estimation of spillage based on the relationship between the fasting Cr/Crn ratio and the cumulative proportion of the D3 -Cr dose excreted over 3 days based on 24-h urine collections. Muscle mass corrected using the algorithm based on fasting urine levels correlated (r = 0.9967, P < 0.0001) with that corrected by measuring D3 -Cr dose excreted. Muscle mass measured by D3 -Crn enrichment also correlated (r = 0.8579, P < 0.0001, algorithm corrected) with that measured by 24-h Crn excretion. Muscle mass measured by D3 -Cr dilution method correlated with intracellular water by BIS, whether using spillage corrected by the algorithm (r = 0.9041, P < 0.0001) or measured by 3 day D3 -Cr losses (r = 0.91, P < 0.0001) and similarly correlated with fat-free mass by BIA (r = 0.8857 and 0.8929, P < 0.0001, respectively).RESULTSSpillage of D3 -Cr in the urine was greater in women than men. D3 -Crn enrichment and the ratio of Cr/Crn were used in an algorithm to calculate Cr pool size and muscle mass. Specifically, an algorithm was developed for the estimation of spillage based on the relationship between the fasting Cr/Crn ratio and the cumulative proportion of the D3 -Cr dose excreted over 3 days based on 24-h urine collections. Muscle mass corrected using the algorithm based on fasting urine levels correlated (r = 0.9967, P < 0.0001) with that corrected by measuring D3 -Cr dose excreted. Muscle mass measured by D3 -Crn enrichment also correlated (r = 0.8579, P < 0.0001, algorithm corrected) with that measured by 24-h Crn excretion. Muscle mass measured by D3 -Cr dilution method correlated with intracellular water by BIS, whether using spillage corrected by the algorithm (r = 0.9041, P < 0.0001) or measured by 3 day D3 -Cr losses (r = 0.91, P < 0.0001) and similarly correlated with fat-free mass by BIA (r = 0.8857 and 0.8929, P < 0.0001, respectively).The D3 -Cr dilution method is further validated here as a non-invasive, easy-to-use test for measuring muscle mass. The technical issue of D3 -Cr spillage can be corrected for with a simple algorithm based on fasting spot urine samples. Muscle mass by Cr dilution potentially has broad applications in clinical and research settings.CONCLUSIONSThe D3 -Cr dilution method is further validated here as a non-invasive, easy-to-use test for measuring muscle mass. The technical issue of D3 -Cr spillage can be corrected for with a simple algorithm based on fasting spot urine samples. Muscle mass by Cr dilution potentially has broad applications in clinical and research settings. |
| Author | Hellerstein, Marc K. Wong, Po‐yin Anne Killion, Salena Shankaran, Mahalakshmi Evans, William J. Fessler, Chancy Turner, Scott M. Czerwieniec, Gregg |
| AuthorAffiliation | 1 Department of Nutritional Sciences and Toxicology University of California Berkeley CA 94720 USA 2 KineMed, Inc. Emeryville CA 94608 USA |
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| Copyright | 2018 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of the Society on Sarcopenia, Cachexia and Wasting Disorders 2018 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of the Society on Sarcopenia, Cachexia and Wasting Disorders. |
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| References | 1975; 24 2014; 116 2015; 6 2013; 4 2012; 112 2017; 71 1983; 37 2013; 115 2011; 40 1998; 163 |
| References_xml | – volume: 6 start-page: 315 year: 2015 end-page: 316 article-title: Ethical guidelines for publishing in the Journal of Cachexia, Sarcopenia and Muscle: update 2015 publication-title: J Cachexia Sarcopenia Muscle – volume: 24 start-page: 721 year: 1975 end-page: 735 article-title: Labile methyl balances for normal humans on various dietary regimens publication-title: Metabolism – volume: 40 start-page: 1325 year: 2011 end-page: 1331 article-title: The metabolic burden of creatine synthesis publication-title: Amino Acids – volume: 4 start-page: 217 year: 2013 end-page: 223 article-title: Longitudinal changes in total body creatine pool size and skeletal muscle mass using the D ‐creatine dilution method publication-title: J Cachexia Sarcopenia Muscle – volume: 37 start-page: 478 year: 1983 end-page: 494 article-title: Measurement of muscle mass in humans: validity of the 24‐hour urinary creatinine method publication-title: Am J Clin Nutr – volume: 115 start-page: 812 year: 2013 end-page: 818 article-title: Comparison of single‐or multifrequency bioelectrical impedance analysis and spectroscopy for assessment of appendicular skeletal muscle in the elderly publication-title: J Appl Physiol (1985). – volume: 163 start-page: 279 year: 1998 end-page: 287 article-title: Creatine supplementation enhances maximum voluntary isometric force and endurance capacity in resistance trained men publication-title: Acta Physiol Scand – volume: 71 start-page: 1061 year: 2017 end-page: 1067 article-title: Quantification of whole‐body and segmental skeletal muscle mass using phase‐sensitive 8‐electrode medical bioelectrical impedance devices publication-title: Eur J Clin Nutr – volume: 112 start-page: 1940 year: 2012 end-page: 1948 article-title: Total‐body creatine pool size and skeletal muscle mass determination by creatine‐(methyl‐D3) dilution in rats publication-title: J Appl Physiol (1985) – volume: 116 start-page: 1605 year: 2014 end-page: 1613 article-title: Total body skeletal muscle mass: estimation by creatine (methyl‐d3) dilution in humans publication-title: J Appl Physiol (1985) |
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| Snippet | Background
Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by measurement of... Muscle mass can be measured directly in vivo by isotope dilution, using Creatine-(methyl-d3 ) monohydrate (D3 -Cr) by mouth followed by measurement of the... Abstract Background Muscle mass can be measured directly in vivo by isotope dilution, using Creatine‐(methyl‐d3) monohydrate (D3‐Cr) by mouth followed by... |
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| SubjectTerms | Body composition Creatine Creatinine Muscle mass Original Urine |
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| Title | Dilution of oral D3‐Creatine to measure creatine pool size and estimate skeletal muscle mass: development of a correction algorithm |
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