Vitamin C-induced Oxalate Nephropathy

Overview

Journal Int J Nephrol

Publisher Wiley

Specialty Nephrology

Date 2011 May 24

PMID 21603151

Citations 35

Authors

Jorge Lamarche

Reji Nair

Alfredo Peguero

Craig Courville

Affiliations

Soon will be listed here.

Abstract

Although a multitude of syndromes have been thoroughly described as a result of vitamin deficiencies, over consumption of such substances may also be quite dangerous. Intratubular crystallization of calcium oxalate as a result of hyperoxaluria can cause acute renal failure. This type of renal failure is known as oxalate nephropathy. Hyperoxaluria occurs as a result of inherited enzymatic deficiencies known as primary hyperoxaluria or from exogenous sources known as secondary hyperoxaluria. Extensive literature has reported and explained the mechanism of increased absorption of oxalate in malabsorptive syndromes leading to renal injury. However, other causes of secondary hyperoxaluria may also take place either via direct dietary consumption of oxalate rich products or via other substances which may metabolize into oxalate within the body. Vitamin C is metabolized to oxalate. Oral or parenteral administration of this vitamin has been used in multiple settings such as an alternative treatment of malignancy or as an immune booster. This article presents a clinical case in which ingestion of high amounts of vitamin C lead to oxalate nephropathy. This article further reviews other previously published cases in order to illustrate and highlight the potential renal harm this vitamin poses if consumed in excessive amounts.

Citing Articles

Acute oxalate nephropathy: exploring the role of excess dietary oxalate intake.

Bothara R, Joga A, Bose S, Thakare S, Bajpai D, Rojekar A CEN Case Rep. 2024; 13(6):468-473.

PMID: 38587605 PMC: 11608182. DOI: 10.1007/s13730-024-00870-6.

Oxalate Nephropathy and the Mechanism of Oxalate-Induced Kidney Injury.

Bao D, Wang Y, Zhao M Kidney Dis (Basel). 2023; 9(6):459-468.

PMID: 38089442 PMC: 10712969. DOI: 10.1159/000533295.

Unraveling the 2,3-diketo-L-gulonic acid-dependent and -independent impacts of L-ascorbic acid on somatic cell reprogramming.

Liang L, He M, Zhang Y, Wang C, Qin Z, Li Q Cell Biosci. 2023; 13(1):218.

PMID: 38037169 PMC: 10688016. DOI: 10.1186/s13578-023-01160-x.

Megadose Vitamin C Prescription Through Alternative Medicine Leading to End-Stage Renal Disease: Case Study and Literature Review.

Roy S, Chourasia P, Sangani V, Errabelli P, Patel S, Adapa S J Investig Med High Impact Case Rep. 2023; 11:23247096231158954.

PMID: 36914980 PMC: 10017928. DOI: 10.1177/23247096231158954.

Acute Kidney Injury From Biopsy-Proven Renal Oxalosis From Excessive Intake of Vitamin C Leading to End-Stage Kidney Disease.

Williams R, Dauleh M, Abendroth C, Kaur G Cureus. 2023; 14(12):e33061.

PMID: 36721621 PMC: 9883020. DOI: 10.7759/cureus.33061.

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