Journal of Veterinary Clinics (한국임상수의학회지)

The Korean Society of Veterinary Clinics (한국임상수의학회)
권호 표지

The Survey of Urinary Calculi Following Long Feeding Period in Korean Native Steers

거세한우 장기비육에 따른 비뇨기결석 발생조사

  • Cho Yong-Il (Livestock division, National Institute of Subtropical Agriculture, RDA) ;
  • Hur Tai-Young (National Livestock Research Institute, RDA) ;
  • Kang Seog-Jin (National Livestock Research Institute, RDA) ;
  • Suh Guk-Hyun (National Livestock Research Institute, RDA) ;
  • Ko Moon-Suck (Livestock division, National Institute of Subtropical Agriculture, RDA) ;
  • Kim Kyung-Hun (National Livestock Research Institute, RDA) ;
  • Na Ki-Jeong (College of Veterinary Medicine, Chungbuk National University) ;
  • Kim Ill-Hwa (College of Veterinary Medicine, Chungbuk National University)
  • 조용일 (농촌진흥청 난지농업연구소 축산과) ;
  • 허태영 (농촌진흥청 축산연구소) ;
  • 강석진 (농촌진흥청 축산연구소) ;
  • 서국현 (농촌진흥청 축산연구소) ;
  • 고문석 (농촌진흥청 난지농업연구소 축산과) ;
  • 김경훈 (농촌진흥청 축산연구소) ;
  • 나기정 (충북대학교 수의과대학) ;
  • 김일화 (충북대학교 수의과대학)
  • Published : 2005.12.01
Download PDF
⟨ Previous Next ⟩

Abstract

We surveyed the incidence of urinary calculi for feeding period, urinary lesion, composition of calculi and changes of serum chemistry with Korean native castrated steers, which are growing until 26 through 31 months. Without showing any clinical signs such as urethral obstruction, hydronephrosis and strangury for all group, $37.8\%$ (34 out of 90) of Korean native steers carried urinary calculi in carcass. The incidence of urine calculi far different feeding stages from 26 to 31 months were observed as $13.3-60.0\%$er, no significant differences were detected. The distribution of calculi were kidney $(24.4\%)$, kidney and bladder $(10\%)$ and kidney, bladder and urine $(3.3\%)$. Congestion of urinary bladder was shown in $26.6\%$ of Korean native steers. Korean native steers with urinary calculi $(41.2\%)$ had more possibilities (P<0.05) to bring outbreaks of congestion of urinary bladder than those of without calculi $(17.8\%)$. The main composition of calculi were struvite (magnesium ammonium phosphate crystals), calcium phosphate, calcium carbonate, calcium oxalate, non-oxalate calcium, ammonia and phosphate. The distribution of urine pH was $71.7\%$(above pH 8.0), $12.2\%$ (between pH 7.0 and pH 8.0) and $16.6\%$ (under pH 7.0). Like shown in herbivores, most of the urine pH was distributed as alkaline urine. Serum creatinine was shown significant difference (P<0.05) according to incidence of calculi but other serum chemistry didn't show any difference in serum chemistry. These results suggest that feeding until 26 to 31 months in Korean native steers castrated at 6 months of the age elicits urinary calculi and congestion of urinary bladder, but not clinical abnormality. And adjustment of the dietary Can ratio to a level of 2:1 or greater during feeding period may reduce the possibility of incidence of urinary calculi in Korean native steers.

Keywords

References

  1. Adair HS, Adams WH. Ascorbic acid as suspected cause of oxalate nephrotoxicosis in a goat. J Am Vet Med Assoc 1990; 197: 1626-1628
  2. Angus KW. Nephropathy in young lambs. Vet Rec 1990; 126: 525-528
  3. Annette L. Rubyand Gerald V. Ling. Methods of analysis of canine uroliths. Vet Clin North Am Small Anim Pract appl . 1986; 16: 293-301
  4. Bailey CB. Silica metabolism and silica urolithiasis in ruminants. Can J Anim Sci 1981; 61: 219-235 https://doi.org/10.4141/cjas81-031
  5. Bushman DH, Emerick RJ, Embry LB. Experimentally induced ovine phosphatic urolithiasis relationships involving dietary calcium, phosphorus and magnesium. J Nutr 1965; 7: 499-504
  6. Carl AO, Chris WC, Heidi CM, Norma CB. Comparison of qualitative and quantitative analysis of canine urolith. Vet Clin North Am Small Anim Pract appl 1986; 16: 317-323
  7. Crookshank HR. Effect of chemical and enzymatic agents on the formation of urinary calculi in fattening steers. J Anim Sci 1960; 19: 595-600
  8. Franti CE, King GV, Ruby AL, Johnson DL. Urolithiasis in dog V: Regional comparisons of breed, age, sex, anatomic location, and mineral type of calculus. Am J Vet Res 1999; 60: 29-42
  9. Gera KL, Nigam JM. Urolithiasis in bovines: a report of 193 clinical cases. Indian Vet J 1979; 56: 417-423
  10. Gerald V. Ling. Lower urinary tract diseases of dogs and cats. Mosby. 143-177
  11. Hay L. Prevention and treatment of urolithiasis in sheep. In Pract 1990; 12: 87-97 https://doi.org/10.1136/inpract.12.3.87
  12. Hoar DW, Emerick RJ, Embry LB. Potassium, phosphorus, and calcium interrelationships influencing feedlot performance and phosphate urolithiasis in lambs. J Anim Sci 1970; 30: 597-600
  13. Hoar DW, Emerick RJ, Embry LB. Influence of calcium source, phosphorus level, and acid-forming effects of the diet on feedlot performance in lambs. J Anim Sci 1970; 31: 118-125
  14. John DB, Robert WK. Kirk's current veterinary therapy VII. Saunders. 1995: 981-998
  15. Jubb KVF, Keneddy PC, Palmer N. Pathology of domestic animals. 4th ed. San Diego: Academic Press. 1993: 525-531
  16. Manning RA, Blaney BJ. Epidermiolgical aspects of urolithiasis in domestic animals in Queensland. Aust Vet J 1986; 63: 423-424
  17. McIntosh GH. Urolithiasis in animals. Aust Vet J 1978; 54: 267-271 https://doi.org/10.1111/j.1751-0813.1978.tb02456.x
  18. Osborne CA, Clinton CW, Moran HC, Bailie NC. Comparison of qualitative and quantitative analysis of canine urolith. Vet Clin North Am Small Anim Pract 1986; 16: 317-323
  19. Osborne CA, Klausner JS. Calcium oxalate urolithiasis. In: Current veterinary therapy VII. Philadelphia: WB Saunders. 1988: 45-48
  20. Rebhun WC. Pyelonephritis in cows: 15 cases. J Am Vet Med Assoc 1989; 194: 953-955
  21. Rebhun WC, Guard C, Richard CM. Disease of dairy cattle. New York, A Lea & Febiger book 1995: 364-365
  22. Romanowski RD. Biochemistry of urolith formation. J Am Vet Med Assoc 1965; 147: 1324-1326
  23. Ruby AL, Ling GV. Methods of analysis of canine uroliths. Vet Clin North Am Small Anim Pract 1986; 16: 293-301
  24. SAS program (SAS 8.1, Inst. 1990)
  25. Smith BP. Large animal internal medicine. 3rd ed. Missouri: Mosby. 2002: 405-410
  26. Stewart SR, Emerick RJ, Kayongo-Male H. Silicone-Zinc interaction and potential roles for dietary zinc and copper in minimizing silica urolithiasis. J Anim Sci 1993; 71: 946-954
  27. Udall RH, Seger CL, Chow FC. Studies on urolithiasis. VI. The mechanism of action of sodium chloride in the control of urinary calculi. Cornell Vet 1965; 55: 198-203
  28. 권영방. 육우의 요석증 발생과 예방대책. 대한수의사회지 1986; 22: 768-773
  29. 권영방. 비육우 요석증에 관한 병리학적 조사연구. 충북대학교 농업과학연구 1994; 12: 61-70
  30. 김경남. 최신연구결과를 활용한 한우사육 새기술. 축산기술연구소 2000: 69-102
  31. 수의내과교수협의회. 수의내과학. 교육문화원 1996: 429-472
  32. 윤상기, 이문연. FTA에 대응한 한우의 차별화 전략 심포지엄. 축산연구소 2004: 81-90
  33. 한홍률, 이정길, 이창우. 개정 수의임상병리. 기전연구사 1985: 202-203