Top

Published in:

Open Access 01-05-2010 | Educational Review

Physiopathology and etiology of stone formation in the kidney and the urinary tract

Author: Andrew P. Evan

Published in: Pediatric Nephrology | Issue 5/2010

Abstract

All stones share similar presenting symptoms, and urine supersaturation with respect to the mineral phase of the stone is essential for stone formation. However, recent studies using papillary biopsies of stone formers have provided a view of the histology of renal crystal deposition which suggests that the early sequence of events leading to stone formation differs greatly, depending on the type of stone and on the urine chemistry leading to supersaturation. Three general pathways for kidney stone formation are seen: (1) stones fixed to the surface of a renal papilla at sites of interstitial apatite plaque (termed Randall’s plaque), as seen in idiopathic calcium oxalate stone formers; (2) stones attached to plugs protruding from the openings of ducts of Bellini, as seen in hyperoxaluria and distal tubular acidosis; and (3) stones forming in free solution in the renal collection system, as in cystinuria. The presence of hydroxyapatite crystals in either the interstitial or tubule compartment (and sometimes both) of the renal medulla in stone formers is the rule and has implications for the initial steps of stone formation and the potential for renal injury.

Available only for authorised users

Pearle MS, Calhourn EA, Curhan GC (2005) Urologic diseases in America project: urolithiasis. J Urol 173:848–857CrossRefPubMed

Stamatelou KK, Francis ME, Jones CA, Curhan GC (2003) Time trends in reported prevalence of kidney stones in the United Sates: 1976-1994. Kidney Int 63:1817–1923CrossRefPubMed

Mandel NS, Mandel I, Fryjoff K, Rejniak T, Mandel G (2003) Conversion of calcium oxalate to calcium phosphate with recurrent stone episodes. J Urol 169:2026–2029CrossRefPubMed

Parks JH, Worcester EM, Coe FL, Evan AP, Lingeman JE (2004) Clinical implications of abundant calcium phosphate in routinely analyzed kidney stones. Kidney Int 66:777–785CrossRefPubMed

Parks JH, Coe FL, Evan AP, Worcester EM (2009) Urine pH in renal calcium stone formers who do and do not increase stone phosphate content with time. Nephrol Dial Transplant 24:130–136CrossRefPubMed

Klee LW, Brito CG, Lingeman JE (1991) The clinical implications of brushite calculi. J Urol 145:715–718PubMed

Soucie JM, Coates R, McClellan W, Austin H, Thun M (1996) Relation between geographic variability in kidney stones prevalence and risk factors for stones. Am J Epidemiol 143:487–495PubMed

Brikowski TH, Lotan Y, Pearle MS (2008) Climate-related increase in the prevalence of urolithiasis in the United States. Proc Natl Acad Sci U S A 105:9841–9846CrossRefPubMed

Lingeman JE, Matlaga B, Evan AP (2006) Surgical management of urinary lithiasis. In: Walsh PC, Retik AB, Vaughan ED, Wein AJ (eds) Campbell’s urology, chap 44. Saunders, Philadelphia, pp 1431–1507

10.

Coe FL, Evan AP, Worcester E (2005) Kidney stone disease. J Clin Invest 115:2598–2608CrossRefPubMed

11.

Verkoelen CF, Verhulst A (2007) Proposed mechanisms in renal tubular crystal retention. Kidney Int 72:13–18CrossRefPubMed

12.

Vermeulen CW, Lyon ES (1968) Mechanisms of genesis and growth of calculi. Am J Med 45:684–692CrossRefPubMed

13.

Finlayson B, Reid F (1978) The expectation of free and fixed particles in urinary stone disease. Invest Urol 15:442–448PubMed

14.

Kok DJ, Khan SR (1994) Calcium oxalate nephrolithiasis, a free or fixed particle disease. Kidney Int 46:847–854CrossRefPubMed

15.

Escobar C, Byer KJ, Khan SR (2007) Naturally produced crystals obtained from kidney stones are less injurious to renal tubular epithelial cells than synthetic crystals. BJU Int 100:891–897CrossRefPubMed

16.

Randall A (1940) The etiology of primary renal calculus. Int Abstr Surg 71:209–240

17.

Evan A, Lingeman JE, Coe FL, Shao Y, Parks H, Bledsoe SB, Sommer AJ, Paterson RJ, Kuo RL, Kim S, Grynpas M (2005) Crystal associated nephropathy in patients with brushite nephrolithiasis. Kidney Int 67:576–591CrossRefPubMed

18.

Evan AP, Lingeman J, Coe F, Shao Y, Miller N, Matlaga B, Phillips C, Sommer A, Worcester EM (2007) Renal histopathology of stone-forming patients with distal renal tubular acidosis. Kidney Int 71:795–801CrossRefPubMed

19.

Evan AP, Lingeman JE, Coe FL, Parks JH, Bledsoe SM, Shao Y, Sommer A, Paterson R, Kuo R, Grynpas M (2003) Randall plaque of patients with nephrolithiasis begins in basement membranes of thin loops of Henle. J Clin Invest 111:607–616PubMed

20.

Evan AP, Coe FL, Lingeman JE, Shao Y, Matlaga BR, Kim SC, Bledsoe SB, Sommer AJ, Grynpas M, Philips CL, Worcester EM (2006) Renal crystal deposits and histopathology of the kidney in cystinuria. Kidney Int 69:2227–2235CrossRefPubMed

21.

Evan AP, Coe FL, Rittling SR, Bledsoe SB, Shao Y, Worcester EM, Lingeman JE (2005) Apatite plaque particles in inner medulla of kidneys of CaOx stone formers: osteopontin localization. Kidney Int 68:145–154CrossRefPubMed

22.

Evan AP, Bledsoe S, Worcester EM, Coe FL, Lingeman JE, Bergsland KJ (2007) Renal inter-alpha-trypsin inhibitor heavy chain 3 increase in calcium oxalate stone-forming patients. Kidney Int 72:1503–1511CrossRefPubMed

23.

Evan AP, Coe FL, Gillen D, Lingeman JE, Bledsoe S, Worcester EM (2008) Renal intraluminal crystals and hyaluronan staining occur in stone formers with bypass surgery but not with idiopathic calcium oxalate stones. Anat Rec 291:325–334CrossRef

24.

Matlaga BR, Williams JC, Kim SC, Kuo RL, Evan AP, Bledsoe SB, Coe FL, Munch LC, Lingeman JE (2006) Endoscopic evidence of calculus attachment to Randall’s plaque. J Urol 175:1720–1724CrossRefPubMed

25.

Miller NL, Gillen DL, Williams JC, Evan AP, Bledsoe SB, Coe FL, Worcester EM, Matlaga BR, Munch LC, Lingeman JE (2008) A formal test of the hypothesis that idiopathic calcium oxalate stones grow on Randall’s plaque. BJU Int doi:10.1111/j.1464-410X.2008.08193.x

26.

Cifuentes-Delatte L, Minon-Cifuentes J, Medina JA (1985) Papillary stones: calcified renal tubules in Randall’s plaques. J Urol 133:490–494PubMed

27.

Pieras E, Costa-Bauza A, Ramis M, Grases F (2006) Papillary and nonpapillary calcium oxalate monohydrate renal calculi: comparative study of etiologic factors. TSW Urol 1:116–124CrossRef

28.

Daudon M, Traxer O, Jungers P, Bazin D (2007) Stone morphology suggestive of Randall’s plaque. In: Evan AP, Lingeman JE, Williams JC (eds) Renal stone disease: proceedings of the First International Urolithiasis Research Symposium. American Institute of Physics, Melville, NY, pp 26–34

29.

Evan AP, Coe FL, Lingeman JE, Shao Y, Sommer AJ, Bledsoe SB, Anderson JC, Worcester EM (2007) Mechanism of formation of human calcium oxalate renal stones on Randall’s plaque. Anat Rec 290:1315–1323CrossRef

30.

Evan AP, Lingeman JE, Coe FL, Miller N, Bledsoe S, Sommer A, Williams J, Shao Y, Worcester E (2008) Histopathology and surgical anatomy of patients with primary hyperparathyroidism and calcium phosphate stones. Kidney Int 74:223–229CrossRefPubMed

31.

Vermooten V (1942) The origin and development in the renal papilla of Randall’s calcium plaque. J Urol 48:27–37

32.

Kuo RL, Lingeman JE, Evan AP, Paterson RF, Parks JH, Bledsoe SB, Munch LC, Coe FL (2003) Urine calcium and volume predict coverage of renal papilla by Randall’s plaque. Kidney Int 64:2150–2154CrossRefPubMed

33.

Kim SC, Coe FL, Tinmouth WW, Kuo RL, Paterson RF, Parks JH, Munch LC, Evan AP, Lingeman JE (2005) Stone formation is proportional to papillary surface coverage by Randall’s plaque. J Urol 173:117–119PubMed

Title: Physiopathology and etiology of stone formation in the kidney and the urinary tract
Author: Andrew P. Evan
Publication date: 01-05-2010
Publisher: Springer-Verlag
Published in: Pediatric Nephrology / Issue 5/2010
Print ISSN: 0931-041X
Electronic ISSN: 1432-198X
DOI: https://doi.org/10.1007/s00467-009-1116-y

2024 ASCO Annual Meeting

Springer Medicine

Physiopathology and etiology of stone formation in the kidney and the urinary tract

Abstract

2024 ASCO Annual Meeting

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 5/2010

Letter of response to Drs. Marks and Tullus

Development of renal and iliac aneurysms in a child with generalized infantile myofibromatosis

Mycophenolate mofetil therapy for children with steroid-resistant nephrotic syndrome

Erratum to: Combination therapy with steroids and mizoribine in juvenile SLE: a randomized controlled trial

Fluid and electrolyte therapy: a primer

Tacrolimus nephrotoxicity: beware of the association of diarrhea, drug interaction and pharmacogenetics