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Water-load reduces desmopressin effect on tubular reabsoption of sodium, ureum and water

Ann De Guchtenaere (UGent) , Johan Vande Walle (UGent) , Ann Raes (UGent) , Jo Dehoorne (UGent) , R Mauel, Erik Van Laecke (UGent) and Piet Hoebeke (UGent)
(2008) PEDIATRIC NEPHROLOGY. 23(9). p.1678-1678
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Chicago
De Guchtenaere, Ann, Johan Vande Walle, Ann Raes, Jo Dehoorne, R Mauel, Erik Van Laecke, and Piet Hoebeke. 2008. “Water-load Reduces Desmopressin Effect on Tubular Reabsoption of Sodium, Ureum and Water.” In Pediatric Nephrology, 23:1678–1678.
APA
De Guchtenaere, A., Vande Walle, J., Raes, A., Dehoorne, J., Mauel, R., Van Laecke, E., & Hoebeke, P. (2008). Water-load reduces desmopressin effect on tubular reabsoption of sodium, ureum and water. PEDIATRIC NEPHROLOGY (Vol. 23, pp. 1678–1678).
Vancouver
1.
De Guchtenaere A, Vande Walle J, Raes A, Dehoorne J, Mauel R, Van Laecke E, et al. Water-load reduces desmopressin effect on tubular reabsoption of sodium, ureum and water. PEDIATRIC NEPHROLOGY. 2008. p. 1678–1678.
MLA
De Guchtenaere, Ann et al. “Water-load Reduces Desmopressin Effect on Tubular Reabsoption of Sodium, Ureum and Water.” Pediatric Nephrology. Vol. 23. 2008. 1678–1678. Print.
@inproceedings{520898,
  author       = {De Guchtenaere, Ann and Vande Walle, Johan and Raes, Ann and Dehoorne, Jo and Mauel, R and Van Laecke, Erik and Hoebeke, Piet},
  booktitle    = {PEDIATRIC NEPHROLOGY},
  issn         = {0931-041X},
  language     = {eng},
  number       = {9},
  pages        = {1678--1678},
  title        = {Water-load reduces desmopressin effect on tubular reabsoption of sodium, ureum and water},
  volume       = {23},
  year         = {2008},
}

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