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AUTHOR AND EDITOR INFORMATION

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Author: Christopher D Smelser, DO, Staff Physician, Department of Radiology, William Beaumont Army Medical Center

Christopher D Smelser is a member of the following medical societies: American Osteopathic Association

Coauthor(s): Robert D Stoffey, DO, Director of Women's Imaging, Department of Radiology, Chief of Mammography Section, William Beaumont Army Medical Center; Amilcare Gentili, MD, Clinical Professor of Radiology, University of California at San Diego; Consulting Staff, Department of Radiology, Thornton Hospital

Editors: Giuseppe Guglielmi, MD, Associate Professor of Radiology, Department of Radiology, Scientific Institute Hospital; Bernard D Coombs, MB, ChB, PhD, Consulting Staff, Department of Specialist Rehabilitation Services, Hutt Valley District Health Board, New Zealand; Lynne S Steinbach, MD, Chief of Musculoskeletal Radiology, Professor, Department of Radiology, University of California at San Francisco; Robert M Krasny, MD, Consulting Staff, Department of Radiology, The Angeles Clinic and Research Institute; Felix S Chew, MD, MBA, EdM, Professor, Department of Radiology, Vice Chairman for Radiology Informatics, Section Head of Musculoskeletal Radiology, University of Washington

Author and Editor Disclosure

Synonyms and related keywords: peripheral arthritis, sodium urate crystals, podagra, hyperuricemia, primary gout, secondary gout, intermediate gout, late-phase gout, pseudogout, tophi, gouty nephropathy, gouty arthritis, first metatarsophalangeal joint pain, probenecid, colchicine, allopurinol, indomethacin

INTRODUCTION

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Background

Gout is defined as a peripheral arthritis that results from the deposition of sodium urate crystals in one or more joints.1, 2, 3 Although gout has many contributing factors, 2 main processes are involved in its development: the overproduction of uric acid and the underexcretion of uric acid. A variety of conditions, including renal disease, have been implicated as causes of gout, but the vast majority of cases are idiopathic. Podagra, or pain in the first metatarsophalangeal joint, is the classic presentation of gout. In general, the symptoms of gout suddenly appear at night and occur in men with hyperuricemia who are aged 30-60 years.

Early radiologic findings in gout are limited to the soft tissues and involve asymmetric swelling in the affected joints. In the intermediate stage of disease, gout causes subtle changes in the bony structures on plain-film radiographs. In the periphery of affected joints, small punched-out lesions arise; obtaining 2 views is important to appreciate these subtle findings. The hallmark sign of late-phase gout is the appearance of large and numerous interosseous tophi on plain-film radiographs. Joint-space narrowing is also prominent in late-phase gout. (Also see the other eMedicine topics Gout, in Rheumatology, and Gout and Pseudogout, in Emergency Medicine.)

For excellent patient education resources, visit eMedicine's Arthritis Center and Kidneys and Urinary System Center. Also, see eMedicine's patient education article Gout.

Pathophysiology

Gout is a disease process that results from a central metabolic abnormality, namely, hyperuricemia. In the early stages of the disease, acute attacks of gouty arthritis occur. As gout progresses, chronic arthritis develops, and the hallmark finding of tophi in the affected joint spaces appears.

Primary gout that is due to an inborn error of metabolism accounts for about 90% of cases of the disease, and approximately 10% of cases are due to secondary gout.1, 2, 3 In 85-90% of cases of primary gout, the enzyme defect that is responsible for hyperuricemia is unknown. Common causes of secondary gout include renal disease, conditions with increased nucleic-acid turnover, and inborn errors of metabolism.

According to some estimates, gout develops in less than 5% of people with hyperuricemia. This finding leads to the question about why some affected individuals have gout and others do not. Several factors are believed to predispose individuals to gout, including genetic predisposition, alcohol abuse, obesity, the use of pharmacologic agents, age, and the duration of hyperuricemia.

Frequency

United States

Gout affects less than 0.5% of the population; however, the incidence is 6-80% in affected families.

Mortality/Morbidity

Untreated gout can cause significant joint pain of a progressive yet episodic nature. Commonly affected areas are the feet, ankles, knees, hands, wrists, and elbows. Other joints are less frequently affected, but their involvement can also cause significant pain and discomfort. As the disease progresses, severe damage to cartilage impairs the function of the affected joints. Gout can also cause a condition known as gouty nephropathy in which monosodium urate crystals and free uric acid crystals impair renal function. As a result, conditions such as pyelonephritis and urinary obstruction may develop.

Race

Gout is most common in Pacific Islanders, such as the Maori of New Zealand and natives of the Mariana Islands. Gout is less common in blacks than in whites.

Sex

Idiopathic gout occurs approximately 20 times more often in men than in women.

Age

Gout is more common in older individuals because this condition generally appears only after 20-30 years of hyperuricemia.

Anatomy

Gout most commonly affects joints in the feet, ankles, hands, wrists, elbows, and knees. Less commonly affected areas include the sacroiliac, sternoclavicular, and shoulder joints. Gout rarely affects the hip and spine. The kidneys are a systemic area of involvement as a result of crystal deposition, with resulting sequelae.

Clinical Details

The classic presentation of podagra is only one of the many presentations of gout. Acute gout causes short episodes of acute arthritis in varying joints (see Anatomy). Chronic gout, however, leads to more frequent and severe attacks of gouty arthritis, as well as the deposition of urates in joints, which creates tophi. Also, most patients with chronic gout have urate nephropathy, with complications such as pyelonephritis and urinary obstruction.

Factors in the patient's history that suggest gout include older age, male sex, Pacific Islander race, genetic predisposition, obesity, the use of thiazide diuretics, lead toxicity, and heavy alcohol consumption.

Preferred Examination

A detailed medical history is important in the initial examination of the patient who has symptoms that are consistent with those of gouty arthritis. In the initial evaluation for suspected gout, a thorough physical examination of the musculoskeletal system, with a focus on commonly affected joints, should be performed. 

Plain-film radiography may be used to evaluate gout; however, radiographic findings generally do not appear until after at least 1 year of uncontrolled disease. Bone scanning may also be used to examine gout; the key finding on bone scans is an increased radionuclide concentration at the affected sites.4

The criterion standard in the diagnosis of gout is the analysis of synovial fluid samples that are obtained with aspiration. Wet mounts of the synovial fluid reveal negatively birefringent urate crystals. Also, the synovial fluid usually reveals an inflammatory process, with a white blood cell count in the range of 7,000-10,000 x 103 per mL.

Limitations of Techniques

In general, plain-film radiography is useful in the evaluation of gout only after at least 1 year of uncontrolled disease. Computed tomography (CT) scanning is often used to follow up the development of gout in areas that are difficult to assess; however, this modality is generally not used as a screening examination for the disease. Magnetic resonance imaging (MRI) has not been extensively studied with regard to its benefit in the evaluation of gout; however, MRI may have promise in the study of this disease.


DIFFERENTIALS

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Abdominal Aortic Aneurysm, Diagnosis
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Psoriatic Arthritis
Reactive Arthritis, Musculoskeletal
Rheumatoid Arthritis, Hands
Septic Arthritis

Other Problems to Be Considered

Pseudogout is caused by the deposition of calcium pyrophosphate deposition rather than the deposition of uric acid derivatives that cause gout (see eMedicine topics Gout and Pseudogout and Calcium Pyrophosphate Deposition Disease). In addition, the synovial fluid samples that are obtained with aspiration have positive birefringence in pseudogout; this finding is in direct contrast to the negative birefringence in gout.

In cases of infectious arthritis, cultures of synovial fluid can be helpful in differentiating this condition from gout.

In cases of amyloidosis, amyloid shows apple-green birefringence under polarized light with Congo red staining (see eMedicine topic Amyloidosis, Overview).

In cases of hyperparathyroidism, helpful diagnostic features include increased serum calcium levels, increased serum parathyroid hormone (PTH) levels, and low serum phosphate levels (see eMedicine topic Hyperparathyroidism, Primary).

Spondyloarthropathy involves a variety of presentations. The most common symptoms relate to inflammatory back pain and symptoms of inflamed peripheral joints.

Rheumatoid arthritis (RA) typically causes morning stiffness, unlike the sudden-onset of night pain that is associated with acute episodes of gout. A rheumatoid factor (RF) level of more than 1:80, which is present in 70-80% of cases of RA, can also help in differentiating this condition from gout (see eMedicine topic Rheumatoid Arthritis).


RADIOGRAPH

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Findings

In the early phase of gout, the clinical findings are limited to the soft tissues, of which an asymmetric swelling around the affected joint is typical. Another finding that may be evident is edema of the soft tissues around the joints. In a patient who has had multiple episodes of gouty arthritis in the same joint, a cloudy area of increased opacity may be seen on plain-film radiographs (see Image 2).

In the intermediate phase of gout, the earliest bony changes appear, most commonly appearing initially in the first metatarsophalangeal joint area. These changes generally appear outside the joint or are in the juxta-articular area and are often described as punched-out lesions. Such lesions can progress to become sclerotic as they increase in size. In severe cases of intermediate-phase gout, fractures may be present in the affected areas.

In late-phase gout, the hallmark findings are numerous interosseous tophi. Another change that is evident on plain-film radiographs is joint-space narrowing, which can be severe and symptomatic. Marked deformities and subluxation may also be noted in affected areas, as well as calcium deposits in the soft tissues.


CT SCAN

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Findings

CT scanning can be used to study the effects of gout in areas that are hard to visualize with plain-film radiography.


MRI

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Findings

The use of MRI in the radiologic examination of gout has not been extensively studied. However, this modality has excellent potential in the future study of gout.


ULTRASOUND

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Findings

The use of ultrasound in the diagnosis of gout has not been extensively studied. In a study by Perez-Ruiz et al, the ultrasound measurement of tophi appeared to be useful as an outcome measure for chronic gout.5 However, the authors caution that further randomized trials should be conducted.


NUCLEAR MEDICINE

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Findings

Nuclear medicine studies can be used as a tool to measure the extent of gouty arthritis and to confirm clinically suspected disease.6 Characteristic findings include increased activity in the affected areas in all phases of a triple-phase bone scan.


INTERVENTION

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Acute attacks of gout are generally treated with nonsteroidal anti-inflammatory drugs (NSAIDs), particularly indomethacin. Options for the long-term treatment of gout include the administration of probenecid, colchicine, and/or allopurinol. In acute attacks, patients should rest the affected joints until the attack subsides. Gouty attacks may be prevented with dietary changes, specifically the avoidance of dietary fats, alcohol, sardines, anchovies, liver, and sweetbreads.


MULTIMEDIA

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Media file 1:  Radiograph of the foot in a patient with chronic gout. Podagra, or first metatarsophalangeal joint pain, can easily be understood when this radiograph is evaluated. Sclerosis and joint-space narrowing are seen in the first metatarsophalangeal joint, as well as in the fourth interphalangeal joint. Image courtesy of Larry Brent, MD.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY

Media file 2:  Radiograph of the hand. On this image of chronic tophaceous gouty arthritis, extensive bony erosions are noted throughout the carpal bones. Urate depositions may be present in the periarticular areas. Image courtesy of Larry Brent, MD.
Click to see larger pictureClick to see detailView Full Size Image
Media type:  X-RAY


REFERENCES

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  1. Dambro MR, ed. Griffith's 5-Minute Clinical Consult: A Reference for Clinicians. 9th ed. Philadelphia, Pa: Lippincott Williams & Wilkins; 2001.
  2. Resnick D. Diagnosis of Bone and Joint Disorders. Vol 3. 3rd ed. Philadelphia, Pa: WB Saunders Co; 1995:1511-39.
  3. Cotran RS, Robbins SL, Kumar V, Schoen FJ, eds. Robbins Pathologic Basis of Disease. 5th ed. Philadelphia, Pa: WB Saunders Co; 1994:1255-8.
  4. Coombs RJ, Pinsky ST, Padanilam TG. Bone scan findings of combined gout and septic arthritis in the same digit. Clin Nucl Med. May 2001;26(5):442-3. [Medline].
  5. Perez-Ruiz F, Martin I, Canteli B. Ultrasonographic measurement of tophi as an outcome measure for chronic gout. J Rheumatol. Sep 2007;34(9):1888-93. [Medline].
  6. Tavaras JM, Ferrucci JT Jr, eds. Radiology: Diagnosis, Imaging, Intervention. Philadelphia, Pa: JB Lippincott Co; 1993.
  7. Gentili A. The advanced imaging of gouty tophi. Curr Rheumatol Rep. Jun 2006;8(3):231-5. [Medline].
  8. Perez-Ruiz F, Naredo E. Imaging modalities and monitoring measures of gout. Curr Opin Rheumatol. Mar 2007;19(2):128-33. [Medline].

Gout excerpt

Article Last Updated: Sep 25, 2007