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Yeni Tanı Almış Tip 2 Diyabetik Hastalarda 24 Saatlik İdrarda Sodyum Atılımı ile İlişkili Olan Demografik, Klinik ve Laboratuvar Parametrelerin Değerlendirilmesi

Baseline Demographic, Clinical and Laboratory Parameters Related with 24 Hour Urinary Sodium Excretion in Newly Diagnosed Patients with Type 2 Diabetes

Journal Name:

  • Türk Nefroloji, Diyaliz ve Transplantasyon Dergisi

Publication Year:

  • 2013
DOI: 
DOI 10.5262/tndt.2013.1001.12

Key Words:

Keywords (Original Language):

Author NameUniversity of Author
Abstract (2. Language): 
OBJECTIVE: Hypertension is very frequently observed in patients with Type 2 diabetes. Increased salt intake has been shown to be related with elevated blood pressure. However, factors related with 24 hour urinary sodium (Na) excretion as a measure of Na intake is not specifically addressed in patients with newly diagnosed Type 2 diabetic patients. MA TERIAL and Metho ds: All patients underwent history taking, physical examination, blood pressure measurement, electocardiography, biochemical analysis, spot urine analysis, 24-hour urine collection to measure 24-hour urinary albumin, protein, sodium excretion and creatinine clearance. Res ults : In total, 114 patients were enrolled. Spearman correlation analysis revealed that 24-hour urinary Na excretion was correlated with body mass index (BMI) ( rho: 0.265, p: 0.004). blood urea nitrogen (rho: -0.210, p: 0.025) creatinine clearance (rho: 0.313, p: 0.001), albumin (rho: 0.320, p: 0.001), hemoglobin (rho: 0.242, p: 0.013) and triglyceride (rho: 0.261, p: 0.008). Linear regression of independent factors revealed that BMI (B: 0.013, CI: 0.004-0.022, P: 0.004), presence of smoking (B: 0.132, CI: 0.02-0.243, P: 0.021), creatinine clearance (B: 0.002, CI: 0.001-0.004, P: 0.012), and triglyceride levels (B: 0.017, CI: 0.009-0.056, P: 0.003) were related with logarithmically converted 24-hour Na excretion. Conclusio n: We demonstrated that BMI, creatinine clearance and serum triglyceride levels were independently associated with 24-hour urinary Na excretion in newly diagnosed Type 2 diabetic patients.
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Abstract (Original Language): 
AMA Ç: Hipertansiyon Tip 2 diyabetli hastalarda sıklıkla görülen bir komplikasyondur. Bu hastalarda artmış tuz alımı hipertansiyon ile ilişkili bulunmuştur. Bununla birlikte literatürde tuz alımının bir göstergesi olarak 24 saatlik idrarda sodyum atılımını özellikle araştıran çalışmalar sınırlıdır. Biz bu çalışmamızda, yeni tanı almış tip 2 diyabetik hastalarda 24 saatlik idrarda sodyum atılımını etkileyen faktörleri araştırmayı amaçladık Gereç ve Yönte mler : Bütün hastaların tıbbı hikâyeleri alındı, fizik muayeneleri yapıldı, kan basınçları ölçüldü, elektrokardiografileri çekildi, biyokimyasal analizleri yapıldı, rutin idrar analizleri yapıldı ve 24 saatlik idrarda albümin, protein, sodyum atlımı ve kreatinin klirensi hesaplandı. Bulgular: Çalışmaya toplam 114 hasta dahil edildi. Spearman korelasyon analizinde 24 saatlik idrar sodyum atılımının vücut kitle indeksi (VKİ) ile (rho: 0,265, p: 0,004), kan üre nitrojeni ile (rho: -0,210, p: 0,025), kreatinin klirensi ile (rho: 0,313, p: 0,001), albümin ile (rho: 0,320, p: 0,001, hemoglobin ile (rho: 0,242, p: 0,013) ve trigliserid düzeyleri ile (rho: 0,261, p: 0,008) korrele olduğu görüldü. Doğrusal regresyon analizinde VKİ (B: 0,013, CI: 0.004-0,022, P: 0,004), sigara içme durumu (B: 0,132, CI: 0,02-0,243, P: 0,021), kreatinin klirensi (B: 0,002, CI: 0,001-0,004, P: 0,012)ve trigliserid düzeylerinin (B: 0,017, CI: 0,009-0,056, P: 0,003), 24 saatlik idrar sodyum atılımının bağımsız öngörücüleri olduğu bulundu. Sonuç: Çalışmamızda yeni tanı almış Tip 2 diyabetik hastalarda VKİ, kreatinin klirensi ve trigliserid düzeylerinin 24 saatlik idrar sodyum atılımı ile bağımsız olarak ilişkili oldugu saptandı.
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REFERENCES

References: 

1. Arauz-Pacheco C, Parrott MA, Raskin P; American Diabetes
Association: Treatment of hypertension in adults with diabetes.
Diabetes Care 2003; 26: S80–S82
2. O’Hare JA, Ferriss JB, Brady D, Twomey B, O’Sullivan DJ:
Exchangeable sodium and renin in hypertensive diabetic patients
with and without nephropathy. Hypertension 1985; 7: 1143-1148
3. Beretta-Piccoli C, Weidmann P: Body sodium-blood volume state
in nonazotemic diabetes mellitus. Miner Electrolyte Metab 1982; 7:
36-47
4. Strojek K, Grzeszczak W, Lacka B, Gorska J, Keller CK, Ritz E:
Increased prevalence of salt sensitivity of blood pressure in IDDM
with and without microalbuminuria. Diabetologia 1995; 38 (12):
1443-1448
5. Tuck M, Corry D, Trujillo A: Salt-sensitive blood pressure and
exaggerated vascular reactivity in the hypertension of diabetes
mellitus. Am J Med 1990; 88: 210-216
6. Houlihan CA, Allen TJ, Baxter AL, Panangiotopoulos S, Casley DJ,
Cooper ME, Jerums G: A low-sodium diet potentiates the effects of
losartan in type 2 diabetes. Diabetes Care 2002; 25: 663-671
7. Ekinci EI, Thomas G, MacIsaac RJ, Johnson C, Houlihan C,
Panagiotopoulos S, Premaratne E, Hao H, Finch S, O’Callaghan C,
Jerums G: Salt supplementation blunts the blood pressure response
to telmisartan with or without hydrochlorothiazide in hypertensive
patients with type 2 diabetes. Diabetologia 2010; 53: 1295-1303
8. Hu G, Jousilahti P, Peltonen M, Lindström J, Tuomilehto J: Urinary
sodium and potassium excretion and the risk of type 2 diabetes: A
prospective study in Finland. Diabetologia 2005; 48: 1477-1483
9. Report of the Expert Committee on the Diagnosis and Classification
of Diabetes Mellitus. Diabetes Care 1997; 20: 1183-1197
10. Junge W, Wilke B, Halabi A, Klein G: Determination of reference
intervals for serum creatinine, creatinine excretion and creatinine
clearance with an enzymatic and a modified Jaffe method. Clin
Chim Acta 2004; 344: 137-148
11. Chobanian AV, Bakris GL, Black HR, Cushman WC, Green LA,
Izzo JL Jr, Jones DW, Materson BJ, Oparil S, Wright JT Jr, Roccella
EJ; Joint National Committee on Prevention, Detection, Evaluation,
and Treatment of High Blood Pressure: National Heart, Lung, and
Blood Institute; National High Blood Pressure Education Program
Coordinating Committee: Seventh report of the Joint National
Committee on Prevention, Detection, Evaluation, and Treatment of
High Blood Pressure. Hypertension 2003; 42: 1206-1252
12. Matthews DR, Hosker JP, Rudenski AS, Naylor BA, Treacher DF,
Turner RC: Homeostasis model assessment: Insulin resistance
and beta-cell function from fasting plasma glucose and insulin
concentrations in man. Diabetologia 1985;28: 412-419
13. Julius S: The evidence for a pathophysiologic significance of the
sympathetic overactivity in hypertension. Clin Exper Hypertens
1996; 18: 305-321
14. Price DA, De’Oliveira JM, Fisher ND, Williams GH, Hollenberg
NK: The state and responsiveness of the renin-angiotensinaldosterone
system in patients with type II diabetes mellitus. Am J
Hypertens 1999; 12: 348-355
15. Tsuchida H, Imai G, Shima Y, Satoh T, Owada S: Mechanism
of sodium load-induced hypertension in non-insulin dependent
diabetes mellitus model rats: Defective dopaminergic system to
inhibit Na-K-ATPase activity in renal epithelial cells. Hypertens
Res 2001; 24: 127-135
16. Trujillo A, Eggena P, Barrett J, Tuck M: Renin regulation in type II
diabetes mellitus: Influence of dietary sodium. Hypertension 1989;
13: 200-205
17. Allen TJ, Cooper ME, O’Brien RC, Bach LA, Jackson B, Jerums G:
Glomerular filtration rate in streptozocin-induced diabetic rats: Role
of exchangeable sodium, vasoactive hormones, and insulin therapy.
Diabetes 1990; 39: 1182-1190
18. Pruijm M, Wuerzner G, Maillard M, Bovet P, Renaud C, Bochud
M, Burnier M: Glomerular hyperfiltration and increased proximal
sodium reabsorption in subjects with type 2 diabetes or impaired
fasting glucose in a population of the African region. Nephrol Dial
Transplant 2010; 25: 2225-2231
19. Skøtt P, Vaag A, Bruun NE, Hother-Nielsen O, Gall MA, Beck-
Nielsen H, Parving HH: Effect of insulin on renal sodium handling
in hyperinsulinaemic type 2 (non-insulin-dependent) diabetic
patients with peripheral insulin resistance. Diabetologia 1991; 34:
275-281
20. Gans ROB, Bilo HJG, Nauta JJP, Heine RJ, Donker AJ: Acute
hyperinsulinemia induces sodium retention and a blood pressure
decline in diabetes mellitus. Hypertension 1992; 20: 199-209
21. Mbanya JC, Thomas TH, Taylor R, Alberti KG, Wilkinson R:
Increased proximal tubular sodium reabsorption in hypertensive
patients with type 2 diabetes. Diabet Med 1989; 6: 614-620
22. Elliott P, Stamler J, Nichols R, Dyer AR, Stamler R, Kesteloot H,
Marmot M: Intersalt revisited: Further analyses of 24 hour sodium
excretion and blood pressure within and across populations. Intersalt
Cooperative Research Group. BMJ 1996; 312: 1249-1253
23. Ortega RM, López-Sobaler AM, Ballesteros JM, Pérez-Farinós N,
Rodríguez-Rodríguez E, Aparicio A, Perea JM, Andres P: Estimation
of salt intake by 24 h urinary sodium excretion in a representative
sample of Spanish adults. Br J Nutr 2011;105: 787-794
24. Krikken JA, Lely AT, Bakker SJ, Navis G: The effect of a shift in
sodium intake on renal hemodynamics is determined by body mass
index in healthy young men. Kidney Int 2007;71: 260-265
25. Sharma AM, Ruland K, Spies KP, Distler A: Salt sensitivity in
young normotensive subjects is associated with a hyperinsulinemic
response to oral glucose. J Hypertens 1991; 9: 329-335
26. Giner V, Coca A, de la Sierra A: Increased insulin resistance in
salt sensitive essential hypertension. J Hum Hypertens 2001; 15:
481-485
27. Vedovato M, Lepore G, Coracina A, Dodesini AR, Jori E, Tiengo A,
Del Prato M, Trevisan S: Effect of sodium intake on blood pressure
and albuminuria in Type 2 diabetic patients: The role of insulin
resistance. Diabetologia 2004; 47: 300-303
28. Singh SK, Sarkar D, Agrawal JK: Insulin resistance and urinary
excretion of sodium in hypertensive patients with non-insulin
dependent diabetes mellitus. J Assoc Physicians India 1999; 47:
709-701
29. Melander O, Groop L, Hulthen UL: Effect of salt on insulin
sensitivity differs according to gender and degree of salt sensitivity.
Hypertension 2000; 35: 827-883
30. Stamler J, Rains-Clearman D, Lenz-Litzow K, Tillotson JL, Grandits
GA: Relation of smoking at baseline and during trial years 1–6 to
food and nutrient intakes and weight in the special intervention and
usual care groups in the Multiple Risk Factor Intervention Trial. Am
J Clin Nutr 1997; 65: 374S-402S
31. Dallongeville J, Marecaux N, Fruchart JC, Amouyel P: Cigarette
smoking is associated with unhealthy patterns of nutrient intake: A
meta-analysis. J Nutr 1998; 128: 1450-1457
32. Dyer AR, Elliott P, Stamler J, Chan Q, Ueshima H, Zhou BF;
INTERMAP Research Group: Dietary intake in male and female
smokers, ex-smokers, and never smokers: INTERMAP study. J
Hum Hypertens 2003; 17: 641-654
33. Cundiff DK: Alcohol and tobacco use: Analysis of data from the
diabetic control and complications trial, a randomized study. Med
Gen Med 2002; 4: 2
34. Zondervan KT, Ocke MC, Smit HA, Seidell JC: Do dietary and
supplementary intakes of antioxidants differ with smoking status?
Int J Epidemiol 1996; 25: 70-79

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