Glycaemia and phosphatemia after oral glucose and maltitol ingestion in subjects from two different race groups: preliminary evidence of inter-race differences in metabolism and possible implications for urinary stone disease
Purpose Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosp...
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| Published in | International urology and nephrology Vol. 49; no. 8; pp. 1369 - 1374 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.08.2017
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0301-1623 1573-2584 1573-2584 |
| DOI | 10.1007/s11255-017-1623-x |
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| Abstract | Purpose
Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis.
Methods
Healthy black (B) (
n
= 8) and white (W) (
n
= 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period.
Results
Following Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l).
Conclusions
Our results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups. |
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| AbstractList | Purpose Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis. Methods Healthy black (B) (n = 8) and white (W) (n = 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period. Results Following Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l). Conclusions Our results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups. Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis. Healthy black (B) (n = 8) and white (W) (n = 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period. Following Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l). Our results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups. Purpose Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis. Methods Healthy black (B) ( n = 8) and white (W) ( n = 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period. Results Following Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l). Conclusions Our results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups. Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis.PURPOSEGlucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism. Inter-race differences in carbohydrate metabolism are known. We investigated the effects of Glu and Mal ingestion on glycaemia and phosphatemia in subjects from two race groups to better understand potential implications for nephrolithiasis.Healthy black (B) (n = 8) and white (W) (n = 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period.METHODSHealthy black (B) (n = 8) and white (W) (n = 8) males followed a self-selected standardized diet for 7 days and a strictly controlled standardized diet on Day 8. After an overnight fast, subjects provided blood samples prior to and 30 min after ingestion of a randomly assigned solution of Glu or Mal. Blood Glu and serum phosphate were measured. Protocols were swapped after a 1-week washout period.Following Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l).RESULTSFollowing Glu ingestion, glycaemia increased significantly in W (4.8 vs 6.2 mmol/l) but not in B (4.7 vs 5.3 mmol/l) while phosphatemia decreased significantly in B (1.16 vs 1.01 mmol/l) but not in W (1.24 vs 1.15 mmol/l). After Mal ingestion, glycaemia increased significantly in B (4.7 vs 5.2 mmol/l) but not in W (4.6 vs 5.9 mmol/l), while phosphatemia decreased significantly in W (1.24 vs 1.18 mmol/l) but not in B (1.17 vs 1.06 mmol/l).Our results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups.CONCLUSIONSOur results suggest that enzymes which regulate glycolysis may be less active in B than in W, or expression of renal transcellular Glu transporters may be relatively inhibited in B. Effects on phosphatemia are carbohydrate- and race-dependent, thereby prohibiting speculation of a general algorithm linking these variables. Inter-race differences in metabolic handling of carbohydrates might impact on respective nephrolithiasis risk factors in such groups. |
| Author | Theka, Takalani Rodgers, Allen |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28526969$$D View this record in MEDLINE/PubMed |
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| Keywords | Phosphatemia Glycaemia Nephrolithiasis Polyol ingestion Racial metabolic differences |
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10.1016/j.jsps.2015.01.009 – volume: 36 start-page: 753 issue: 5 year: 2004 ident: 1623_CR23 publication-title: Int J Biochem Cell Biol doi: 10.1016/j.biocel.2003.10.002 – volume: 38 start-page: 459 year: 2010 ident: 1623_CR3 publication-title: Urol Res doi: 10.1007/s00240-010-0320-3 – reference: 24637025 - J Biol Chem. 2014 May 2;289(18):12189-94 – reference: 6746323 - Hum Nutr Clin Nutr. 1984 May;38(3):215-22 – reference: 20967436 - Urol Res. 2010 Dec;38(6):459-67 – reference: 1201102 - Biochem Biophys Res Commun. 1975 Dec 15;67(4):1567-74 – reference: 24642779 - Eur J Clin Nutr. 2014 May;68(5):575-80 – reference: 16603143 - Clin Chim Acta. 2006 Sep;371(1-2):55-60 – reference: 16306358 - Diabetes. 2005 Dec;54(12):3427-34 – reference: 12487742 - Scand J Urol Nephrol. 2002;36(5):368-72 – reference: 15061128 - Int J Biochem Cell Biol. 2004 May;36(5):753-8 – reference: 1802977 - J Nutr Sci Vitaminol (Tokyo). 1991 Oct;37(5):529-44 – reference: 4745541 - Klin Wochenschr. 1973 May 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Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a... Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a mechanism.... Purpose Glucose (Glu) and maltitol (Mal) ingestion affect calciuria and phosphaturia. Renal phosphate leak involving hypophosphatemia is thought to be a... |
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| SubjectTerms | Administration, Oral Adolescent Adult African Continental Ancestry Group Blood glucose Blood Glucose - metabolism Calciuria Carbohydrate metabolism Carbohydrates Cross-Over Studies Enzymes European Continental Ancestry Group Glucose - administration & dosage Glucose - metabolism Glycolysis Humans Hypophosphatemia Kidneys Male Maltose - administration & dosage Maltose - analogs & derivatives Maltose - metabolism Medicine Medicine & Public Health Metabolism Nephrolithiasis Nephrolithiasis - ethnology Nephrology Phosphatemia Phosphates Phosphates - blood Phosphaturia Racial differences Random Allocation Risk Factors South Africa - epidemiology Sugar Alcohols - administration & dosage Sugar Alcohols - metabolism Sweetening Agents - administration & dosage Sweetening Agents - metabolism Urology Urology - Original Paper Young Adult |
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| Title | Glycaemia and phosphatemia after oral glucose and maltitol ingestion in subjects from two different race groups: preliminary evidence of inter-race differences in metabolism and possible implications for urinary stone disease |
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