Gout pathophysiology: Difference between revisions

Revision as of 18:40, 5 October 2020

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivam Singla, M.D.[2]

Overview

Pathophysiology

The pathophysiology of Gout mainly relates to hyperuricemia. Greater is the degree of hyperuricemia greater is the likelihood of developing Gout.

Numerous reasons can lead to the development of an increase in the level of uric acids:

Enhanced or increased purine uptake.
Decreased excretion of uric acid
Increased production of uric acid
Etiology in a lot of cases with rising uric acid levels is still unknown.

Increased intake

The increased uptake is mainly related to

Increases intake of purine-rich food substances by the patient such as
- Asparagus, meat broths, mushrooms, liver, kidney, sweetbreads.
- The increased intake of all of these substances can increase the risk of accumulation of more and more purines ultimately resulting in the excess of uric acid.

Beer is also particularly rich in guanosine which is a purine nucleotide.

Increased production

The increased production is mainly related to conditions associated with

Increase in turn over of cells like in various hematological conditions such as Hemolytic anemia, leukemia, and lymphoma.
Conditions associated with an increased rate of cell proliferation and cell death.
- Cytotoxic therapy
- Radiation
- Psoriasis
Obesity - As the urate production is directly proportional to the body surface area
Hereditary conditions
Enzymatic Pathway resulting in hyperuricemia- De novo synthesis pathway and HGPRT pathway http://themedicalbiochemistrypage.org/nucleotides-biosynthesis-catabolism/
Enzyme abnormalities
- Overactivity of Phosphoribosyltransferase
- Deficiency of HGPRT
- Absence of HGPRT ( Lesch-Nyhan syndrome)

Decreased/Reduced renal excretion

This is the most common cause of hyperuricemia. Various factors responsible for its reduced elimination are:

Hereditary
Compromised renal function ( Reduced GFR)
On Diuretics
Alcohol intake
- The lactic acid blocks the excretion of urate from the renal tubules. Alcohol induces the purine metabolism in the liver and increases the formation of lactic acid and
- Alcohol also directly stimulates the synthesis of urate by the liver

Drugs like cyclosporine that are toxic to the renal tubules leads to the decreased elimination of uric acid and ultimately resulting in the urate retention.

Gross Pathology

Kidney: Uric Acid Deposition: Gross, an excellent example of gouty nephropathy with deposits and excavation in pyramids

Kidney: Papillary Necrosis: Gross, yellow foci in pyramids, a gout kidney

Microscopic Pathology

Gout (Needles, no birefringence, monosodium urate)

Skin: Tophus: Micro med mag H&E uric acid deposits with giant cells. Easily recognizable as gout or uric acid tophus

Sources

Copyleft images obtained courtesy of Charlie Goldberg, M.D., UCSD School of Medicine and VA Medical Center, San Diego, CA) Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, the University of Alabama at Birmingham, Department of Pathology

References

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@@ Line 14: / Line 14: @@
 The pathophysiology of Gout mainly relates to hyperuricemia. Greater is the degree of hyperuricemia greater is the likelihood of developing Gout.
-There are numerous reasons that can lead to the development of an increase in the level of uric acids:
+Numerous reasons can lead to the development of an increase in the level of uric acids:
 *Enhanced or increased purine uptake.
@@ Line 43: / Line 43: @@
 **Psoriasis
 *Obesity - As the urate production is directly proportional to the body surface area
-*Hereditary conditions[[File:Purine catabolism pathway.jpg|thumb|The two most important pathways responsible for the development of hyperuricemia- De novo synthesis pathway and HGPRT pathway]]
+*Hereditary conditions[[File: Purine catabolism pathway.jpg|thumb|Enzymatic Pathway resulting in hyperuricemia- De novo synthesis pathway and HGPRT pathway
+http://themedicalbiochemistrypage.org/nucleotides-biosynthesis-catabolism/]]
 *Enzyme abnormalities
 **Overactivity of Phosphoribosyltransferase
@@ Line 78: / Line 79: @@
 {| align="center"
 |- valign="top"
-|[[Image:Gout (no birefringence).jpg|thumb|Gout (Needles, no birefringence, monosodium urate)]]
+|[[Image: Gout (no birefringence).jpg|thumb|Gout (Needles, no birefringence, monosodium urate)]]
-|[[Image:Gout 0003.jpg|thumb|Skin: Tophus: Micro med mag H&E uric acid deposits with giant cells. Easily recognizable as gout or uric acid tophus]]
+|[[Image: Gout 0003.jpg|thumb|Skin: Tophus: Micro med mag H&E uric acid deposits with giant cells. Easily recognizable as gout or uric acid tophus]]
 |
 |
@@ Line 85: / Line 86: @@
 ==Sources==
-Copyleft images obtained courtesy of Charlie Goldberg, M.D., UCSD School of Medicine and VA Medical Center, San Diego, CA) [http://www.peir.net Images courtesy of Professor Peter Anderson DVM PhD and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology]
+Copyleft images obtained courtesy of Charlie Goldberg, M.D., UCSD School of Medicine and VA Medical Center, San Diego, CA) [http://www.peir.net Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, the University of Alabama at Birmingham, Department of Pathology]
 ==References==