Detection of crystals in synovial fluids by light microscopy: sensitivity and reliability.

Polarised light microscopy of synovial fluid is an established diagnostic technique widely regarded as reliable for the detection of crystals. The threshold concentration of crystals which can be detected has been investigated and the sensitivity and specificity of six observers compared. Various concentrations of laboratory manufactured crystals of monosodium urate monohydrate (MSUM), calcium pyrophosphate dihydrate (CPPD), and basic calcium phosphates (BCP) were added to the synovial fluid. The threshold for reliable identification of MSUM and CPPD was in the range of 10-100 micrograms/ml. False positives were frequent. The mean sensitivity of the six observers for MSUM was 69% and for CPPD was 82%. The mean specificity for MSUM was 97% and for CPPD was 78%. There was much discrepancy in the results of the slides stained with alizarin red S. Thus the value of alizarin red S as a screening test for BCP is questioned. In view of the variable sensitivity and specificity of different observers for MSUM and CPPD and the concentration threshold for reliable crystal identification, greater caution in the interpretation of synovial fluid analysis is advised, and recommendations for increased quality control are supported.

[1]  E. Huskisson,et al.  Synovial fluid crystals. , 1979, The Quarterly journal of medicine.

[2]  S. Jimenez,et al.  Acute gouty arthritis without urate crystals identified on initial examination of synovial fluid , 1975 .

[3]  J. Eisenberg,et al.  Usefulness of synovial fluid analysis in the evaluation of joint effusions. Use of threshold analysis and likelihood ratios to assess a diagnostic test. , 1984, Archives of internal medicine.

[4]  H. Schumacher,et al.  Arthritis associated with apatite crystals. , 1977, Annals of internal medicine.

[5]  P. Hasselbacher,et al.  Variation in synovial fluid analysis by hospital laboratories. , 1987, Arthritis and rheumatism.

[6]  S. Malawista,et al.  The Inflammatory Reaction to Sodium Urate: Its Possible Relationship to the Genesis of Acute Gouty Arthritis , 1962 .

[7]  J. Scott,et al.  Copeman's Textbook of the rheumatic diseases , 1978 .

[8]  D. Prockop Osteogenesis imperfecta. A model for genetic causes of osteoporosis and perhaps several other common diseases of connective tissue. , 1988, Arthritis and rheumatism.

[9]  D. Mccarty,et al.  Identification of urate crystals in gouty synovial fluid. , 1961, Annals of internal medicine.

[10]  H. Schumacher,et al.  Alizarin red S staining as a screening test to detect calcium compounds in synovial fluid. , 1983, Arthritis and rheumatism.

[11]  A. Swan,et al.  A comparison of normal and pathological synovial fluid. , 1985, British journal of rheumatology.

[12]  D. Swinson,et al.  Synovial fluid crystals. , 1988, British journal of rheumatology.

[13]  H. Schumacher,et al.  Reproducibility of synovial fluid analyses. A study among four laboratories. , 1986, Arthritis and rheumatism.

[14]  D. Mccarty,et al.  Identification of hydroxyapatite crystals in synovial fluid. , 1979, Arthritis and rheumatism.

[15]  E. Huskisson,et al.  APATITE DEPOSITION DISEASE A New Arthropathy , 1976, The Lancet.

[16]  H. Schumacher,et al.  Synovial fluid crystals in osteoarthritis. , 1985, Arthritis and rheumatism.

[17]  P. Dieppe,et al.  Low incidence of calcium pyrophosphate dihydrate crystal deposition in rheumatoid arthritis, with modification of radiographic features in coexistent disease. , 1984, Arthritis and rheumatism.

[18]  D. Mccarty The Significance of Calcium Phosphate Crystals in the Synovial Fluid of Arthritic Patients: The Pseudogout Syndrome: I. Clinical Aspects , 1962 .

[19]  P. Revell Examination of synovial fluid. , 1982, Current topics in pathology. Ergebnisse der Pathologie.

[20]  白井 崇溥 The growth of crystals from solution〔邦文〕 , 1973 .