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Distal renal tubular acidosis

April 14, 2024

Distal renal tubular acidosis (dRTA) is the classical form of RTA, being the first described. Distal RTA is characterized by a failure of acid secretion by the alpha intercalated cells of the distal tubule and cortical collecting duct of the distal nephron.[1] This failure of acid secretion may be due to a number of causes. It leads to relatively alkaline urine, due to the kidney's inability to acidify the urine to a pH of less than 5.3.[citation needed]

Distal renal tubular acidosis
Other namesType 1 renal tubular acidosis
Radiograph of a person with rickets, a complication of both distal and proximal RTA.

Symptoms and signs edit

Because renal excretion is the primary means of eliminating acid from the body, there is consequently a tendency towards acidemia. This leads to the clinical features of dRTA:[2]

The symptoms and sequelae of dRTA are variable and range from being completely asymptomatic, to loin pain and hematuria from kidney stones, to failure to thrive and severe rickets in childhood forms as well as possible renal failure and even death.[citation needed]

dRTA commonly leads to sodium loss and volume contraction, which causes a compensatory increase in blood levels of aldosterone.[4] Aldosterone causes increased resorption of sodium and loss of potassium in the collecting duct of the kidney, so these increased aldosterone levels cause the hypokalemia which is a common symptom of dRTA.[4]

Causes edit

 
Diagram depicting an alpha intercalated cell with the apical proton pump and basolateral band 3 (kAE1)

Diagnosis edit

The pH of patient's blood is highly variable, and acidemia is not necessarily characteristic of people with dRTA at any given time. One may have dRTA caused by alpha intercalated cell failure without necessarily being acidemic; termed incomplete dRTA, which is characterized by an inability to acidify urine, without affecting blood pH or plasma bicarbonate levels.[14] The diagnosis of dRTA can be made by the observation of a relatively alkaline urinary pH of greater than 5.3 in the face of a systemic acidemia (usually taken to be a serum bicarbonate of 20 mmol/L or less). In the case of an incomplete dRTA, failure to acidify the urine following an oral acid loading challenge is often used as a test. The test usually performed is the short ammonium chloride test,[15] in which ammonium chloride capsules are used as the acid load. More recently, an alternative test using furosemide and fludrocortisone has been described.[16]

dRTA has been proposed as a possible diagnosis for the unknown malady plaguing Tiny Tim in Charles Dickens' A Christmas Carol.[17][18]

Treatment edit

This is relatively straightforward. It involves correction of the acidemia with oral sodium bicarbonate, sodium citrate or potassium citrate. This will correct the acidemia and reverse bone demineralisation. Hypokalemia and urinary stone formation and nephrocalcinosis can be treated with potassium citrate tablets which not only replace potassium but also inhibit calcium excretion and thus do not exacerbate stone disease as sodium bicarbonate or citrate may do.[19]

See also edit

References edit

  1. ^ "Osmosis: Renal tubular acidosis". Osmosis. from the original on 2020-10-20.
  2. ^ Laing CM, Toye AM, Capasso G, Unwin RJ (2005). "Renal tubular acidosis: developments in our understanding of the molecular basis". Int. J. Biochem. Cell Biol. 37 (6): 1151–61. doi:10.1016/j.biocel.2005.01.002. PMID 15778079.
  3. ^ Buckalew VM Jr (1989). "Nephrolithiasis in renal tubular acidosis". The Journal of Urology. 141 (3 (part 2)): 731–737. doi:10.1016/S0022-5347(17)40997-9. PMID 2645431.
  4. ^ a b Wein, Alan, J (2011). Campbell-walsh Urology Expert Consult (PDF) (10th ed.). Philadelphia, PA: W B Saunders Co. p. 1045. ISBN 978-1-4160-6911-9.{{cite book}}: CS1 maint: multiple names: authors list (link)
  5. ^ Wrong OM, Feest TG, MacIver AG (1993). "Immune-related potassium-losing interstitial nephritis: a comparison with distal renal tubular acidosis". Q. J. Med. 86 (8): 513–34. doi:10.1093/qjmed/86.8.513. PMID 8210309.
  6. ^ Bruce LJ, Cope DL, Jones GK, et al. (1997). "Familial distal renal tubular acidosis is associated with mutations in the red cell anion exchanger (Band 3, AE1) gene". J. Clin. Invest. 100 (7): 1693–707. doi:10.1172/JCI119694. PMC 508352. PMID 9312167.
  7. ^ Bruce LJ, Wrong O, Toye AM, et al. (2000). "Band 3 mutations, renal tubular acidosis and South-East Asian ovalocytosis in Malaysia and Papua New Guinea: loss of up to 95% band 3 transport in red cells". Biochem. J. 350 Pt 1 (Pt 1): 41–51. doi:10.1042/0264-6021:3500041. PMC 1221222. PMID 10926824.
  8. ^ Wagner, CA; Finberg, KE; Breton, S; Marshansky, V; Brown, D; Geibel, JP (October 2004). "Renal Vacuolar H+-ATPase". Physiological Reviews. 84 (4): 1263–314. doi:10.1152/physrev.00045.2003. PMID 15383652.
  9. ^ Karet FE, Finberg KE, Nelson RD, et al. (1999). "Mutations in the gene encoding B1 subunit of H+-ATPase cause renal tubular acidosis with sensorineural deafness". Nat. Genet. 21 (1): 84–90. doi:10.1038/5022. PMID 9916796. S2CID 34262548.
  10. ^ Skinner R, Pearson AD, English MW, et al. (1996). "Risk factors for ifosfamide nephrotoxicity in children". Lancet. 348 (9027): 578–80. doi:10.1016/S0140-6736(96)03480-0. PMID 8774570. S2CID 12624019.
  11. ^ Boton R, Gaviria M, Batlle DC (1987). "Prevalence, pathogenesis, and treatment of renal dysfunction associated with chronic lithium therapy". Am. J. Kidney Dis. 10 (5): 329–45. doi:10.1016/s0272-6386(87)80098-7. PMID 3314489.
  12. ^ McCurdy DK, Frederic M, Elkinton JR (1968). "Renal tubular acidosis due to amphotericin B". N. Engl. J. Med. 278 (3): 124–30. doi:10.1056/NEJM196801182780302. PMID 5634966.
  13. ^ Carlisle, E. J.; Donnelly, S. M.; Vasuvattakul, S.; Kamel, K. S.; Tobe, S.; Halperin, M. L. (February 1991). "Glue-sniffing and distal renal tubular acidosis: sticking to the facts". Journal of the American Society of Nephrology. 1 (8): 1019–1027. doi:10.1681/ASN.V181019. ISSN 1046-6673. PMID 1912400.
  14. ^ Batlle, D.; Haque, S. K. (2012). "Genetic causes and mechanisms of distal renal tubular acidosis". Nephrology Dialysis Transplantation. 27 (10): 3691–3704. doi:10.1093/ndt/gfs442. PMID 23114896.
  15. ^ Wrong, O; Davies HEF (1959). "The Excretion of Acid in Renal Disease". QJM. 28 (110): 259–313. PMID 13658353.
  16. ^ Walsh SB, Shirley DG, Wrong OM, Unwin RJ (2007). "Urinary acidification assessed by simultaneous furosemide and fludrocortisone treatment: an alternative to ammonium chloride". Kidney Int. 71 (12): 1310–6. doi:10.1038/sj.ki.5002220. PMID 17410104.
  17. ^ Lewis D (1992). "What was wrong with Tiny Tim?". Am J Dis Child. 146 (12): 1403–7. doi:10.1001/archpedi.1992.02160240013002. PMID 1340779.
  18. ^ . Time. 1992-12-28. Archived from the original on September 30, 2007. Retrieved 2010-05-22.
  19. ^ Morris RC, Sebastian A (2002). "Alkali therapy in renal tubular acidosis: who needs it?" (PDF). J. Am. Soc. Nephrol. 13 (8): 2186–8. doi:10.1097/01.ASN.0000027973.07189.00. PMID 12138154.

External links edit

April 14, 2024
distal, renal, tubular, acidosis, drta, classical, form, being, first, described, distal, characterized, failure, acid, secretion, alpha, intercalated, cells, distal, tubule, cortical, collecting, duct, distal, nephron, this, failure, acid, secretion, number, . Distal renal tubular acidosis dRTA is the classical form of RTA being the first described Distal RTA is characterized by a failure of acid secretion by the alpha intercalated cells of the distal tubule and cortical collecting duct of the distal nephron 1 This failure of acid secretion may be due to a number of causes It leads to relatively alkaline urine due to the kidney s inability to acidify the urine to a pH of less than 5 3 citation needed Distal renal tubular acidosisOther namesType 1 renal tubular acidosisRadiograph of a person with rickets a complication of both distal and proximal RTA Contents 1 Symptoms and signs 2 Causes 3 Diagnosis 4 Treatment 5 See also 6 References 7 External linksSymptoms and signs editBecause renal excretion is the primary means of eliminating acid from the body there is consequently a tendency towards acidemia This leads to the clinical features of dRTA 2 Normal anion gap metabolic acidosis acidemia Hypokalemia Urinary stone formation related to alkaline urine hypercalciuria and low urinary citrate 3 Nephrocalcinosis deposition of calcium in the substance of the kidney Bone demineralisation causing rickets in children and osteomalacia in adults The symptoms and sequelae of dRTA are variable and range from being completely asymptomatic to loin pain and hematuria from kidney stones to failure to thrive and severe rickets in childhood forms as well as possible renal failure and even death citation needed dRTA commonly leads to sodium loss and volume contraction which causes a compensatory increase in blood levels of aldosterone 4 Aldosterone causes increased resorption of sodium and loss of potassium in the collecting duct of the kidney so these increased aldosterone levels cause the hypokalemia which is a common symptom of dRTA 4 Causes edit nbsp Diagram depicting an alpha intercalated cell with the apical proton pump and basolateral band 3 kAE1 Autoimmune disease Classically Sjogren s syndrome but it is also associated with systemic lupus erythematosus rheumatoid arthritis and even hypergammaglobulinemia Hypokalaemia is often severe in these cases 5 Hereditary causes include mutations of Band 3 6 the basolateral bicarbonate transporter of the intercalated cell which may be transmitted in an autosomal dominant fashion in western European cases or in an autosomal recessive fashion in South East Asian cases The South East Asian cases are associated with more severe hypokalemia 7 Other hereditary causes include mutations of subunits of the apical proton pump vH ATPase 8 which are transmitted in an autosomal recessive fashion and may be associated with sensorineural deafness 9 Liver cirrhosis Nephrocalcinosis While it is a consequence of dRTA it can also be a cause related to calcium induced damage of the cortical collecting duct Renal transplantation Sickle cell anemia Toxins including ifosfamide more commonly causing pRTA than dRTA 10 lithium carbonate 11 and amphotericin B 12 Chronic urinary tract obstruction Toluene causes a non anion gap metabolic acidosis with hypokalemia and a positive urinary anion gap that looks a lot like distal RTA but there is no hydrogen secretion defect and the acidosis is due to acid production during the metabolism of toluene 13 Diagnosis editThe pH of patient s blood is highly variable and acidemia is not necessarily characteristic of people with dRTA at any given time One may have dRTA caused by alpha intercalated cell failure without necessarily being acidemic termed incomplete dRTA which is characterized by an inability to acidify urine without affecting blood pH or plasma bicarbonate levels 14 The diagnosis of dRTA can be made by the observation of a relatively alkaline urinary pH of greater than 5 3 in the face of a systemic acidemia usually taken to be a serum bicarbonate of 20 mmol L or less In the case of an incomplete dRTA failure to acidify the urine following an oral acid loading challenge is often used as a test The test usually performed is the short ammonium chloride test 15 in which ammonium chloride capsules are used as the acid load More recently an alternative test using furosemide and fludrocortisone has been described 16 dRTA has been proposed as a possible diagnosis for the unknown malady plaguing Tiny Tim in Charles Dickens A Christmas Carol 17 18 Treatment editThis is relatively straightforward It involves correction of the acidemia with oral sodium bicarbonate sodium citrate or potassium citrate This will correct the acidemia and reverse bone demineralisation Hypokalemia and urinary stone formation and nephrocalcinosis can be treated with potassium citrate tablets which not only replace potassium but also inhibit calcium excretion and thus do not exacerbate stone disease as sodium bicarbonate or citrate may do 19 See also editRenal tubular acidosis Proximal renal tubular acidosis IfosfamideReferences edit Osmosis Renal tubular acidosis Osmosis Archived from the original on 2020 10 20 Laing CM Toye AM Capasso G Unwin RJ 2005 Renal tubular acidosis developments in our understanding of the molecular basis Int J Biochem Cell Biol 37 6 1151 61 doi 10 1016 j biocel 2005 01 002 PMID 15778079 Buckalew VM Jr 1989 Nephrolithiasis in renal tubular acidosis The Journal of Urology 141 3 part 2 731 737 doi 10 1016 S0022 5347 17 40997 9 PMID 2645431 a b Wein Alan J 2011 Campbell walsh Urology Expert Consult PDF 10th ed Philadelphia PA W B Saunders Co p 1045 ISBN 978 1 4160 6911 9 a href Template Cite book html title Template Cite book cite book a CS1 maint multiple names authors list link Wrong OM Feest TG MacIver AG 1993 Immune related potassium losing interstitial nephritis a comparison with distal renal tubular acidosis Q J Med 86 8 513 34 doi 10 1093 qjmed 86 8 513 PMID 8210309 Bruce LJ Cope DL Jones GK et al 1997 Familial distal renal tubular acidosis is associated with mutations in the red cell anion exchanger Band 3 AE1 gene J Clin Invest 100 7 1693 707 doi 10 1172 JCI119694 PMC 508352 PMID 9312167 Bruce LJ Wrong O Toye AM et al 2000 Band 3 mutations renal tubular acidosis and South East Asian ovalocytosis in Malaysia and Papua New Guinea loss of up to 95 band 3 transport in red cells Biochem J 350 Pt 1 Pt 1 41 51 doi 10 1042 0264 6021 3500041 PMC 1221222 PMID 10926824 Wagner CA Finberg KE Breton S Marshansky V Brown D Geibel JP October 2004 Renal Vacuolar H ATPase Physiological Reviews 84 4 1263 314 doi 10 1152 physrev 00045 2003 PMID 15383652 Karet FE Finberg KE Nelson RD et al 1999 Mutations in the gene encoding B1 subunit of H ATPase cause renal tubular acidosis with sensorineural deafness Nat Genet 21 1 84 90 doi 10 1038 5022 PMID 9916796 S2CID 34262548 Skinner R Pearson AD English MW et al 1996 Risk factors for ifosfamide nephrotoxicity in children Lancet 348 9027 578 80 doi 10 1016 S0140 6736 96 03480 0 PMID 8774570 S2CID 12624019 Boton R Gaviria M Batlle DC 1987 Prevalence pathogenesis and treatment of renal dysfunction associated with chronic lithium therapy Am J Kidney Dis 10 5 329 45 doi 10 1016 s0272 6386 87 80098 7 PMID 3314489 McCurdy DK Frederic M Elkinton JR 1968 Renal tubular acidosis due to amphotericin B N Engl J Med 278 3 124 30 doi 10 1056 NEJM196801182780302 PMID 5634966 Carlisle E J Donnelly S M Vasuvattakul S Kamel K S Tobe S Halperin M L February 1991 Glue sniffing and distal renal tubular acidosis sticking to the facts Journal of the American Society of Nephrology 1 8 1019 1027 doi 10 1681 ASN V181019 ISSN 1046 6673 PMID 1912400 Batlle D Haque S K 2012 Genetic causes and mechanisms of distal renal tubular acidosis Nephrology Dialysis Transplantation 27 10 3691 3704 doi 10 1093 ndt gfs442 PMID 23114896 Wrong O Davies HEF 1959 The Excretion of Acid in Renal Disease QJM 28 110 259 313 PMID 13658353 Walsh SB Shirley DG Wrong OM Unwin RJ 2007 Urinary acidification assessed by simultaneous furosemide and fludrocortisone treatment an alternative to ammonium chloride Kidney Int 71 12 1310 6 doi 10 1038 sj ki 5002220 PMID 17410104 Lewis D 1992 What was wrong with Tiny Tim Am J Dis Child 146 12 1403 7 doi 10 1001 archpedi 1992 02160240013002 PMID 1340779 What Ailed Tiny Tim Time 1992 12 28 Archived from the original on September 30 2007 Retrieved 2010 05 22 Morris RC Sebastian A 2002 Alkali therapy in renal tubular acidosis who needs it PDF J Am Soc Nephrol 13 8 2186 8 doi 10 1097 01 ASN 0000027973 07189 00 PMID 12138154 External links edit Retrieved from https en wikipedia org w index php title Distal renal tubular acidosis amp oldid 1136288474, wikipedia, wiki, book, books, library,

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