Harnsteinerkrankungen bei Hund und Katze – Welche diätetischen Maßnahmen sind sinnvoll?

 

 Buy Article Permissions and Reprints All articles of this category

Dass Harnsteinerkrankungen nicht als „Zivilisationserkrankung“ anzusehen sind, zeigen schon Funde von Kalzitsteinen bei Höhlenbären aus dem Pleistozän. Trotzdem hat die Prävalenz der Urolithiasis bei unseren Haustieren in den letzten 30 Jahren massiv zugenommen. Dabei sind die therapeutischen und prophylaktischen Maßnahmen auf diätetischer Ebene ebenso vielfältig wie die Ursachen der Harnsteinentstehung.

• Literatur

• 1 Asper R. Charakterisierung des Steinmaterials. Welche Harnsteinanalyse ist möglich, welche ist notwendig?. Urol 1993; 33: 78-79
  Google Scholar
• 2 Bartges JW, Osborne CA, Lulich JP et al. Canine urate urolithiasis. Etiopathogenesis, diagnosis, and management. Vet Clin North Am Small Anim Pract 1999; 29 (1): 161-191
  CrossrefGoogle Scholar
• 3 Biourge V. Urine dilution: a key factor in the prevention of struvite and calcium oxalate uroliths. Vet Focus 2007; 17: 41-44
  Google Scholar
• 4 Brown NO, Parks JL, Greene RW. Canine urolithiasis: retrospective analysis of 438 cases. J Am Vet Med Assoc 1977; 170 (4): 414-418
  Google Scholar
• 5 Carvalho M, Lulich JP, Osborne CA. Role of urinary inhibitors of crystallization in uric acid nephrolithiasis: Dalmatian dog model. Urol 2003; 62 (3): 566-570
  CrossrefGoogle Scholar
• 6 Case LC, Ling GV, Franti CE et al. Cystine-containing urinary calculi in dogs: 102 cases (1981–1989). J Am Vet Med Assoc 1992; 201 (1): 129-133
  Google Scholar
• 7 Ching SV, Fettman MJ, Hamar DW et al. The effect of chronic dietary acidification using ammonium chloride on acid-base and mineral metabolism in the adult cat. J Nutr 1989; 119 (6): 902-915
  Google Scholar
• 8 Da Silva Curiel JM, Pope ER, O’Brien DP et al. Ammonium urate urolith resulting in hydronephrosis and hydroureter in a dog with a congenital portosystemic shunt. Can Vet J 1990; 31 (2): 116-117
  Google Scholar
• 9 Funaba M, Yamate T, Narukawa Y et al. Effect of supplementation of dry cat food with D,L-methionine and ammonium chloride on struvite activity product and sediment in urine. J Vet Med Sci 2001; 63 (3): 337-339
  CrossrefGoogle Scholar
• 10 Funaba M, Yamate T, Hashida Y et al. Effects of a high-protein diet versus dietary supplementation with ammonium chloride on struvite crystal formation in urine of clinically normal cats. Am J Vet Res 2003; 64 (8): 1059-1064
  CrossrefGoogle Scholar
• 11 Hawthorne AJ, Markwell P. Dietary sodium promotes increased water intake and urine volume in cats. J Nutr 2004; 134 (8 Suppl): 2128-2129
  Google Scholar
• 12 Hesse A, Steffes HJ. Urinary stones in dogs, a European study. Berlin: Proceedings, DVG-Tagung 2001
  Google Scholar
• 13 Hesse A, Neiger R. Harnsteine bei Kleintieren. Stuttgart: Enke; 2008
  Google Scholar
• 14 Hesse A, Steffes HJ, Graf C et al. Aktuelle Daten zur Zusammensetzung und Rassenverteilung der Harnsteine von Hunden. Berl Munch Tierarztl Wochenschr 1997; 110: 436-439
  Google Scholar
• 15 Hoppe A, Denneberg T, Jeppsson JO et al. Canine cystinuria: an extended study on the effects of 2-mercaptopropionylglycine on cystine urolithiasis and urinary cystine excretion. Br Vet J 1993; 149 (3): 235-251
  CrossrefGoogle Scholar
• 16 Houston DM, Moore AE, Favrin mg et al. Canine urolithiasis: a look at over 16000 urolith submissions to the Canadian Veterinary Urolith Centre from February 1998 to April 2003. Can Vet J 2004; 45 (3): 225-230
  Google Scholar
• 17 Kienzle E, Wilms-Eilers S. Untersuchungen zur Struvitsteindiätetik: Einfluss von Ammoniumchlorid und Carbonaten auf den Säure-Basen- und Mineralstoffhaushalt der Katze. Deutsch Tierarztl Wochenschr 1993; 100: 399-405
  Google Scholar
• 18 Lekcharoensuk C, Lulich JP, Osborne CA et al. Association between patient-related factors and risk of calcium oxalate and magnesium ammonium phosphate urolithiasis in cats. J Am Vet Med Assoc 2000; 217 (4): 520-525
  CrossrefGoogle Scholar
• 19 Lulich JP, Osborne CA, Thumchai R et al. Epidemiology of canine calcium oxalate uroliths. Identifying risk factors Vet Clin North Am Small Anim Pract 1999; 29 (1): 113-122
  Google Scholar
• 20 Lulich JP, Osborne CA, Sanderson SL. Effects of dietary supplementation with sodium chloride on urinary relative supersaturation with calcium oxalate in healthy dogs. Am J Vet Res 2005; 66 (2): 319-324
  CrossrefGoogle Scholar
• 21 Pastoor FJ, Opitz R, Van’t Klooster AT et al. Substitution of dietary calcium chloride for calcium carbonate reduces urinary pH and urinary phosphorus excretion in adult cats. Vet Q 1994; 16 (3): 157-160
  CrossrefGoogle Scholar
• 22 Robertson WG, Stevenson AE. Methods for measuring the crystallization potential of urine – RSS vs. APR. Vet Focus 2007; 17: 37-40
  Google Scholar
• 23 Robertson WG, Jones JS, Heaton MA et al. Predicting the crystallization potential of urine from cats and dogs with respect to calcium oxalate and magnesium ammonium phosphate (struvite). J Nutr 2002; 132: 1637-1641
  Google Scholar
• 24 Stevenson AE, Markwell PJ. Comparison of urine composition of healthy Labrador retrievers and miniature schnauzers. Am J Vet Res 2001; 62 (11): 1782-1786
  CrossrefGoogle Scholar
• 25 Stevenson AE, Robertson WG, Markwell PJ. Risk factor analysis and relative supersaturation as tools for identifying calcium oxalate stone-forming dogs. J Small Anim Pract 2003; 44 (11): 491-496
  CrossrefGoogle Scholar
• 26 Stevenson AE, Blackburn JM, Markwell PJ et al. Nutrient intake and urine composition in calcium oxalate stone-forming dogs: comparison with healthy dogs and impact of dietary modification. Vet Ther 2004; 5 (3): 218-231
  Google Scholar
• 27 Werness PG, Brown CM, Smith LH et al. EQUIL2: a BASIC computer program for the calculation of urinary saturation. J Urol 1985; 134 (6): 1242-1244
  Google Scholar