Ryan S Hsi1, Krishna Ramaswamy1, Sunita P Ho2, Marshall L Stoller1. 1. Department of Urology, School of Dentistry, University of California San Francisco, San Francisco, CA, USA. 2. Division of Biomaterials and Bioengineering, Department of Preventive and Restorative Dental Sciences, School of Dentistry, University of California San Francisco, San Francisco, CA, USA.
Abstract
OBJECTIVES: To describe a new hypothesis for the initial events leading to urinary stones. A biomechanical perspective on Randall's plaque formation through form and function relationships is applied to functional units within the kidney, we have termed the 'medullo-papillary complex' - a dynamic relationship between intratubular and interstitial mineral aggregates. METHODS: A complete MEDLINE search was performed to examine the existing literature on the anatomical and physiological relationships in the renal medulla and papilla. Sectioned human renal medulla with papilla from radical nephrectomy specimens were imaged using a high resolution micro X-ray computed tomography. The location, distribution, and density of mineral aggregates within the medullo-papillary complex were identified. RESULTS: Mineral aggregates were seen proximally in all specimens within the outer medulla of the medullary complex and were intratubular. Distal interstitial mineralisation at the papillary tip corresponding to Randall's plaque was not seen until a threshold of proximal mineralisation was observed. Mineral density measurements suggest varied chemical compositions between the proximal intratubular (330 mg/cm3 ) and distal interstitial (270 mg/cm3 ) deposits. A review of the literature revealed distinct anatomical compartments and gradients across the medullo-papillary complex that supports the empirical observations that proximal mineralisation triggers distal Randall's plaque formation. CONCLUSION: The early stone event is initiated by intratubular mineralisation of the renal medullary tissue leading to the interstitial mineralisation that is observed as Randall's plaque. We base this novel hypothesis on a multiscale biomechanics perspective involving form and function relationships, and empirical observations. Additional studies are needed to validate this hypothesis.
OBJECTIVES: To describe a new hypothesis for the initial events leading to urinary stones. A biomechanical perspective on Randall's plaque formation through form and function relationships is applied to functional units within the kidney, we have termed the 'medullo-papillary complex' - a dynamic relationship between intratubular and interstitial mineral aggregates. METHODS: A complete MEDLINE search was performed to examine the existing literature on the anatomical and physiological relationships in the renal medulla and papilla. Sectioned human renal medulla with papilla from radical nephrectomy specimens were imaged using a high resolution micro X-ray computed tomography. The location, distribution, and density of mineral aggregates within the medullo-papillary complex were identified. RESULTS: Mineral aggregates were seen proximally in all specimens within the outer medulla of the medullary complex and were intratubular. Distal interstitial mineralisation at the papillary tip corresponding to Randall's plaque was not seen until a threshold of proximal mineralisation was observed. Mineral density measurements suggest varied chemical compositions between the proximal intratubular (330 mg/cm3 ) and distal interstitial (270 mg/cm3 ) deposits. A review of the literature revealed distinct anatomical compartments and gradients across the medullo-papillary complex that supports the empirical observations that proximal mineralisation triggers distal Randall's plaque formation. CONCLUSION: The early stone event is initiated by intratubular mineralisation of the renal medullary tissue leading to the interstitial mineralisation that is observed as Randall's plaque. We base this novel hypothesis on a multiscale biomechanics perspective involving form and function relationships, and empirical observations. Additional studies are needed to validate this hypothesis.
Authors: Hao Ren; Ling Gu; Arne Andreasen; Jesper S Thomsen; Liu Cao; Erik I Christensen; Xiao-Yue Zhai Journal: Am J Physiol Renal Physiol Date: 2013-12-04
Authors: Samuel C Kim; Fredric L Coe; William W Tinmouth; Ramsay L Kuo; Ryan F Paterson; Joan H Parks; Larry C Munch; Andrew P Evan; James E Lingeman Journal: J Urol Date: 2005-01 Impact factor: 7.450
Authors: Ramsay L Kuo; James E Lingeman; Andrew P Evan; Ryan F Paterson; Sharon B Bledsoe; Samuel C Kim; Larry C Munch; Fredric L Coe Journal: J Urol Date: 2003-12 Impact factor: 7.450
Authors: Benjamin A Sherer; Ling Chen; Misun Kang; Alex R Shimotake; Scott V Wiener; Tom Chi; Marshall L Stoller; Sunita P Ho Journal: Acta Biomater Date: 2018-02-09 Impact factor: 8.947
Authors: Scott V Wiener; Ling Chen; Alex R Shimotake; Misun Kang; Marshall L Stoller; Sunita P Ho Journal: Connect Tissue Res Date: 2018-12 Impact factor: 3.417
Authors: Ling Chen; Ryan S Hsi; Feifei Yang; Benjamin A Sherer; Marshall L Stoller; Sunita P Ho Journal: PLoS One Date: 2017-11-16 Impact factor: 3.240
Authors: Fernanda Guedes Rodrigues; Rodrigo Fernandes Carvalho Azambuja Neves; Milene Subtil Ormanji; Priscila Ligeiro Gonçalves Esper; Melissa Gaspar; Rosa Maria Rodrigues Pereira; Lucio R Requião-Moura; Martin H de Borst; Ita Pfeferman Heilberg Journal: J Pers Med Date: 2022-07-10
Authors: Joshua N Curry; Matthew Saurette; Masomeh Askari; Lei Pei; Michael B Filla; Megan R Beggs; Peter Sn Rowe; Timothy Fields; Andre J Sommer; Chizu Tanikawa; Yoichiro Kamatani; Andrew P Evan; Mehdi Totonchi; R Todd Alexander; Koichi Matsuda; Alan Sl Yu Journal: J Clin Invest Date: 2020-04-01 Impact factor: 14.808