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STONE
DISEASE
Effect
of vitamin C supplements on urinary oxalate and pH in calcium stone-forming
patients
Baxmann AC, Mendonca COG, Heilberg IP
Nephrology Division, Universidade Federal de Sao Paulo, Unifesp, Brazil
Kidney Int. 2003; 63:1066-71
- Background:
The contribution of ascorbate to urinary oxalate is controversial. The
present study aimed to determine whether urinary oxalate and pH may
be affected by vitamin C supplementation in calcium stone-forming patients.
- Methods:
Forty-seven adult calcium stone-forming patients received either 1 g
(N=23) or 2 g (N=24) of vitamin C supplement for 3 days and 20 healthy
subjects received 1 g. A 24-hour urine sample was obtained both before
and after vitamin C for calcium, oxalate, magnesium, citrate, sodium,
potassium, and creatinine determination. The Tiselius index was used
as a calcium oxalate crystallization index. A spot fasting morning urine
sample was also obtained to determine the urinary pH before and after
vitamin C.
- Results:
Fasting urinary pH did not change after 1 g (5.8 +/- 0.6 vs. 5.8 +/-
0.7) or 2 g vitamin C (5.8 +/- 0.8 vs. 5.8 +/- 0.7). A significant increase
in mean urinary oxalate was observed in calcium stone-forming patients
receiving either 1 g (50 +/- 16 vs. 31 +/- 12 mg/24 hours) or 2 g (48
+/- 21 vs. 34 +/- 12 mg/24 hours) of vitamin C and in healthy subjects
(25 +/- 12 vs. 39 +/- 13 mg/24 hours). A significant increase in mean
Tiselius index was observed in calcium stone-forming patients after
1 g (1.43 +/- 0.70 vs. 0.92 +/- 0.65) or 2 g vitamin C (1.61 +/- 1.05
vs. 0.99 +/- 0.55) and in healthy subjects (1.50 +/- 0.69 vs. 0.91 +/-
0.46). Ancillary analyses of spot urine obtained after vitamin C were
performed in 15 control subjects in vessels with or without ethylenediaminetetraacetic
acid (EDTA) with no difference in urinary oxalate between them (28 +/-
23 vs. 26 +/- 21 mg/L), suggesting that the in vitro conversion of ascorbate
to oxalate did not occur.
- Conclusion:
These data suggest that vitamin C supplementation may increase
urinary oxalate excretion and the risk of calcium oxalate crystallization
in calcium stone-forming patients.
- Editorial
Comment
Ascorbic acid has been implicated in calcium stone formation based on
its conversion to oxalate and its potential urinary acidifying properties.
Numerous studies have evaluated the effect of ascorbic acid consumption
on urinary oxalate and pH in normal subjects and in stone-formers. However,
results have been conflicting because of inaccuracies in measuring oxalate
in the presence of ascorbate, which is readily oxidized to oxalate in
vitro. Historical assays involving heating or alkaline conditions favored
oxidation of unmetabolized ascorbate to oxalate thereby confounding
results.
These authors evaluated the effect of vitamin C supplementation on urinary
oxalate and pH in healthy subjects and stone formers given 1 g (healthy
subjects and stone formers) or 2 g (stone formers) of ascorbic acid
daily for 3 days. Urine collected over a 24-hour period was analyzed
for stone risk factors before and after the administration of vitamin
C, and urine samples were acidified before processing to prevent in
vitro oxidation of ascorbate. Stone formers had higher levels of urinary
oxalate than healthy subjects both at baseline and after vitamin C supplementation.
However, both healthy subjects and stone formers demonstrated a significant
rise in urinary oxalate after 1 g vitamin C consumption, by 56% (14
g) in healthy subjects and by 61% (19 g) in stone formers. Supplementation
with 2 g daily of vitamin C in stone formers resulted in a 41% increase
in urinary oxalate from baseline (from 34 mg/day to 48 mg/day). No change
in urine pH was seen in either group after vitamin C supplementation.
In this study, urine was collected in acid to prevent in vitro oxidation
of ascorbate to oxalate, and under these assay conditions both normal
subjects and stone formers demonstrated a significant increase in urinary
oxalate levels with moderate vitamin C supplementation. Consequently,
the large doses of vitamin C advocated for prevention of the common
cold and to promote anti-aging effects could place both normal subjects
and stone formers at additional risk for calcium oxalate stone formation.
Although stone formers were observed in this study to have higher baseline
levels of oxalate, an observation confirmed by some other investigators,
diet was not carefully controlled in this study and subjects were only
instructed to avoid oxalate- and vitamin C-rich foods. Since urinary
oxalate depends on calcium and oxalate intake and the state of calcium
absorption, the effect of vitamin C intake may be better studied under
conditions of a controlled metabolic diet.
Dr.
Margaret S. Pearle
Associate Professor of Urology
University of Texas Southwestern Med Ctr
Dallas, Texas, USA
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