Gout

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Gout
Classification and external resources
Uric acid
ICD-10 M10.
ICD-9 274.0 274.1 274.8 274.9
OMIM 138900 300323
DiseasesDB 29031
eMedicine emerg/221  med/924 med/1112 oph/506 orthoped/124 radio/313
MeSH D006073

Gout (metabolic arthritis) is a crystal deposition disease hallmarked by elevated levels of uric acid (hyperuricemia) in the bloodstream. In this condition, crystals of monosodium urate (MSU) or uric acid are deposited on the articular cartilage of joints, tendons and surrounding tissues. It is marked by transient painful attacks of acute arthritis initiated by crystallization of urates within and about the joints and eventually leads to chronic gouty arthritis and the deposition of masses of urates in joints and other sites, creating tophi. Gout results from a combination of prolonged elevation of uric acid and overall acidity in the bloodstream. In isolation, neither elevated uric acid nor acidity is sufficient to cause gout.[1]

Contents

[edit] Signs and symptoms

The Gout, cartoon by James Gillray (1799).

Gout is characterized by excruciating, sudden, unexpected, burning pain, as well as swelling, redness, warmth, and stiffness in the affected joint. This occurs most commonly in men's toes but can appear in other parts of the body and affect women as well. Low-grade fever may also be present. The patient usually suffers from two sources of pain. The crystals inside the joint cause intense pain whenever the affected area is moved. The inflammation of the tissues around the joint also causes the skin to be swollen, tender and sore if it is even slightly touched. For example, a blanket or even the lightest sheet draped over the affected area can cause extreme pain.

Gout usually attacks the big toe (approximately 75 percent of first attacks); however, it also can affect other joints such as the ankle, heel, instep, knee, wrist, elbow, fingers, or spine. In some cases, the condition may appear in the joints of small toes that have become immobile due to impact injury earlier in life; the resulting poor blood circulation can lead to gout.

Patients with long-standing hyperuricemia (see below) can have uric acid crystal deposits called tophi (singular: tophus) in other tissues such as the helix of the ear. Elevated levels of uric acid in the urine can lead to uric-acid crystals precipitating in the kidneys or bladder, forming uric-acid kidney stones.

[edit] Pathophysiology

Gout with tophi on elbow and knee.

Gout occurs when crystals of uric acid, in the form of monosodium urate, precipitate on the articular cartilage of joints, on tendons, and in the surrounding tissues. Uric acid is a normal component of blood serum. Uric acid is more likely to form into crystals when there is hyperuricemia, although hyperuricemia is 10 times more common without clinical gout than with it.[2] Gout can also occur when serum uric acid is normal, and when it is abnormally low (hypouricemia). Paradoxically, acute attacks of gout can occur together with a sudden decrease in serum uric acid, such as due to use of drugs (uricosurics, xanthine oxidase inhibitors), or total parenteral nutrition.[3] However, correlation does not imply causation. The sudden decrease may be a consequence of abrupt formation of crystals (removing uric acid from the serum), rather than a cause.

Regardless of the serum concentration of uric acid, precipitation of uric acid is markedly enhanced when the blood pH is low (acidosis). A similar pH-sensitive effect occurs in urine,[4] contributing to uric acid nephrolithiasis.

Uric acid is a product of purine metabolism, and in humans is normally excreted in the urine. Purines are generated by the body via breakdown of cells in normal cellular turnover, and also are ingested as part of a normal diet. The kidneys are responsible for approximately two-thirds of uric acid excretion, with the gut responsible for the rest.

[edit] Causes

Gout may be primary (including idiopathic), or secondary to (a complication of) another condition.

[edit] Primary gout

About 10% of people with hyperuricemia develop gout.[5]

The high levels of uric acid in the blood are caused by protein rich foods. Alcohol intake often causes acute attacks of gout and hereditary factors may contribute to the elevation of uric acid, e.g. inborn errors of purine-pyrimidine metabolism. Typically, persons with gout are obese, predisposed to diabetes and hypertension, and at higher risk of heart disease. Gout is more common in affluent societies due to a diet rich in proteins, fat, and alcohol. It is not rare, however, to find gout among the poorer classes, who drink large quantities of alcohol, and whose food is insufficient in quantity and quality. This is known as "poor man's gout." [6][7]

When it follows as a consequence of other health conditions such as renal failure, it is often regardless of the person's lifestyle.[8] Some studies have established a statistical connection between gout and lead poisoning,[9] and a significant correlation between levels of lead in the body and urate excretion and gout.[10] It is known that lead sugar was used to sweeten wine, and that chronic lead poisoning is a cause of gout,[11][12] and condition is then known as saturnine gout, because of its association with lead (Saturnus was the alchemists' term for the metal lead).[13]

Diuretics (particularly thiazide diuretics) have traditionally been blamed for precipitating attacks of gout because they compete at the same transporter, but a Dutch case-control study from 2006 appears to cast doubt on this conclusion.[14]

[edit] Secondary gout

Secondary gout is a complication of other medical conditions. Medical conditions that commonly result in gout include:

Gout also can develop as a co-morbidity of other diseases, including polycythaemia, intake of cytotoxics, obesity, diabetes, hypertension, renal disorders, and hemolytic anemia. Gout is an important complication in a minority of solid organ transplant.[15]

Because some approved treatments for these other conditions also reduce serum uric acid, individualized treatment of gout has the potential to improve outcome.[16]

[edit] Diagnosis

Spiked rods of uric acid crystals photographed under a microscope with polarized light from a synovial fluid sample. Formation of uric acid crystals in the joints are associated with gout.

Clinically, gout can be hard to distinguish from several other conditions, including chondrocalcinosis. Chondrocalcinosis is a very similar disease, caused by deposition of calcium pyrophosphate rather than uric acid.

A definitive diagnosis of gout requires aspiration of synovial fluid from the affected joint or tissue. The fluid is examined by light microscopy for crystals of monosodium urate intracellular within polymorphonuclear leukocytes.[citation needed] The urate crystal has a needle-like morphology and strong negative birefringence under polarised light. This test may be difficult to perform, and a trained observer does better in distinguishing this crystal from others. Many physicians do not perform this test, relying instead on a variety of less specific clinical signs and laboratory tests.[17]

The most informative clinical signs are the presence of classic podagra (sudden, unexplained swelling and pain of the big toe joint on just one foot) and the presence of tophi.[18] Gouty tophi, particularly when not located in a joint, can be mistaken for basal cell carcinoma[19] or other neoplasm.[20]

Hyperuricemia is a common feature of gout, so its presence supports a diagnosis of gout. However, gout can occur without hyperuricemia.[21] Hyperuricemia is defined as a plasma urate (uric acid) level greater than 420 μmol/L (7.0 mg/dL) in males, or 380 μmol/L in females. However, a high uric acid level does not necessarily mean a person will develop gout. Urate is within the normal range in up to two-thirds of cases.[22] If gout is suspected, the serum urate test should be repeated once the attack has subsided. Other blood tests commonly performed are full blood count, electrolytes, renal function, thyroid function tests and erythrocyte sedimentation rate (ESR). This helps to exclude other causes of arthritis, most notably septic arthritis, and to investigate any underlying cause for the hyperuricaemia.

Ultrasound imaging (US) can be helpful. US signs of gouty joints include a double-contour appearance of the cartilage and a snowstorm appearance of the synovial membrane.[23] US can also be used to guide aspiration.[23]

[edit] Treatment

Treatment has three objectives: manage symptoms of acute attacks, prevent acute attacks, and reduce serum uric acid.[24]

[edit] Acute attacks

The first line of treatment should be pain relief. Once the diagnosis has been confirmed, the drug options are of nonsteroidal anti-inflammatory drugs (NSAIDs), colchicine and oral glucocorticoids,[25] or intra-articular glucocorticoids administered via a joint injection.

NSAIDs such as diclofenac, etoricoxib, indomethacin, ketoprofen, naproxen or sulindac may be prescribed.[26] For those at risk of gastric irritation from NSAIDs, an additional proton pump inhibitor may be given.[27]

Colchicine remains a second line drug in the UK for those unable to tolerate NSAIDs,[27][28] but its side effect profile has resulted in its role being relegated, at least in the US, to after that of oral glucocorticoids.[29] It impairs the motility of granulocytes and can prevent the inflammatory phenomena that initiate an attack. Colchicine should be taken within the first 12 hours of the attack and usually relieves the pain within 48 hours, although side effects (gastrointestinal upset such as diarrhea and nausea) can complicate its use. NSAIDs are the preferred form of analgesia for patients with gout.

A randomized controlled trial found similar benefit from nonsteroidal anti-inflammatory drugs (single injection of diclofenac and then oral indomethacin) as from the oral glucocorticoid prednisolone; however, less adverse drug reactions occurred in the glucocorticoid group.[30]

Another possibility is acetazolamide, one of the first diuretics discovered. This drug inhibits the action of carbonic anhydrase on the proximal convoluted tubules within the kidneys, which effectively inhibits reabsorption of bicarbonate, thus alkalinizing the urine. After two to three days of usage, the diuretic effects of this drug decline because of increased downstream reabsorption of ions and water by the renal tubules; however, the alkalinization of urine persists, and this basic urine attracts weak acids such as uric acid and cystine into the urine, thus increasing their urinary excretion.

Before medical help is available, some over-the-counter medications can provide temporary relief from pain and swelling. NSAIDs such as ibuprofen can reduce the pain and inflammation slightly, although aspirin should not be used as it can worsen the condition. This is because aspirin raises plasma uric acid levels even at low doses by inhibiting uric acid secretion in the renal tubules[citation needed]. Aspirin also reduces vasodilatation due to inhibition of prostaglandin PGE2 and PGI2 synthesis in the renal medulla and glomeruli respectively (see mechanism of action of aspirin). This may be a contra-indication for the use of aspirin for gout pain as well.

The anti-hemorrhoidal ointment Preparation H can reduce gout-induced skin swelling temporarily. Ice may be applied for 20 to 30 minutes several times a day, and a randomized controlled trial found that patients who used ice packs had better relief of pain without side effects.[31] Since gout is caused by crystals, it has been suggested[citation needed] that keeping very well hydrated and heating the affected joint in hot water (rather than cooling with ice) will promote the dissolution and clearance of the urate crystals. Adequate hydration is a standard recommendation. However, a small study found that only icing, not heating, was beneficial.[32] Keeping the affected area elevated above the level of the heart also may help.[citation needed] Professional medical care is needed for long-term management of gout.

Due to swelling around affected joints for prolonged periods, shedding of skin may occur. This is particularly evident when small toes are affected and may promote fungal infection in the web region if dampness occurs, and treatment is similar to that for common athlete's foot.

Some sufferers of gout report an aggravation of the condition in the knees and toes associated with long periods of immobility, such as when sitting at a computer desk for long hours. Sufferers who notice early swelling or early pain may appear to be able to arrest the aggravation when medical treatment is applied before the condition gets worse. Where this is the case, a medically prescribed anti-inflammatory oral treatment taken with food and bed rest may provide relief within 6 to 8 hours.

[edit] Chronic joint changes

For extreme cases of gout, surgery may be necessary to remove large tophi and correct joint deformity.

Extensive tophi that invade bone are associated with arthritis due to bone erosion.[33]

[edit] Prevention

Prevention of chronic gout has a different objective than management of acute episodes (flareups). In an acute attack the objective is to reduce pain and inflammation. The objective of prevention is to stop any future attacks and associated cumulative tissue damage. Prevention strategies include reducing the supply of purine, dissolving crystals of uric acid so the uric acid can return to the blood, and increasing the excretion of uric acid from the blood into the urine, without causing lithiasis there. Prevention tactics involve careful diagnosis of the factors contributing to the gout, followed by appropriate use of medication, diet, and over the counter remedies.

[edit] Medication

Prescription drugs used to treat gout belong to several functional classes. These include xanthine oxidase inhibitors, uricosurics, and urate oxidases.

Probenecid, a uricosuric drug, often is prescribed for gout in conjunction with colchicine: see Probenecid and colchicine.

  • Allopurinol is a xanthine-oxidase inhibitor, widely used in the prevention of attacks of gout, and well tolerated. It is safe to use in patients with renal impairment and urate stones.[34] However, allopurinol and azathioprine (Imuran) used together present a risk of a potentially fatal drug interaction, a severe risk of allopurinol use which is of importance to transplant patients being treated with azathioprine for immunosuppression. [35]
  • Febuxostat ((2-[3-cyano-4-isobutoxyphenyl]-4-methylthiazole-5-carboxylic acid) - a non-purine inhibitor of xanthine oxidase seems to be an alternative that is superior to allopurinol at reducing serum urate levels, but not at reducing attacks of gout. The drug was approved by European Medicines Agency on April 21, 2008[36] and recommended for approval by the U.S. Food and Drug Administration on November 26, 2008[37].
  • In some cases, gout may be secondary to untreated sleep apnea, via the release of purines as a by-product of the breakdown of oxygen-starved cells. Treatment for apnea can therefore be effective in lessening incidence of acute gout attacks.[38]
  • Ethylenediaminetetraacetic acid (EDTA), a chelator of lead, has successfully increased uric acid excretion.[39] This should be an advantageous treatment for those people whose gout was caused by lead poisoning. Care should be taken to increase intake of trace essential elements since chelation often removes these elements also.

[edit] Diet

See Saag and Choi, 2006, an open-access review article, for detailed references and further information.[40]

The serum level of uric acid is the primary risk factor for gout. The serum level is the result of both intake (diet) and output (excretion). Diet should be low fat and low protein.

A 2004 study suggests that animal flesh sources of purine (such as beef and seafood) greatly increase the risk of developing gout. However, high-purine vegetable sources (such as asparagus, cauliflower, spinach, and green peas) did not. Dairy products such as milk and cheese significantly reduced the chances of gout. The study followed over 40000 men over a period of 12 years, in which 1300 cases of gout were reported.[41]

[edit] Reduce intake of purines

The solubility threshold for uric acid is approximately 6.7 mg/dl; above this threshold crystals may form. Healthy subjects in the Normative Aging Study who had serum levels of uric acid over 9.0 mg/dl suffered a 22% incidence of gout over six years, compared to less than one percent for those with 7.0–8.9 mg/dl. The average uric acid level in men is 5.0 mg/dl, and substitution of a purine-free formula diet reduces this to 3.0 mg/dl. A purine-restricted diet lowers the level nearly as much (1-2 mg/dl).

A diet low in purines reduces the serum level of uric acid, unless these levels are caused by other health conditions and not as responsive to dietary changes. For notable sources of dietary purines, see "Foods to avoid" section below.

Protein is a crude proxy for purines; a more precise proxy is muscle. Apart from the notable dietary purines above, the main source of dietary purines is DNA and RNA, via their bases adenine and guanine. All sources of dietary protein supply some purines, but some sources provide far more purines than others. This has to do with the number of mitochondria per cell. Meat (particularly dark meat) and seafood are high in purine because muscle cells are packed with thousands of mitochondria, each with their own DNA and RNA. In a large prospective study, high consumption of meat and seafood were found associated with an elevated risk of gout onset (41% and 50%, respectively). High consumption of dairy products, high in protein but very low in DNA and RNA, was associated with a 44% decrease in the incidence of gout. In plants, in addition to mitochondria (in very low numbers) some cells have chloroplasts, also with their own DNA and RNA. For this reason, both relatively high-protein vegetables and dark green leafy vegetables are expected to have more purines than other vegetables. However, the contribution of these to the total purine content of plant tissues is relatively low due to the relatively low copy number. Consumption of the more purine-rich vegetables or a high protein diet per se had no significant correlation.

Men who consume two or more sugary soft drinks a day have an 85% higher risk of gout compared with those who drink less than one a month.[1] This is because soft drinks contain large quantities of high-fructose corn syrup (HFCS), a common sweetener in soft drinks, which results in hyperuricemia in blood.[42][43] Hyperuricemia, in turn predispose the body for gout.[44]

Consumption of beer is associated with a 49% increase in relative risk per daily 12-oz serving. By contrast, consumption of spirits was associated with only a 15% increase in relative risk, and no association at all was found with consumption of wine.

Some medical drugs are purine-based. Notable among these are the purine-analog antimetabolite drugs, sometimes used as chemotherapy agents.

[edit] Other approaches

Additional dietary recommendations can be made which reduce gout indirectly, hypertension, cardiovascular disease, diabetes, and metabolic syndrome.

The following suggestions do not meet with universal approval among medical practitioners.

Low purine diet:

  • To lower uric acid:
    • Tart cherries were reported to reduce uric acid in a small study. Tart cherry juice or tart cherry capsules are believed to help dissolve the needle-like crystals that deposit themselves between the joints and connective tissue. Tart cherry capsule and gout research.[45][46]
    • Celery extracts (celery or celery seed either in capsule form or as a tisane/infusion) is believed by many to reduce uric acid levels (although these are also diuretics).[citation needed] Celery extracts have been reported to act synergistically with anti-inflammatory drugs.[47]
    • Cheese has been recommended as a low-purine food,[48] and dairy products have been found to reduce the risk of gout.
    • Carbonated beverages and sugar have also been recommended as a low-purine food,[48] even though it was established that men who consume two or more sugary soft drinks a day have an 85% higher risk of gout compared with those who drink less than one a month.[2]
    • Dietary supplements Quercetin, a flavonoid, can decrease uric acid levels. Quercetin can be taken with bromelain to improve its absorption. In addition, Pantothenic acid (vitamin B5) is said to help with the excretion process of uric acid. [49]. Vitamin C has been demonstrated to increase excretion on uric acid and in turn lower serum urate levels.
  • Food to avoid:
    • Foods high in purines
      • Limit food high in protein such as meat, fish, poultry, or tofu to 8 ounces (226 grams) a day. Avoid entirely during a flare-up.[citation needed] Tofu has been proposed as a safe source of protein for gout patients due to its small and transient effect on plasma urate levels.[50]
      • Sweetbreads, kidneys, liver, brains, or other offal meats.[51][52]
      • Sardines and anchovies[51]
      • Seafood[41] particularly shellfish such as clam, oyster, scallop, shrimp, crab, lobster, and crayfish.
      • Asparagus. Cauliflower. Mushrooms. Spinach. (Even though above says "Consumption of the more purine-rich vegetables or a high protein diet per se had no significant correlation.")
      • Dry beans (lentils & peas).
      • Alcohol.[53] Some claim that this applies especially to beer (high in guanosine), on the basis that brewer's yeasts are very rich in purine. Since most modern commercial beer contains only trace amounts of yeast, this claim requires further substantiation.[citation needed] Formerly, port wine was sweetened with litharge, causing lead poisoning, of which gout is a complication. Ironically, red wines, particularly those produced by traditional methods,[54] contain procyanidins released from grape seeds during wine making, which have been reported to lower serum uric acid levels by an indirect mechanism.[55] However, withdrawal of urate-lowering therapy is associated with recurrence of acute gouty arthritis.[56]
      • Meat extracts, consommés, and gravies[51]
    • Foods high in fructose, as discussed above, especially high-fructose corn syrup (HFCS) as main ingredient.[44]
    • Foods high in sucrose, which is a double sugar consisting of glucose and fructose
  • To avoid dehydration:
    • Drink plenty of liquids, especially water, to dilute and assist excretion of urates;
    • Avoid diuretic foods or medicines like aspirin (aspirin should be avoided by those suffering from gout, unless specified by a qualified physician), vitamin C, tea and alcohol. This applies only to low-dose aspirin, commonly referred to as a baby aspirin (81 mg). High-dose aspirin (325 mg) increases uric acid excretion. The role of diuretics in triggering gout has been disputed.[14]
  • Moderate intake of purine-rich vegetables is not associated with increased gout.[41]

[edit] Over the counter remedies

  • Sodium bicarbonate (baking soda) is a traditional remedy,[57] thought to work by raising blood pH (lowering blood acidity). However, the added sodium may be inappropriate for some people.
  • Research from the University of British Columbia suggests long-term coffee consumption is associated with a lower risk of gout.[58] Other studies extend this benefit to tea and other caffeinated foods and drinks.[59]
  • Potassium supplements should be advantageous to treat gout. Gout can be triggered by the same agents that cause potassium losses such as fasting, surgery, and potassium losing diuretics.[60] A potassium deficiency can increase urate levels in the blood.[61]
  • Wu Jia Pi, the cortex of Siberian ginseng, can be used intermittently between outbreaks of gout in patients with a chronic condition to prevent future occurrences.[citation needed]

[edit] Heat therapy

The normally lower temperature of extremities, compared to the body core, is believed to explain the characteristic prevalence of first gout attacks involving the big toe, later the knee, rarely more proximal joints (hip, shoulder, spine). This observation, and that fact that crystals in general dissolve more readily at higher temperatures, supports the idea that heat therapy may help to resolve both acute and chronic gout. Thus the use of hot pads and hot baths.

[edit] Epidemiology

Gout is a form of arthritis that affects mostly men between the ages of 50 and 60 and women following menopause.[citation needed]

There are different racial propensities to develop gout. Gout is high among the peoples of the Pacific Islands, and the Māori of New Zealand, but rare in Australian aborigines despite the latter's higher mean concentration of serum uric acid.[65] In the United States, gout is twice as prevalent in African American males as it is in European-Americans.[66]

A seasonal link also may exist, with significantly higher incidence of acute gout attacks occurring in the spring.[67][68]

[edit] History

Anton van Leeuwenhoek described the microscopic appearance of uric acid crystals.

The first written description of gout dates from 2,600 BC, when Egyptians noted gouty arthritis of the big toe. Around 400 BC, the Greek physician Hippocrates also commented on gout.[69] Writing ca. 30 AD, Aulus Cornelius Celsus appeared to recognize many of the features of gout, including its link with a urinary solute, late onset in women, linkage with alcohol, and perhaps even prevention by dairy products. [3] "Again thick urine, the sediment from which is white, indicates that pain and disease are to be apprehended in the region of joints or viscera." and "Joint troubles in the hands and feet are very frequent and persistent, such as occur in cases of podagra and cheiragra. These seldom attack eunuchs or boys before coition with a woman, or women except those in whom the menses have become suppressed. Upon the commencement of pain blood should be let; for when this is carried out at once in the first stages it ensures health, often for a year, sometimes for always. Some also, when they have washed themselves out by drinking asses' milk, evade this disease in perpetuity; some have obtained lifelong security by refraining from wine, mead and venery for a whole year; indeed this course should be adopted especially after the primary attack, even although it has subsided."

Around 200 AD, the Roman gladiatorial surgeon Galen described gout as a discharge of the four humors of the body in unbalanced amounts into the joints. The word "gout" was initially used by Randolphus of Bocking, around 1200 AD. It is derived from the Latin word "gutta", meaning "a drop" (of liquid).[69]

The Dutch scientist Antonie van Leeuwenhoek described the microscopic appearance of urate crystals in 1679.[69] In 1848 English physician Alfred Baring Garrod realised that excess uric acid in the blood was the cause of gout.[70]

Historical treatments for gout include gin.

Some animals, such as birds and alligators, may suffer from gout. Even the dinosaur, Tyrannosaurus, suffered from gout, as seen in the most famous specimen known as "Sue".

[edit] See also

[edit] References

  1. ^ Powerpoint on Gout and Septic arthritis Sreejith P.N,M.D
  2. ^ Virsaladze DK, Tetradze LO, Dzhavashvili LV, Esaliia NG, Tananashvili DE (May 2007). "[Levels of uric acid in serum in patients with metabolic syndrome]" (in Russian). Georgian Med News (146): 35–7. PMID 17595458. 
  3. ^ Moyer RA, John DS (April 2003). "Acute gout precipitated by total parenteral nutrition". The Journal of rheumatology 30 (4): 849–50. PMID 12672211. 
  4. ^ Halabe A, Sperling O (1994). "Uric acid nephrolithiasis". Mineral and electrolyte metabolism 20 (6): 424–31. PMID 7783706. 
  5. ^ Vitart V, Rudan I, Hayward C, Gray NK, Floyd J, Palmer CN, Knott SA, Kolcic I, Polasek O, Graessler J, Wilson JF, Marinaki A, Riches PL, Shu X, Janicijevic B, Smolej-Narancic N, Gorgoni B, Morgan J, Campbell S, Biloglav Z, Barac-Lauc L, Pericic M, Klaric IM, Zgaga L, Skaric-Juric T, Wild SH, Richardson WA, Hohenstein P, Kimber CH, Tenesa A, Donnelly LA, Fairbanks LD, Aringer M, McKeigue PM, Ralston SH, Morris AD, Rudan P, Hastie ND, Campbell H, Wright AF (April 2008). "SLC2A9 is a newly identified urate transporter influencing serum urate concentration, urate excretion and gout". Nat. Genet. 40 (4): 437–42. doi:10.1038/ng.106. PMID 18327257. 
  6. ^ http://www.henriettesherbal.com/eclectic/thomas/gout.html
  7. ^ http://www.the-family-doctor.com/the-family-doctor/g/gout.htm
  8. ^ Trivieri, Larry; Ivker, Robert S.; Anderson, Robert H. (1999). The complete self-care guide to holistic medicine: treating our most common ailments. New York, N.Y: J.P. Tarcher/Putnam. ISBN 0-87477-986-3. OCLC 41211414. 
  9. ^ Lin JL, Tan DT, Ho HH, Yu CC (November 2002). "Environmental lead exposure and urate excretion in the general population". Am. J. Med. 113 (7): 563–8. doi:10.1016/S0002-9343(02)01296-2. PMID 12459402. 
  10. ^ Wright LF, Saylor RP, Cecere FA (August 1984). "Occult lead intoxication in patients with gout and kidney disease". J. Rheumatol. 11 (4): 517–20. PMID 6434739. 
  11. ^ Lin JL, Huang PT (April 1994). "Body lead stores and urate excretion in men with chronic renal disease". J. Rheumatol. 21 (4): 705–9. PMID 8035397. 
  12. ^ Shadick NA, Kim R, Weiss S, Liang MH, Sparrow D, Hu H (July 2000). "Effect of low level lead exposure on hyperuricemia and gout among middle aged and elderly men: the normative aging study". J. Rheumatol. 27 (7): 1708–12. PMID 10914856. 
  13. ^ Ball GV (1971). "Two epidemics of gout". Bull Hist Med 45 (5): 401–8. PMID 4947583. 
  14. ^ a b Janssens HJ, van de Lisdonk EH, Janssen M, van den Hoogen HJ, Verbeek AL (August 2006). "Gout, not induced by diuretics? A case-control study from primary care". Ann. Rheum. Dis. 65 (8): 1080–3. doi:10.1136/ard.2005.040360. PMID 16291814. 
  15. ^ Stamp L, Searle M, O'Donnell J, Chapman P (2005). "Gout in solid organ transplantation: a challenging clinical problem". Drugs 65 (18): 2593–611. PMID 16392875. 
  16. ^ Hoskison TK, Wortmann RL (2006). "Advances in the management of gout and hyperuricaemia". Scand. J. Rheumatol. 35 (4): 251–60. doi:10.1080/03009740600855825. PMID 16882587. 
  17. ^ PMID 18299687
  18. ^ Zhang W, Doherty M, Pascual E, Bardin T, Barskova V, Conaghan P, Gerster J, Jacobs J, Leeb B, Lioté F, McCarthy G, Netter P, Nuki G, Perez-Ruiz F, Pignone A, Pimentão J, Punzi L, Roddy E, Uhlig T, Zimmermann-Gòrska I (October 2006). "EULAR evidence based recommendations for gout. Part I: Diagnosis. Report of a task force of the Standing Committee for International Clinical Studies Including Therapeutics (ESCISIT)". Ann. Rheum. Dis. 65 (10): 1301–11. doi:10.1136/ard.2006.055251. PMID 16707533. 
  19. ^ PMID 18806664
  20. ^ PMID 18780009
  21. ^ Sturrock R (2000). "Gout. Easy to misdiagnose". BMJ 320 (7228): 132–3. doi:10.1136/bmj.320.7228.132. PMID 10634714. http://bmj.bmjjournals.com/cgi/content/full/320/7228/132. 
  22. ^ Siva C, Velazquez C, Mody A, Brasington R (2003). "Diagnosing acute monoarthritis in adults: a practical approach for the family physician". Am Fam Pghysician 68 (1): 83–90. PMID 12887114. 
  23. ^ a b PMID 18674948
  24. ^ Zhang W, Doherty M, Bardin T, Pascual E, Barskova V, Conaghan P, Gerster J, Jacobs J, Leeb B, Lioté F, McCarthy G, Netter P, Nuki G, Perez-Ruiz F, Pignone A, Pimentão J, Punzi L, Roddy E, Uhlig T, Zimmermann-Gòrska I (October 2006). "EULAR evidence based recommendations for gout. Part II: Management. Report of a task force of the EULAR Standing Committee for International Clinical Studies Including Therapeutics (ESCISIT)". Ann. Rheum. Dis. 65 (10): 1312–24. doi:10.1136/ard.2006.055269. PMID 16707532. 
  25. ^ Janssens HJ, Janssen M, van de Lisdonk EH, van Riel PL, van Weel C (May 2008). "Use of oral prednisolone or naproxen for the treatment of gout arthritis: a double-blind, randomised equivalence trial". Lancet 371 (9627): 1854–60. doi:10.1016/S0140-6736(08)60799-0. PMID 18514729. 
  26. ^ "Chapter 10 Musculoskeletal and joint diseases -- 10.1.4 Acute attacks of gout". British National Formulary (56 ed.). September 2008. p. 564. 
  27. ^ a b Clinical Knowledge Summaries. "Gout - Management -- What treatment is recommended in acute gout?". National Library for Health. http://cks.library.nhs.uk/gout/management/detailed_answers/managing_acute_gout/treatment. Retrieved on 2008-10-26. 
  28. ^ "Gout". Arthritis Research Campaign. February 2008. http://www.arc.org.uk/arthinfo/patpubs/6015/6015.asp. Retrieved on 2008-10-26. 
  29. ^ Gout~Medication at eMedicine
  30. ^ Man CY, Cheung IT, Cameron PA, Rainer TH (2007). "Comparison of oral prednisolone/paracetamol and oral indomethacin/paracetamol combination therapy in the treatment of acute goutlike arthritis: a double-blind, randomized, controlled trial". Annals of emergency medicine 49 (5): 670–7. doi:10.1016/j.annemergmed.2006.11.014. PMID 17276548. 
  31. ^ Schlesinger N, Detry MA, Holland BK, et al (2002). "Local ice therapy during bouts of acute gouty arthritis". J. Rheumatol. 29 (2): 331–4. doi:10.1093/rheumatology/29.5.331. PMID 11838852. 
  32. ^ Schlesinger N (December 2006). "Response to application of ice may help differentiate between gouty arthritis and other inflammatory arthritides". Journal of clinical rheumatology : practical reports on rheumatic & musculoskeletal diseases 12 (6): 275–6. doi:10.1097/01.rhu.0000249864.95389.cf. PMID 17149056. 
  33. ^ PMID 8708415
  34. ^ The British National Formulary website, www.bnf.org
  35. ^ "Azathioprine-Allopurinol Interaction: Danger!". December 1998. http://www.medsafe.govt.nz/Profs/PUarticles/azathioprine.htm. Retrieved on 2008-08-28. 
  36. ^ "Adenuric (febuxostat) receives marketing authorisation in the European Union" (PDF). http://www.ipsen.com/articles/mediacentre/pressreleases/20080505___autorisation_adenuric_eu_10.pdf. Retrieved on 2008-05-28. 
  37. ^ "FDA Committee Gives Nod to Febuxostat for Hyperuricemia in Gout". http://www.medpagetoday.com/ProductAlert/Prescriptions/11932. Retrieved on 2008-12-30. 
  38. ^ Abrams B (February 2005). "Gout is an indicator of sleep apnea". Sleep 28 (2): 275. PMID 16171252. 
  39. ^ Lin JL, Yu CC, Lin-Tan DT, Ho HH (July 2001). "Lead chelation therapy and urate excretion in patients with chronic renal diseases and gout". Kidney Int. 60 (1): 266–71. doi:10.1046/j.1523-1755.2001.00795.x. PMID 11422760. 
  40. ^ Saag KG, Choi H (2006). "Epidemiology, risk factors, and lifestyle modifications for gout". Arthritis Res. Ther. 8 Suppl 1: S2. doi:10.1186/ar1907. PMID 16820041. 
  41. ^ a b c Choi HK, Atkinson K, Karlson EW, Willett W, Curhan G (March 2004). "Purine-rich foods, dairy and protein intake, and the risk of gout in men" (PDF). N. Engl. J. Med. 350 (11): 1093–103. doi:10.1056/NEJMoa035700. PMID 15014182. http://www.nutritionaustralia.org/News_in_Nutrition/Journal_Articles/purine%20rich%20foods.pdf. 
  42. ^ Nakagawa T, Hu H, Zharikov S, et al (March 2006). "A causal role for uric acid in fructose-induced metabolic syndrome". Am. J. Physiol. Renal Physiol. 290 (3): F625–31. doi:10.1152/ajprenal.00140.2005. PMID 16234313. 
  43. ^ Mayes PA (November 1993). "Intermediary metabolism of fructose". Am. J. Clin. Nutr. 58 (5 Suppl): 754S–765S. PMID 8213607. http://www.ajcn.org/cgi/pmidlookup?view=long&pmid=8213607. 
  44. ^ a b Gower, Timothy; Johnson, Richard R. (2008). The Sugar Fix: The High-Fructose Fallout That Is Making You Fat and Sick. Emmaus, Pa: Rodale Books. pp. 304. ISBN 1-59486-665-1. 
  45. ^ Jacob RA, Spinozzi GM, Simon VA, et al (June 2003). "Consumption of cherries lowers plasma urate in healthy women". J. Nutr. 133 (6): 1826–9. PMID 12771324. http://jn.nutrition.org/cgi/pmidlookup?view=long&pmid=12771324. 
  46. ^ Blau LW (1950). "Cherry diet control for gout and arthritis". Tex. Rep. Biol. Med. 8 (3): 309–11. PMID 14776685. 
  47. ^ Whitehouse MW, Butters DE (2003). "Combination anti-inflammatory therapy: synergism in rats of NSAIDs/corticosteroids with some herbal/animal products". Inflammopharmacology 11 (4): 453–64. doi:10.1163/156856003322699636. PMID 15035799. 
  48. ^ a b Harris MD, Siegel LB, Alloway JA (February 1999). "Gout and hyperuricemia". Am Fam Physician 59 (4): 925–34. PMID 10068714. http://newcms.aafp.org/afp/990215ap/925.html. 
  49. ^ "Gout" by Zina Kroner ,
  50. ^ Yamakita J, Yamamoto T, Moriwaki Y, Takahashi S, Tsutsumi Z, Higashino K (1998). "Effect of Tofu (bean curd) ingestion and on uric acid metabolism in healthy and gouty subjects". Adv. Exp. Med. Biol. 431: 839–42. PMID 9598181. 
  51. ^ a b c ROBINSON CH (1954). "The low purine diet". Am. J. Clin. Nutr. 2 (4): 276–7. PMID 13188851. http://www.ajcn.org/cgi/reprint/2/4/276. 
  52. ^ Chou P, Soong LN, Lin HY (July 1993). "Community-based epidemiological study on hyperuricemia in Pu-Li, Taiwan". J. Formos. Med. Assoc. 92 (7): 597–602. PMID 7904493. 
  53. ^ Choi HK, Atkinson K, Karlson EW, Willett W, Curhan G (April 2004). "Alcohol intake and risk of incident gout in men: a prospective study". Lancet 363 (9417): 1277–81. doi:10.1016/S0140-6736(04)16000-5. PMID 15094272. 
  54. ^ Corder R, Mullen W, Khan NQ, et al (November 2006). "Oenology: red wine procyanidins and vascular health". Nature 444 (7119): 566. doi:10.1038/444566a. PMID 17136085. 
  55. ^ Wang Y, Zhu JX, Kong LD, Yang C, Cheng CH, Zhang X (May 2004). "Administration of procyanidins from grape seeds reduces serum uric acid levels and decreases hepatic xanthine dehydrogenase/oxidase activities in oxonate-treated mice". Basic Clin. Pharmacol. Toxicol. 94 (5): 232–7. doi:10.1111/j.1742-7843.2004.pto940506.x. PMID 15125693. 
  56. ^ Perez-Ruiz F, Atxotegi J, Hernando I, Calabozo M, Nolla JM (October 2006). "Using serum urate levels to determine the period free of gouty symptoms after withdrawal of long-term urate-lowering therapy: a prospective study". Arthritis Rheum. 55 (5): 786–90. doi:10.1002/art.22232. PMID 17013833. 
  57. ^ The British Pharmaceutical Codex. Published by direction of the Council of the Pharmaceutical Society of Great Britain, 1911. Sodium
  58. ^ Choi HK, Willett W, Curhan G (June 2007). "Coffee consumption and risk of incident gout in men: a prospective study". Arthritis Rheum. 56 (6): 2049–55. doi:10.1002/art.22712. PMID 17530645. 
  59. ^ Choi HK, Curhan G (June 2007). "Coffee, tea, and caffeine consumption and serum uric acid level: the third national health and nutrition examination survey". Arthritis Rheum. 57 (5): 816–21. doi:10.1002/art.22762. PMID 17530681. 
  60. ^ Rodman JS 2002 Intermittent versus continuous alkaline therapy for uric acid stones and uretal stones of uncertain composition. Urology 60; 378-382.
  61. ^ Davis WH 1970 Does potassium deficiency hold a clue to metabolic disorders associated with liability to heart disease?. South African Med. Journal 44; 1297.
  62. ^ Grases F, Sanchis P, Isern B, Perelló J, Costa-Bauzá A (2007). "Uric acid as inducer of calcium oxalate crystal development". Scandinavian journal of urology and nephrology 41 (1): 26–31. doi:10.1080/00365590600831571. PMID 17366099. 
  63. ^ Grases F, Ramis M, Villacampa AI, Costa-Bauzá A (1999). "Uric acid urolithiasis and crystallization inhibitors". Urologia internationalis 62 (4): 201–4. PMID 10567882. 
  64. ^ Burt HM, Dutt YC (October 1986). "Growth of monosodium urate monohydrate crystals: effect of cartilage and synovial fluid components on in vitro growth rates". Annals of the rheumatic diseases 45 (10): 858–64. PMID 3098195. PMC: 1002009. http://ard.bmj.com/cgi/pmidlookup?view=long&pmid=3098195. 
  65. ^ Roberts-Thomson RA, Roberts-Thomson PJ (May 1999). "Rheumatic disease and the Australian aborigine". Ann. Rheum. Dis. 58 (5): 266–70. PMID 10225809. PMC: 1752880. http://ard.bmjjournals.com/cgi/content/full/58/5/266. 
  66. ^ Rheumatology Therapeutics Medical Center. "What Are the Risk Factors for Gout?". http://www.arthritisconsult.com/gout.html#risk. Retrieved on 2007-01-26. 
  67. ^ Schlesinger N, Gowin KM, Baker DG, Beutler AM, Hoffman BI, Schumacher HR (February 1998). "Acute gouty arthritis is seasonal". J. Rheumatol. 25 (2): 342–4. PMID 9489831. 
  68. ^ Gallerani M, Govoni M, Mucinelli M, Bigoni M, Trotta F, Manfredini R (October 1999). "Seasonal variation in the onset of acute microcrystalline arthritis". Rheumatology (Oxford) 38 (10): 1003–6. doi:10.1093/rheumatology/38.10.1003. PMID 10534553. http://rheumatology.oxfordjournals.org/cgi/pmidlookup?view=long&pmid=10534553. 
  69. ^ a b c Pillinger, MH; Rosenthal P, Abeles AM (2007). "Hyperuricemia and gout: new insights into pathogenesis and treatment". Bulletin of the NYU Hospital for Joint Diseases 65 (3): 215–221. PMID 17922673. http://www.nyuhjdbulletin.org/Permalink.aspx?permalinkId=0c3ec9d1-8cc8-49d5-850d-4c5a55cb0669. 
  70. ^ Storey GD (October 2001). "Alfred Baring Garrod (1819-1907)". Rheumatology (Oxford, England) 40 (10): 1189–90. PMID 11600751. http://rheumatology.oxfordjournals.org/cgi/content/full/40/10/1189. 

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