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Solitary versus multiple cholesterol gallbladder stones

Mechanisms of formation and growth

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Summary

The development and growth pattern of solitary and multiple cholesterol gallbladder stones was defined using cholecystography in a prospective study of 48 patients whose initial cholecystograms indicated a stone-free gallbladder and who developed gallstones within the subsequent 5 years. Radiological observations performed over 365 patient-years were complemented by macroscopic examination, radiograms, scanning electron microscopy, and chemical analysis of gallstones from these and other patients obtained at cholecystectomy. Solitary gallstones were found to develop after a precursor phase of over 2 years during which free-floating crystal laminae of cholesterol formed. These laminae subsequently aggregated loosely and underwent external compaction and internal remodeling by movement of cholesterol molecules to form compact spheroids. A single lamina was observed to function as a nucleus for the development of a solitary stone shaped as an ellipsoid. About 10% of solitary stones were found to have a solitary pigment stone in their center. In contrast, multiple cholesterol gallstones formed without a precursor phase. Innumerable, very thin cholesterol crystals appeared which very abruptly aggregated to form spheres of up to 1 mm in diameter. Within 3 months a second aggregation took place in which these spheres coalesced to form mulberry stones. Mulberry stones in turn were transformed either to faceted stones (if many were present in the gallbladder) or to barrel stones (if few were present) over a period of 3 years. It is proposed that temporary occlusion of the cystic duct leads to supersaturation of bile with calcium bilirubinate and/or calcium carbonate which in turn promotes deposition of either or both of these calcium salts on the surface of single or multiple gallstones. For multiple gallstones, this process or the deposition of additional cholesterol crystals seals the gallstone surface and is followed by metamorphosis of the stone center.

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References

  1. Aschoff L, Bacmeister A (1909) Die Cholelithiasis. Fischer, Jena

    Google Scholar 

  2. Bauer KH (1931) Über Selbstzertrümmerung von Gallensteinen und Neubildung von Steinen auf der Grundlage von Steintrümmern. Langenbecks Arch Klin Chir 165:53–80

    Google Scholar 

  3. Bernhofft RA, Pellegrin A, Broderick WC, Way LW (1983) Pigment sludge and stone formation in the acutely ligated dog gallbladder. Gastroenterology 85:1166–1171

    Google Scholar 

  4. Dawes LG, Moore EW, Rege RV, Shimizu S, Ostrow JD (1991) Canine bile contains anticrystallization factors that inhibit precipitation of calcium carbonate. Hepatology 14:701–706

    Google Scholar 

  5. Grosse H (1966) Die Cholelithiasis. Fischer, Jena

    Google Scholar 

  6. Groen AK, Noordam C, Drapers JAG, Egbers P, Jansen PLM, Tytgat GNJ (1990) Isolation of a potent cholesterol nucleation-promoting activity from human gallbladder bile: role in the pathogenesis of gallstone disease. Hepatology 11:525–533

    Google Scholar 

  7. Grundy SM, Lan S-P, Lachin JM, the Steering Committee, the National Cooperative Gallstone Study Group (1984) The effects of chenodiol on biliary lipids and their association with gallstone dissolution in the National Cooperative Gallstone Study (NCGS). J Clin Invest 73:1156–1166

    Google Scholar 

  8. Heuman DM, Moore EW, Vlahcevic ZR (1990) Pathogenesis and dissolution of gallstones. In: Zakim D, Boyer TD (eds) Hepatology. A textbook of liver disease, 2nd edn. Saunders, Philadelphia, pp 1480–1516

    Google Scholar 

  9. Hofmann AF (1990) Nonsurgical treatment of gallstone disease. Annu Rev Med 41:401–415

    Google Scholar 

  10. Kommerell B, Wolpers C (1938) Gashaltige Gallensteine. ROFO Fortschr Geb Roentgenstr 58:155–174

    Google Scholar 

  11. Lichtwitz L, Stern KG (1935) Grundlagen der Konkrementbildung. In: Lichtwitz L, Liesegang RE, Spiro K (eds) Medizinische Kolloidlehre. Steinkopff, Dresden/Leipzig, pp 114–156

    Google Scholar 

  12. Martin KW, Jackson BT (1987) Record number of gallstones. Br J Surg 74:704

    Google Scholar 

  13. Mok HYI, Druffel ERM, Rampone WM (1986) Chronology of cholelithiasis. Dating gallstones from atmospheric radiocarbon produced by nuclear bomb explosions. N Engl J Med 314:1075–1077

    Google Scholar 

  14. Mok K, Out T, de Bruijn M, Goldhoorn B, Tytgat GNJ, Groen AK (1992) An evaluation of the quantitative importance of individual pronucleating proteins in the biliary concanavalin A-binding protein fraction. Gastroenterology 102:A323 (abstract)

    Google Scholar 

  15. Naunyn B (1892) Klinik der Cholelithiasis. Vogel, Leipzig

    Google Scholar 

  16. Phemister DB, Rewbridge AG, Rudisill H (1931) Calcium carbonate gallstones and calcification of the gallbladder following cystic duct obstruction. Ann Surg 94:493–516

    Google Scholar 

  17. Ramond MJ, Dumont M, Belghiti J, Erlinger S (1988) Sensitivity and specificity of microscopic examination of gallbladder bile for gallstone recognition and identification. Gastroenterology 95:1339–1343

    Google Scholar 

  18. Ransohoff DF, Gracie WA, Wolfenson LB, Neuhauser D (1982) Prophylactic cholecystectomy or expectant management for silent gallstones. Ann Intern Med 99:199–204

    Google Scholar 

  19. Sackmann M, Pauletzki J, Sauerbruch T, Holl J, Schelling G, Paumgartner G (1991) The Munich Gallbladder Lithotripsy Study. Results of the first 5 years with 711 patients. Ann Intern Med 114:290–296

    Google Scholar 

  20. Senior JR, Johnson MF, DeTurck DM, Bazzoli F, Roda E (1990) In vivo kinetics of radiolucent gallstone dissolution by oral dihydroxy bile acids. Gastroenterology 99:243–251

    Google Scholar 

  21. Shiffman ML, Sugerman HJ, Moore EW (1990) Human gallbladder mucosal function. Effect of concentration and acidification of bile on cholesterol and calcium solubility. Gastroenterology 99:1452–1459

    Google Scholar 

  22. Shiffman ML, Sugerman HJ, Kellum JM, Moore EW (1992) Changes in gallbladder bile composition following gallstone formation and weight reduction. Gastroenterology 103:213–221

    Google Scholar 

  23. Strasberg SM, Clavien PA, Harvey PRC (1991) Pathogenesis of cholesterol gallstones. HPB-Surgery 3:79–102

    Google Scholar 

  24. Svanvik J, Thornell E, Zettergreen L (1981) Gallbladder function in experimental cholecystitis. Surgery 89:500–506

    Google Scholar 

  25. Villanova N, Bazzoli F, Taroni R, Fabroni R, Mazella G, Festi D, Barbara L, Roda E (1989) Gallstone recurrence after successful oral bile acid treatment. Gastroenterology 97:726–731

    Google Scholar 

  26. Walter FA (1796) Anatomisches Museum. Belitz and Braun, Berlin

    Google Scholar 

  27. Wolpers C (1987) Gallenblasensteine: ihre Morphogenese und Auswahl zur Litholyse. Karger, Basel, Munich

    Google Scholar 

  28. Wolpers C, Blaschke R (1971) Electron microscopy of human gallstones. In: Arceneaux CJ (ed) Proceedings Electron Microscopy Society of America, 29th Annual Meeting Boston, Massachusetts. Clintor's, Baton Rouge, pp 296–297

    Google Scholar 

  29. Wosiewitz U, Wolpers C (1977) Kalziumpalmitat und Cholesteringallensteine. Z Gastroenterol 15:311–319

    Google Scholar 

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Authors and Affiliations

  1. Arzt für Innere Medizin, Gartengang 3, 23562, Lübeck 1, Germany

    C. Wolpers

  2. Department of Medicine, University of California, San Diego

    A. F. Hofmann

Authors
  1. C. Wolpers
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  2. A. F. Hofmann
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Wolpers, C., Hofmann, A.F. Solitary versus multiple cholesterol gallbladder stones. Clin Investig 71, 423–434 (1993). https://doi.org/10.1007/BF00180054

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  • DOI: https://doi.org/10.1007/BF00180054

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