Mikroalbuminurie und Albuminurie: Differenzialdiagnose und therapeutische Konsequenzen

 

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Zusammenfassung

Eine Mikroalbuminurie oder Albuminurie kann Ausdruck einer generalisierten Gefäßschädigung oder einer Nierenerkrankung sein. Die Prävalenz einer Mikroalbuminurie liegt in der Bevölkerung bei etwa 8 %, bei Patienten mit arterieller Hypertonie und Diabetes mellitus erreicht sie sogar 50 % und mehr. Sie ist mit einer Erhöhung der kardiovaskulären Morbidität und Mortalität verbunden. Als zentraler Mechanismus zur kardiovaskulären Protektion können die Blutdruckkontrolle und die Hemmung des Renin-Angiotensin-Aldosteron-System (RAAS) gelten. Damit ist nicht nur eine Verringerung von kardio-vaskulär-renaler Endorganschäden (Herzinsuffizienz, diabetische Nephropathie, zerebrovaskuläre Ereignisse) verbunden, sondern auch der damit assoziierten Mortalität.

Summary

The occurrence of microalbuminuria or albuminuria indicates a disturbance of the barrier function of endothelial cells, basement membrane or of a structural-renal disease (including diseased podocytes). The prevalence of microalbuminuria in the general population is about 8 %, however, in high risk groups, prevalence rates of 50 % and more have been observed. Its incidence is strongly associated with increased cardiovascular morbidity and mortality. Blood pressure control and the blockade of the renin-angiotensin-aldosteron-system (RAAS), respectively, is the central mechanism to reduce cardio-vascular-renal end points as well as mortality.

Literatur

• 1 Arnlov J, Evans J C, Meigs J B, Wang T J, Fox C S, Levy D, Benjamin E J, D’Agostino R B, Vasan R S. Low-grade albuminuria and incidence of cardiovascular disease events in nonhypertensive and nondiabetic individuals: the Framingham Heart Study.  Circulation. 2005;  112 969-975
  Suche in Google Scholar
• 2 Böhm M, Danchin N, Thoenes M, Bramlage P, La Puerta P, Volpe M. Association of cardiovascular risk factors to microalbuminuria in hypertensive individuals: the i-SEARCH global study.  J Hypertension. 2007;  25 2317-2324
  Suche in Google Scholar
• 3 Bramlage P, Pittrow D, Lehnert H, Höfler M, Kirch W, Ritz E, Wittchen H. Frequency of albuminuria in primary care: a cross sectional study.  Eur J Cardiovasc Prev Rehabil. 2007;  14 107-113
  Suche in Google Scholar
• 4 Bramlage P, Thoenes M, Paar W D, Bramlage C P, Schmieder R E. Albuminuria: an indicator of cardiovascular risk.  Med Klin. 2007;  102 833-843
  Suche in Google Scholar
• 5 Comper W D, Jerums G, Osicka T M. Deficiency in the detection of microalbuminuria by urinary dipstick in diabetic patients.  Diabetes Care. 2003;  26 3195-3196
  Suche in Google Scholar
• 6 Danziger J. Importance of low-grade albuminuria.  Mayo Clin Proc. 2008;  83 806-812
  Suche in Google Scholar
• 7 Dihazi H, Müller G A, Lindner S, Meyer M, Asif A R, Oellerich M, Strutz F. Characterization of diabetic nephropathy by urinary proteomic analysis: identification of a processed ubiquitin form as a differentially excreted protein in diabetic nephropathy patients.  Clin Chem. 2007;  53 1636-1645
  Suche in Google Scholar
• 8 Epstein M, Williams G H, Weinberger M, Lewin A, Krause S, Mukherjee R, Patni R, Beckerman B. Selective blockade with eplerenone reduces albuminuria in patients with type 2 diabetes.  Clin J Am Soc Nephrol. 2006;  1 940-951
  Suche in Google Scholar
• 9 Gansevoort R T, de Jong P E. The case for using Albuminuria in staging chronic kidney disease.  J Am Soc Nephrol. 2009;  20 465-468
  Suche in Google Scholar
• 10 Garg A X, Kiberd B A, Clark W F, Haynes R B, Clase C M. Albuminuria and renal insufficiency prevalence guides population screening: results from the NHANES III.  Kidney Int. 2002;  61 2165-2175
  Suche in Google Scholar
• 11 Gross M L, Dikow R, Ritz E. Diabetic nephropathy: recent insights into the pathophysiology and the progression of diabetic nephropathy.  Kidney Int. 2005;  Suppl S50-53
  Suche in Google Scholar
• 12 Hillege H L, Fidler V, Diercks G F, van Gilst W H, de Zeeuw D, van Veldhuisen D J, Gans R O, Janssen W M, Grobbee D E, de Jong P E. Urinary albumin excretion predicts cardiovascular and noncardiovascular mortality in general population.  Circulation. 2002;  106 1777-1782
  Suche in Google Scholar
• 13 Hillege H L, Janssen W M, Bak A A, Diercks G F, Grobbee D E, Crijns H J, Van Gilst W H, De Zeeuw D, De Jong P E. Microalbuminuria is common, also in a nondiabetic, nonhypertensive population, and an independent indicator of cardiovascular risk factors and cardiovascular morbidity.  J Intern Med. 2001;  249 519-526
  Suche in Google Scholar
• 14 Hofmann W, Edel H H, Guder W G, Ivandic M, Scherberich J E. Harnuntersuchungen zur differenzierten Diagnostik einer Proteinurie.  Dtsch Ärztebl. 2001;  12 A756-763
  Suche in Google Scholar
• 15 Huber T B, Benzing T. The slit diaphragm: a signaling platform to regulate podocyte function.  Curr Opin Nephrol Hypertens. 2005;  14 211-216
  Suche in Google Scholar
• 16 Iseki K, Ikemiya Y, Iseki C, Takishita S. Proteinuria and the risk of developing end-stage renal disease.  Kidney Int. 2003;  63 1468-1474
  Suche in Google Scholar
• 17 Mann J F SR, McQueen M, Dyal L, Schumacher H, Pogue J, Wang X, Maggioni A, Budaj A, Chaithiraphan S, Dickstein K, Keltai M, Metsärinne K, Oto A, Parkhomenko A, Piegas L S, Svendsen T L, Teo K K, Yusuf S. ONTARGET investigators . Renal outcomes with telmisartan, ramipril, or both, in people at high vascular risk (the ONTARGET study): a multicentre, randomised, double-blind, controlled trial.  Lancet. 2008;  372 547-553
  Suche in Google Scholar
• 18 McIntyre N J, Taal M W. How to measure proteinuria?.  Curr Opin Nephrol Hypertens. 2008;  17 600-603
  Suche in Google Scholar
• 19 Menne J, Farsang C, Deák L, Klebs S, Meier M, Handrock R, Sieder C, Haller H. Valsartan in combination with lisinopril versus the respective high dose monotherapies in hypertensive patients with microalbuminuria: the VALERIA trial.  J Hypertension. 2008;  26 1860-1867
  Suche in Google Scholar
• 20 Miller W G, Bruns D E, Hortin G L, Sandberg S, Aakre K M, McQueen M J, Itoh Y, Lieske J C, Seccombe D W, Jones G, Bunk D M, Curhan G C, Narva A S. on behalf of the National Kidney Disease Education Program – IFCC Working Group on Standardization of Albumin in Urine . Current issues in measurement and reporting of urinary albumin excretion.  Clin Chem. 2009;  55 24-38
  Suche in Google Scholar
• 21 Müller G A, Müller C A, Dihazi H. Clinical proteomics – on the long way from bench to bedside?.  Nephrol Dial Transplant. 2007;  22 1297-1300
  Suche in Google Scholar
• 22 Parving H H, Lewis J B, Ravid M, Remuzzi G, Hunsicker L G. Prevalence and risk factors for microalbuminuria in a referred cohort of type II diabetic patients: a global perspective.  Kidney Int. 2006;  69 2057-2063
  Suche in Google Scholar
• 23 Praga M. Slowing the progression of renal failure.  Kidney Int. 2002;  Suppl 18-22
  Suche in Google Scholar
• 24 Russo L M, Sandoval R M, McKee M. et al . The normal kidney filters nephrotic levels of albumin retrieved by proximal tubule cells: retrieval is disrupted in nephrotic states.  Kidney Int. 2007;  71 504-513
  Suche in Google Scholar
• 25 Sarafidis P A. Proteinuria: natural course, prognostic implications and therapeutic considerations.  Minerva Med. 2007;  98 693-711
  Suche in Google Scholar
• 26 Schjoedt K J, Rossing K, Juhl T R, Boomsma F, Tarnow L, Rossing P, Parving H H. Beneficial impact of spironolactone on nephrotic range albuminuria in diabetic nephropathy.  Kidney Int. 2006;  70 536-542
  Suche in Google Scholar

Dr. med. M. Koziolek

Abteilung Nephrologie und Rheumatologie, Georg-August-Universität Göttingen

Robert-Koch Str. 40

37075 Göttingen

Telefon: +49 551 396331

Fax: +49 551 398906

eMail: mkoziolek@med.uni-goettingen.de