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Calcium nephrolithiasis: effect of water hardness on urinary electrolytes.
Urology. 2002 Jul; 60(1):23-7.U

Abstract

OBJECTIVES

To analyze the impact of water hardness from public water supplies on calcium stone incidence and 24-hour urine chemistries in patients with known calcium urinary stone formation. Patients are frequently concerned that their public water supply may contribute to urinary stone disease. Investigators have documented an inverse relationship between water hardness and calcium lithogenesis. Others have found no such association.

METHODS

Patients who form calcium stones (n = 4833) were identified geographically by their zip code. Water hardness information from distinct geographic public water supplies was obtained, and patient 24-hour urine chemistries were evaluated. Drinking water hardness was divided into decile rankings on the basis of the public water supply information obtained from the Environmental Protection Agency. These data were compared with patient questionnaires and 24-hour urine chemistries. The calcium and magnesium levels in the drinking water were analyzed as independent variables.

RESULTS

The number of total lifetime stone episodes was similar between patients residing in areas with soft public water and hard public water. Patients consuming the softest water decile formed 3.4 lifetime stones and those who consumed the hardest water developed 3.0 lifetime stones (P = 0.0017). The 24-hour urine calcium, magnesium, and citrate levels increased directly with drinking water hardness, and no significant change was found in urinary oxalate, uric acid, pH, or volume.

CONCLUSIONS

The impact of water hardness on urinary stone formation remains unclear, despite a weak correlation between water hardness and urinary calcium, magnesium, and citrate excretion. Tap water, however, can change urinary electrolytes in patients who form calcium stones.

Authors+Show Affiliations

Schwartz BF
North Texas Center for Laparoscopy and Stone Disease, Fort Worth, Texas 76104 , USA.
Schenkman NS
No affiliation info available
Bruce JE
No affiliation info available
Leslie SW
No affiliation info available
Stoller ML
No affiliation info available

MeSH

AdolescentAdultAge FactorsAgedAmbulatory CareCalciumCalcium CarbonateChildChild, PreschoolElectrolytesFemaleHumansIncidenceMagnesiumMaleMiddle AgedOxalatesSex FactorsUnited StatesUric AcidUrinary CalculiWaterWater SofteningWater Supply

Pub Type(s)

Journal Article

Language

eng

PubMed ID

12100915

Citation

Schwartz, Bradley F., et al. "Calcium Nephrolithiasis: Effect of Water Hardness On Urinary Electrolytes." Urology, vol. 60, no. 1, 2002, pp. 23-7.
Schwartz BF, Schenkman NS, Bruce JE, et al. Calcium nephrolithiasis: effect of water hardness on urinary electrolytes. Urology. 2002;60(1):23-7.
Schwartz, B. F., Schenkman, N. S., Bruce, J. E., Leslie, S. W., & Stoller, M. L. (2002). Calcium nephrolithiasis: effect of water hardness on urinary electrolytes. Urology, 60(1), 23-7.
Schwartz BF, et al. Calcium Nephrolithiasis: Effect of Water Hardness On Urinary Electrolytes. Urology. 2002;60(1):23-7. PubMed PMID: 12100915.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Calcium nephrolithiasis: effect of water hardness on urinary electrolytes. AU - Schwartz,Bradley F, AU - Schenkman,Noah S, AU - Bruce,Jeremy E, AU - Leslie,Stephen W, AU - Stoller,Marshall L, PY - 2002/7/9/pubmed PY - 2002/9/14/medline PY - 2002/7/9/entrez SP - 23 EP - 7 JF - Urology JO - Urology VL - 60 IS - 1 N2 - OBJECTIVES: To analyze the impact of water hardness from public water supplies on calcium stone incidence and 24-hour urine chemistries in patients with known calcium urinary stone formation. Patients are frequently concerned that their public water supply may contribute to urinary stone disease. Investigators have documented an inverse relationship between water hardness and calcium lithogenesis. Others have found no such association. METHODS: Patients who form calcium stones (n = 4833) were identified geographically by their zip code. Water hardness information from distinct geographic public water supplies was obtained, and patient 24-hour urine chemistries were evaluated. Drinking water hardness was divided into decile rankings on the basis of the public water supply information obtained from the Environmental Protection Agency. These data were compared with patient questionnaires and 24-hour urine chemistries. The calcium and magnesium levels in the drinking water were analyzed as independent variables. RESULTS: The number of total lifetime stone episodes was similar between patients residing in areas with soft public water and hard public water. Patients consuming the softest water decile formed 3.4 lifetime stones and those who consumed the hardest water developed 3.0 lifetime stones (P = 0.0017). The 24-hour urine calcium, magnesium, and citrate levels increased directly with drinking water hardness, and no significant change was found in urinary oxalate, uric acid, pH, or volume. CONCLUSIONS: The impact of water hardness on urinary stone formation remains unclear, despite a weak correlation between water hardness and urinary calcium, magnesium, and citrate excretion. Tap water, however, can change urinary electrolytes in patients who form calcium stones. SN - 1527-9995 UR - https://www.unboundmedicine.com/medline/citation/12100915/Calcium_nephrolithiasis:_effect_of_water_hardness_on_urinary_electrolytes_ DB - PRIME DP - Unbound Medicine ER -