You are here

Hiponatremi; Güncel Tanı ve Tedavisi

Hyponatremia; Current Diagnosis and Treatment

Journal Name:

Publication Year:

DOI: 
10.5262/tndt.2011.1002.02
Abstract (2. Language): 
Hyponatremia is the most common electrolyte abnormality encountered in clinical practice. The symptoms of hyponatraemia are largely dependent on the rapidity of the development of hyponatraemia. Acute symptomatic hyponatremia is a serious clinical situation. The pathogenesis of hyponatremia has been found to occur secondary to the nonosmotic secretion of ADH in over 95% of cases. In other words, hyponatremia caused by more water imbalance than sodium imbalance in the majority of cases. Pseudohyponatremia(elevation of lipids or proteins in plasma causing artifactual decrease in serum sodium concentration) and translocational hyponatremia(the additional solutes in plasma such as glucose, mannitol and radiographic contrast agent causing osmotic shift of water from intracellular fluid to extracellular fluid) that are not associated excess are excluded on the first step in the differential diagnosis of hyponatraemia. While only fluid restriction is sufficient for treatment of asymptomatic patients, emergency treatment should be given in symptomatic patients. Recently ADH receptor antagonists have been used as an alternative treatment of saline infusion in the treatment of euvolemic and hypervolemic hyponatremia. Correction rate of sodium should be 0,5-1mEq/L/h in the treatment of hyponatremia. Rapidly correction should be avoided in hyponatraemia, because it can lead to celebral hemorrhage and central pontine myelinolysis.
Abstract (Original Language): 
Hiponatremi; klinik uygulamada en sık görülen elektrolit bozukluğudur. Olguların çoğunluğu asemptomatiktir. Klinik belirtileri büyük ölçüde oluşum hızına bağlıdır. Akut semptomatik hiponatremi ciddi klinik bir durumdur. Patogenezde % 95 olguda antidiüretik hormonun (ADH) nonozmotik salgılanmasının sorumlu temel mekanizma olduğu saptanmıştır. Yani olgularının çoğunda neden sodyum dengesizliğinden çok, su dengesizliğidir. Tanıda öncelikle hiponatreminin su fazlasıyla ilişkili olmayan psödohiponatremi (yüksek düzeylerde plazma lipidleri veya proteinleri serum sodyum yoğunluğunu azaltır) ve translokasyonel hiponatremiden (radyografik kontrast madde, glikoz, glisin ve mannitol gibi hiperozmolar maddelerin hücre içinden, hücre dışına ozmotik olarak su kaydırması) ayırımının yapılması gerekir. Tedavide asemptomatik olgularda sadece sıvı kısıtlaması (0,8 L/gün) yeterli olurken semptomatik olgularda acil tedavi (%3’lük hipertonik tuzlu su infüzyonu) yapılması gerekir. Son yıllarda övolemik ve hipervolemik hiponatremi tedavisinde tuzlu su (% 09 NaCl) infüzyonuna seçenek olarak ADH reseptör antagonistleri klinik kullanıma girmiştir. Hiponatremi tedavisinde serum sodyumunu düzeltme hızı 0,5-1 mEq/L/saat olmalıdır. Daha hızlı düzeltilirse santral pontin miyelinolizis ve beyin kanaması oluşabilir. Bu yüzden hiponatremi tedavisi mümkün olduğu kadar yavaş ve kontrollü yapılmalıdır.
115-131

REFERENCES

References: 

1. Upadhyay A, Jaber BL, Madias NE: Incidence and prevalence of
hyponatremia. Am J Med 2006; 119 (1): 30-35
2. Hoorn EJ, Lindemans J, Zietse R: Development of severe
hyponatraemia in hospitalized patients: Treatment-related risk
factors and inadequate management. Nephrol Dial Transplant 2006;
21: 70-76
3. Anderson RJ, Chung HM, Kluge R, Schrier RW: Hyponatremia: A
prospective analysis of its epidemiology and the pathogenetic role
of vasopressin. Ann Intern Med 1985; 102: 164-168
4. Schrier RW, Berl T, Anderson RJ: Osmotic and nonosmotic control
of vasopressin release. Am J Physiol 1979; 236: 321-332
5. Rennke HG: Böbrek Fizyopatolojisi: Temel Bilgiler. Çev.: Ecder T.
İstanbul: Medikal Yayıncılık, 2008; 69-98
6. Rose BD, Post TW: Clinical Physiology of Acid-Base and
Electrolyte Disorders, (5th ed). New York: McGraw-Hill, 2001;
607-608
7. Hoffman RS, Smilkstein MJ, Howland MA, Goldfrank LR: Osmole
gaps revisited: Normal values and limitations. J Toxicol Clin
Toxicol 1993; 31: 81-93
8. Purssell RA, Lynd LD, Koga Y: The use of the osmole gap as a
screening test for the presence of exogenous substances. Toxicol
Rev 2004; 23: 189-202
9. Reddy P, Mooradian AD: Diagnosis and management of
hyponatraemia in hospitalised patients. Int J Clin Pract 2009; 63:
10, 1494-1508
10. Sterns R: Sodium and water balance disorders. Neph SAP 2006; 5:
35-50
11. Greger R: Physiology of renal sodium transport. Am J Med Sci
2000; 319: 51-62
12. Skott O, Jensen BL: Cellular and intrarenal control of renin
secretion. Clin Sci 1993; 84: 1-10
13. Peach MJ: Renin-angiotensin system: Biochemistry and mechanisms
of action. Physiol Rev 1977; 57: 313-370
14. Millar J, Leckie B, Semple P: Different responses of active and
inactive plasma renin to various stimuli. Clin Sci Mol Med 1978;
55: 155-157
15. Reid IA: The renin-angiotensin system and body function. Arch
Intern Med 1985; 145: 1475-1479
16. Agre P: Homer W. Smith award lecture. Aquaporin water channels
in kidney. J Am Soc Nephrol 2000; 11: 764-777
17. Sagnella GA, Markandu ND, Buckley MG, Miller MA, Singer DR,
MacGregor GA: Hormonal responses to gradual changes in dietary
sodium intake in humans. Am J Physiol 1989; 256: 1171-1175
18. Linas SL, Anderson RJ, Guggenheim SJ, Robertson GL, Berl T:
Role of vasopressin in impaired water excretion in conscious rats
with experimental cirrhosis. Kidney Int 1981; 20: 173-180
19. Yaron M, Bennett CM: Mechanism of impaired water excretion in
acute right ventricular failure in conscious dogs. Circ Res 1978; 42:
801-805
Yıldız G ve ark: Hiponatremi; Güncel Tanı ve Tedavisi
130 Turk Neph Dial Transpl 2011; 20 (2): 115-131
Türk N efroloji D iyaliz ve Transplantasyon D ergisi
Turkish Nephrology, Dialysis and Transplantation Journal
38. Chow KM, Kwan BC, Szeto CC: Clinical studies of thiazideinduced
hyponatremia. J Natl Med Assoc 2004; 96: 1305-1308
39. Sonnenblick M, Friedlander Y, Rosin AJ: Diuretic induced severe
hyponatremia. Review and analysis of 129 reported patients. Chest
1993; 103: 601-606
40. Zietse R, Zoutendijk R, Hoorn EJ: Fluid, electrolyte and acid-base
disorders associated with antibiotic therapy. Nat Rev Nephrol 2009;
5: 193-202
41. Marples D, Frøkiaer J, Dørup J, Knepper MA, Nielsen S:
Hypokalemia-induced downregulation of aquaporin-2 water
channel expression in rat kidney medulla and cortex. J Clin Invest
1996; 97: 1960-1968
42. Palmer BF: Hyponatremia in patients with central nervous system
disease: SIADH versus CSW. Trends Endocrinol Metab 2003; 14:
182-187
43. Berendes E, Walter M, Cullen P, Prien T, Van Aken H, Horsthemke
J, Schulte M, von Wild K, Scherer R: Secretion of brain natriuretic
peptide in patients with aneurysmal subarachnoid hemorrhage.
Lancet 1997; 349: 245-249
44. Zogheri A, Di Mambro A, Mannelli M, Serio M, Forti G, Peri
A: Hyponatremia and pituitary adenoma: Think twice about the
etiopathogenesis. J Endocrinol Invest 2006; 29: 750-753
45. Schrier RW: Body water homeostasis: Clinical disorders of urinary
dilution and concentration. J Am Soc Nephrol 2006; 17: 1820-1832
46.Perianayagam A, Sterns RH, Silver SM, Grieff M, Mayo R, Hix
J, Kouides R: DDAVP is effective in preventing and reversing
inadvertent overcorrection of hyponatremia. Clin J Am Soc Nephrol
2008; 3: 331-336
47. Benedict CR, Johnstone DE, Weiner DH, Bourassa MG, Bittner
V, Kay R, Kirlin P, Greenberg B, Kohn RM, Nicklas JM: Relation
of neurohumoral activation to clinical variables and degree of
ventricular dysfunction: A report from the registry of Studies of Left
Ventricular Dysfunction. J Am Coll Cardiol 1994; 23: 1410-1420
48. Vallance P, Moncada S: Hyperdynamic circulation in cirrhosis: A
role for nitric oxide? Lancet 1991; 337: 776-778
49. Udelson JE, Smith WB, Hendrix GH, Painchaud CA, Ghazzi M,
Thomas I, Ghali JK, Selaru P, Chanoine F, Pressler ML, Konstam
MA: Acute hemodynamic effects of conivaptan, a dual V1A and
V2 vasopressin receptor antagonist in patients with advanced heart
failure. Circulation 2001; 104: 2417-2423
50. Schrier RW, Gross P, Gheorghiade M, Berl T, Verbalis JG, Czerwiec
FS, Orlandi C SALT Investigators: Tolvaptan, a selective oral
vasopressin V2-receptor antagonist for hyponatremia. N Engl J
Med 2006; 355: 2099-2112
51. Gheorghiade M, Abraham WT, Albert NM, Gattis Stough W,
Greenberg BH, O’Connor CM, She L, Yancy CW, Young J, Fonarow
GC OPTIMIZE-HF Investigators and Coordinators: Relationship
between admission plasma sodium concentration and clinical
outcomes in patients hospitalized for heart failure: An analysis from
the OPTIMIZE- HF registry. Eur Heart J 2007; 28: 980-988
52. Goldberg A, Hammerman H, Petcherski S, Nassar M, Zdorovyak
A, Yalonetsky S, Kapeliovich M, Agmon Y, Beyar R, Markiewicz
W, Aronson D: Hyponatremia and long-term mortality in survivors
of acute ST-elevation myocardial infarction. Arch Intern Med 2006;
166: 781-786
53. Ruf AE, Kremers WK, Chavez LL, Descalzi VI, Podesta LG,
Villamil FG: Addition of serum sodium into the MELD score
predicts waiting list mortality better than MELD alone. Liver
Transpl 2005; 11: 336-343
54. Linas SL, Berl T, Robertson GL, Aisenbrey GA, Schrier RW,
Anderson RJ: Evidence of vasopressin dependent and independent
mechanism in the impaired water excretion of glucucorticoid
deficiency. Kidney Int 1980; 18: 58-67
55. Olchovsky D, Ezra D, Vered I, Hadani M, Shimon I: Symptomatic
hyponatremia as a presenting sign of hypothalamic-pituitary
disease: A syndrome of inappropriate secretion of antidiuretic
hormone (SIADH) like glucocorticosteroid responsive condition. J
Endocrinol Invest 2005; 28: 151-156
56. Riggs AT, Dysken MW, Kim SW, Opsahl JA: A review of disorders
of water homeostasis in psychiatric patients. Psychosomatics 1991;
32: 133-148
57. Kim JK, Summer SN, Schrier RW: Cellular action of arginin
vasoprresin in the isolated renal tubules of hypothyroid rats. Am J
Physiol 1987; 253: 104-110
58. Cadnapaphornchai MA, Kim YW, Gurevich AK, Summer SN,
Falk S, Thurman JM, Schrier RW: Urinary concentrating defect
in hypothyroid rats: Role of sodium, potassium, 2-chloride cotransporter
and aquaporins. J Am Soc Nephrol 2003; 14: 566-574
59. Chen YC, Cadnapaphornchai MA, Yang J, Summer SN, Falk S, Li
C, Wang W, Schrier RW: Nonosmotic release of vasopressin and
renal aquaporins in impaired urinary dilution in hypothyroidism.
Am J Physiol Renal Physiol 2005; 289: 672-678
60. Noakes TD, Sharwood K, Speedy D, Hew T, Reid S, Dugas J,
Almond C, Wharam P, Weschler L: Three independent biological
mechanisms cause exercise-associated hyponatremia: Evidence
from 2,135 weighed competitive athletic performances. Proc Natl
Acad Sci USA 2005; 102(51): 18550-18555
61. Noakes T: Fluid replacement during marathon running. Clin J Sport
Med 2003; 13: 309-318
62. Hew-Butler T, Almond C, Ayus JC, Dugas J, Meeuwisse W, Noakes
T, Reid S, Siegel A, Speedy D, Stuempfle K, Verbalis J, Weschler
L Exercise-Associated Hyponatremia (EAH) Consensus Panel:
Consensus statement of the 1st International Exercise-Associated
Hyponatremia Consensus Development Conference, Cape Town,
South Africa 2005. Clin J Sport Med 2005; 15: 208-213
63. Davis DP, Videen JS, Marino A, Vilke GM, Dunford JV, Van Camp
SP, Maharam LG: Exercise-associated hyponatremia in marathon
runners: A two-year experience. J Emerg Med 2001; 21: 47-57
64. Chung HM, Kluge R, Schrier RW, Anderson RJ: Postoperative
hyponatremia. A prospective study. Arch Intern Med 1986; 146(2):
333-336
131
Türk N efroloji D iyaliz ve Transplantasyon D ergisi Yıldız G ve ark: Hiponatremi; Güncel Tanı ve Tedavisi
Turkish Nephrology, Dialysis and Transplantation Journal
Turk Neph Dial Transpl 2011; 20 (2): 115-131
65. Anderson RJ, Chung HM, Kluge R, Schrier RW: Hyponatremia: A
prospective analysis of its epidemiology and the pathogenetic role
of vasopressin. Ann Intern Med 1985; 102(2): 164-168
66. Robertson GL, Aycinena P, Zerbe RL: Neurogenic disorders of
osmoregulation. Am J Med 1982; 72: 339-353
67. Kahn T: Reset osmostat and salt and water retention in the course of
severe hyponatremia. Medicine 2003; 82: 170-176
68. Feldman BJ, Rosenthal SM, Vargas GA, Fenwick RG, Huang
EA, Matsuda-Abedini M, Lustig RH, Mathias RS, Portale AA,
Miller WL, Gitelman SE: Nephrogenic syndrome of inappropriate
antidiuresis. N Engl J Med 2005; 352: 1884-1890
69. Decaux G, Vandergheynst F, Bouko Y, Parma J, Vassart G, Vilain C:
Nephrogenic syndrome of inappropriate antidiuresis in adults: High
phenotypic variability in men and women from a large pedigree. J
Am Soc Nephrol 2007; 18: 606-612
70. Kokko JP: Symptomatic hyponatremia with hypoxia is a medical
emergency. Kidney Int 2006; 69(8): 1291-1293
71. Lauriat SM, Berl T: The hyponatremic patient: Practical focus on
therapy. J Am Soc Nephrol 1997; 8(10): 1599-1607
72. Musch W, Decaux G: Treating the syndrome of inappropriate ADH
secretion with isotonic saline. QJM 1998; 91: 749-753
73. Adrogue HJ, Madias NE: Hyponatremia. N Engl J Med 2000; 342:
1581-1589
74. Gross P: Treatment of hyponatremia. Inter Med 2008; 47: 885-891
75. Verbalis JG, Goldsmith SR, Greenberg A, Schrier RW, Sterns
RH: Hyponatremia Treatment Guidelines 2007: Expert Panel
recommendations. Am J Med 2007; 120: 1-21
76. Zeltser D, Rosansky S, van Rensburg H, Verbalis JG, Smith N
Conivaptan Study Group: Assessment of the efficacy and safety
of conivaptan in euvolemic and hypervolemic hyponatremia. Am J
Nephrol 2007; 27: 447-457
77. Dunlay SM, Gheorghiade M, Reid KJ, Allen LA, Chan PS,
Hauptman PJ, Zannad F, Maggioni AP, Swedberg K, Konstam MA,
Spertus JA: Critical elements of clinical follow-up after hospital
discharge for heart failure: Insights from the EVEREST trial. Eur J
Heart Fail. 2010; 12: 367-374
78. O’Connor CM, Miller AB, Blair JE, Konstam MA, Wedge P,
Bahit MC, Carson P, Haass M, Hauptman PJ, Metra M, Oren RM,
Patten R, Piña I, Roth S, Sackner-Bernstein JD, Traver B, Cook T,
Gheorghiade M: Causes of death and rehospitalization in patients
hospitalized with worsening heart failure and reduced left ventricular
ejection fraction: Results from efficacy of vasopressin antagonism
in heart failure outcome study with tolvaptan (EVEREST) program.
Am Heart J 2010; 159: 841-849
79. Schrier RW, Gross P, Gheorghiade M, Berl T, Verbalis JG, Czerwiec
FS, Orlandi C SALT Investigators: Tolvaptan, a selective oral
vasopressin V2-receptor antagonist, for hyponatremia. N Engl J
Med 2006; 355: 2099-2112
80. Ghali JK, Koren MJ, Taylor JR, Brooks-Asplund E, Fan K, Long
WA, Smith N: Efficacy and safety of oral conivaptan: A V1A ⁄
V2 vasopressin receptor antagonist, assessed in a randomized,
placebo-controlled trial in patients with euvolemic or hypervolemic
hyponatremia. J Clin Endocrinol Metab 2006; 91: 2145-2152

Thank you for copying data from http://www.arastirmax.com