Renal tubular acidosis epidemiology and demographics: Difference between revisions
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==Epidemiology== | ==Epidemiology== | ||
===Incidence=== | ===Incidence=== | ||
* The estimated annual incidence of distal renal tubular acidosis is 10 in 100,000 population. | |||
* Proximal renal tubular acidosis is a r | |||
===Prevalence=== | ===Prevalence=== | ||
* Demographics | |||
===Age=== | ===Age=== | ||
* Renal tubular acidosis is more common in infants than other group of population | |||
===Gender=== | ===Gender=== | ||
* Distal renal tubular acidosis affects men and women equally. | |||
* However, proximal renal tubular acidosis is more common in males than females. | |||
===Race=== | ===Race=== | ||
* There is racial predilection for renal tubular acidosis. | |||
:: | |||
; • | |||
; • | |||
: There is no sex predominance in DRTA or in Type 4 RTA. | |||
; • | |||
: DRTA may be inherited as an autosomal dominant or recessive trait. | |||
:; ○ | |||
:: Autosomal recessive DRTA often presents in infancy, whereas autosomal dominant DRTA may not present until adolescence or young adulthood. | |||
:; ○ | |||
:: Mutations in the genes encoding carbonic anhydrase II, kidney anion exchanger 1 (kAE1), and subunits of the renal proton pump (H+‐ATPase) have been identified in patients with DRTA. | |||
; • | |||
: DRTA is almost always permanent. | |||
; • | |||
: Isolated PRTA is more common in males. | |||
; • | |||
: Isolated PRTA may be transient. | |||
; • | |||
: Genetically transmitted PRTAs include autosomal dominant and recessive forms. | |||
; • | |||
: PRTA (with ocular abnormalities) may be caused by inactivating mutations in the Na/HCO3 cotransporter gene (SLC4A4). | |||
; • | |||
: PRTA may also be associated with other genetically transmitted disorders, such as osteopetrosis with carbonic anhydrase II deficiency. | |||
; • | |||
: Inherited defects leading to Type 4 RTA are due to aldosterone deficiency or resistance. | |||
:; ○ | |||
:: Congenital adrenal hyperplasia with salt wasting | |||
:; ○ | |||
:: Isolated hypoaldosteronism | |||
:; ○ | |||
:: Pseudohypoaldosteronism (defect at the aldosterone receptor level) | |||
==References== | ==References== | ||
{{reflist|2}} | {{reflist|2}} | ||
Revision as of 16:37, 29 May 2018
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] ; Associate Editor(s)-in-Chief: Aditya Ganti M.B.B.S. [2]
Overview
Epidemiology
Incidence
- The estimated annual incidence of distal renal tubular acidosis is 10 in 100,000 population.
- Proximal renal tubular acidosis is a r
Prevalence
- Demographics
Age
- Renal tubular acidosis is more common in infants than other group of population
Gender
- Distal renal tubular acidosis affects men and women equally.
- However, proximal renal tubular acidosis is more common in males than females.
Race
- There is racial predilection for renal tubular acidosis.
- •
- •
- There is no sex predominance in DRTA or in Type 4 RTA.
- •
- DRTA may be inherited as an autosomal dominant or recessive trait.
- ○
- Autosomal recessive DRTA often presents in infancy, whereas autosomal dominant DRTA may not present until adolescence or young adulthood.
- ○
- Mutations in the genes encoding carbonic anhydrase II, kidney anion exchanger 1 (kAE1), and subunits of the renal proton pump (H+‐ATPase) have been identified in patients with DRTA.
- •
- DRTA is almost always permanent.
- •
- Isolated PRTA is more common in males.
- •
- Isolated PRTA may be transient.
- •
- Genetically transmitted PRTAs include autosomal dominant and recessive forms.
- •
- PRTA (with ocular abnormalities) may be caused by inactivating mutations in the Na/HCO3 cotransporter gene (SLC4A4).
- •
- PRTA may also be associated with other genetically transmitted disorders, such as osteopetrosis with carbonic anhydrase II deficiency.
- •
- Inherited defects leading to Type 4 RTA are due to aldosterone deficiency or resistance.
- ○
- Congenital adrenal hyperplasia with salt wasting
- ○
- Isolated hypoaldosteronism
- ○
- Pseudohypoaldosteronism (defect at the aldosterone receptor level)