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Nephrocalcinosis

From Wikipedia, the free encyclopedia
Nephrocalcinosis
Other namesAnderson-Carr kidneys
Bilateral nephrocalcinosis seen on an abdominal x-ray
SpecialtyUrology Edit this on Wikidata

Nephrocalcinosis, once known as Albright's calcinosis after Fuller Albright, is a term originally used to describe the deposition of poorly soluble calcium salts in the renal parenchyma due to hyperparathyroidism. The term nephrocalcinosis is used to describe the deposition of both calcium oxalate and calcium phosphate.[1] It may cause acute kidney injury. It is now more commonly used to describe diffuse, fine, renal parenchymal calcification in radiology.[2] It is caused by multiple different conditions and is determined by progressive kidney dysfunction. These outlines eventually come together to form a dense mass.[3] During its early stages, nephrocalcinosis is visible on x-ray, and appears as a fine granular mottling over the renal outlines. It is most commonly seen as an incidental finding with medullary sponge kidney on an abdominal x-ray. It may be severe enough to cause (as well as be caused by) renal tubular acidosis or even end stage kidney disease, due to disruption of the kidney tissue by the deposited calcium salts.

Signs and symptoms

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Though this condition is usually asymptomatic, if symptoms are present they are usually related to the causative process, (e.g. hypercalcemia).[4] Some of the symptoms that can happen are blood in the urine, fever and chills, nausea and vomiting, severe pain in the belly area, flanks of the back, groin, or testicles.

These include renal colic, polyuria and polydipsia:[4]

There are several causes of nephrocalcinosis that are typically acute and present only with kidney failure.[4] These include tumor lysis syndrome, acute phosphate nephropathy, and occasional cases of enteric hyperoxaluria.[4]

Cause

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Nephrocalcinosis is connected with conditions that cause hypercalcaemia, hyperphosphatemia, and the increased excretion of calcium, phosphate, and/or oxalate in the urine. A high urine pH can lead to nephrocalcinosis but only if it is accompanied by hypercalciuria and hypocitraturia, since having a normal urinary citrate usually inhibits the crystallization of calcium. In conjunction with nephrocalcinosis, hypercalcaemia and hypercalciuria the following can occur:[5]

Medullary nephrocalcinosis

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Medullary nephrocalcinosis in sonography

And other causes of hypercalcaemia (and thus hypercalciuria)[5]

Hypercalciuria without hypercalcaemia

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These conditions can cause nephrocalcinosis in association with hypercalciuria without hypercalcaemia:[citation needed]

Mechanism

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Nephrocalcinosis is caused by an increase in the urinary excretion of calcium, phosphate, and/or oxalate.[1] Nephrocalcinosis is closely associated with nephrolithiasis, and patients frequently present with both conditions, however there have been cases where one occurs without the other.[1] Calcium oxalate and calcium phosphate crystals form when the concentration of the reactants exceeds the limit of solubility of these compounds under the physiological conditions prevailing locally in the organism. The deposits are collected in the inner medullary interstitium in the basement membranes of the thin limbs of the loop of Henle.[9] The calcium phosphate plaques can enlarge into the surrounding interstitial tissue, or even rupture into the tubule lumen and can promote calcium oxalate stone formation.[1]

Diagnosis

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Nephrocalcinosis is diagnosed for the most part by imaging techniques. The imagings used are ultrasound (US), abdominal plain film and CT imaging.[10] Of the 3 techniques CT and US are the preferred modalities.

In some cases a renal biopsy is done instead if imaging is not enough to confirm nephrocalcinosis. Once the diagnosis is confirmed additional testing is needed to find the underlying cause because the underlying condition may require treatment for reasons independent of nephrocalcinosis.[10] These additional tests will measure serum, electrolytes, calcium, and phosphate, and the urine pH.[10] If no underlying cause can be found then urine collection should be done for 24 hours and measurements of the excretion of calcium, phosphate, oxalate, citrate, and creatinine are looked at.[10]

Stages of nephrocalcinosis

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  • Chemical or Molecular nephrocalcinosis: Defined as a measurable increase in intracellular calcium concentrations, however, it is not visible through X-ray or microscopically.[1]
  • Microscopic nephrocalcinosis: Occurs when depositis are visible by light microscope by obtaining a tissue sample from a biopsy. However, this cannot be seen in an X-ray.[1]
  • Macroscopic nephrocalcinosis: Occurs when calcification can be seen through X-ray imaging.[1]

Treatment

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Increasing fluid intake to yield a urine output of greater than 2 liters a day can be advantageous for all patients with nephrocalcinosis. Patients with hypercalciuria can reduce calcium excretion by restricting animal protein, limiting sodium intake to less than 100 meq a day and being lax of potassium intake. If changing one's diet alone does not result in a suitable reduction of hypercalciuria, a thiazide diuretic can be administered in patients who do not have hypercalcemia. Citrate can increase the solubility of calcium in urine and limit the development of nephrocalcinosis. Citrate is not given to patients who have urine pH equal to or greater than 7.[citation needed]

Prognosis

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The prognosis of nephrocalcinosis is determined by the underlying cause. Most cases of nephrocalcinosis do not progress to end stage renal disease, however if not treated it can lead to renal dysfunction this includes primary hyperoxaluria, hypomagnesemic hypercalciuric nephrocalcinosis and Dent's disease.[11] Once nephrocalcinosis is found, it is unlikely to be reversed, however, partial reversal has been reported in patients who have had successful treatment of hypercalciuria and hyperoxaluria following corrective intestinal surgery.[11]

Recent research

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In recent findings they have found that there is a genetic predisposition to nephrocalciosis, however the specific genetic and epigenetic factors are not clear. There seems to be multiple genetic factors that regulate the excretion of the different urinary risk factors. There has been some correlation seen that shows gene polymorphisms related to stone formation for calcium-sensing receptor and vitamin D receptors.[12] Repeated calcium stones associated with medullary sponge kidney may be related to an autosomal dominant mutation of a still unknown gene, however the genes is GDNF seems to be a gene involved in renal morphogenesis.[12] In conjunction with the gene research is another theory of how the disease manifests. This is called the free particle theory. This theory says that the increasing concentration of lithogenic solutes along the segments of the nephron leads to the formation, growth, and collection of crystals that might get trapped in the tubular lumen and begin the process of stone formation.[13] Some of the backing behind this theory is the speed of growth of the crystals, the diameter of the segments of the nephron, and the transit time in the nephron. All of these combined show more and more support for this theory.[13]

References

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  1. ^ a b c d e f g h Sayer, John A.; Carr, Georgina; Simmons, Nicholas L. (June 2004). "Nephrocalcinosis: molecular insights into calcium precipitation within the kidney". Clinical Science. 106 (6): 549–561. doi:10.1042/CS20040048. ISSN 0143-5221. PMID 15027893.
  2. ^ "Nephrocalcinosis". eMedicine. 2003-09-09. Retrieved 2007-03-10.
  3. ^ "Albright's Nephrocalcinosis". e-radiology. Retrieved 2007-03-10.
  4. ^ a b c d e f g "Nephrocalcinosis, Clinical presentation". UpToDate Online. January 2010. Retrieved 2010-05-29.
  5. ^ a b "Hypercalcemia". The Lecturio Medical Concept Library. Retrieved 25 July 2021.
  6. ^ Suh, Jane M.; Cronan, John J.; Monchik, Jack M. (September 2008). "Primary hyperparathyroidism: is there an increased prevalence of renal stone disease?". AJR. American Journal of Roentgenology. 191 (3): 908–911. doi:10.2214/AJR.07.3160. ISSN 1546-3141. PMID 18716127.
  7. ^ Muther, R. S.; McCarron, D. A.; Bennett, W. M. (April 1981). "Renal manifestations of sarcoidosis". Archives of Internal Medicine. 141 (5): 643–645. doi:10.1001/archinte.141.5.643. ISSN 0003-9926. PMID 7224744.
  8. ^ a b c d Dickson, Fay J.; Sayer, John A. (2020-01-06). "Nephrocalcinosis: A Review of Monogenic Causes and Insights They Provide into This Heterogeneous Condition". International Journal of Molecular Sciences. 21 (1): 369. doi:10.3390/ijms21010369. ISSN 1422-0067. PMC 6981752. PMID 31935940.
  9. ^ Evan, Andrew P.; Lingeman, James E.; Coe, Fredric L.; Parks, Joan H.; Bledsoe, Sharon B.; Shao, Youzhi; Sommer, Andre J.; Paterson, Ryan F.; Kuo, Ramsay L. (March 2003). "Randall's plaque of patients with nephrolithiasis begins in basement membranes of thin loops of Henle". The Journal of Clinical Investigation. 111 (5): 607–616. doi:10.1172/JCI17038. ISSN 0021-9738. PMC 151900. PMID 12618515.
  10. ^ a b c d Kim, Y. G.; Kim, B.; Kim, M. K.; Chung, S. J.; Han, H. J.; Ryu, J. A.; Lee, Y. H.; Lee, K. B.; Lee, J. Y. (December 2001). "Medullary nephrocalcinosis associated with long-term furosemide abuse in adults". Nephrology, Dialysis, Transplantation. 16 (12): 2303–2309. doi:10.1093/ndt/16.12.2303. ISSN 0931-0509. PMID 11733620.
  11. ^ a b Davidson, AM (2005). Oxford Textbook of Clinical Nephrology. Oxford University Press. p. 1375.
  12. ^ a b Gambaro, Giovanni; Trinchieri, Alberto (2016-04-18). "Recent advances in managing and understanding nephrolithiasis/nephrocalcinosis". F1000Research. 5: 695. doi:10.12688/f1000research.7126.1. ISSN 2046-1402. PMC 4837977. PMID 27134735.
  13. ^ a b Pajarinen, Jukka; Gallo, Jiri; Takagi, Michiaki; Goodman, Stuart B.; Mjöberg, Bengt (2017-11-16). "Particle disease really does exist". Acta Orthopaedica. 89 (1): 133–136. doi:10.1080/17453674.2017.1402463. ISSN 1745-3674. PMC 5810823. PMID 29143557.
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