Use of infrared spectroscopy for diagnosis of traumatic arthritis in horses

• Published in: American journal of veterinary research Vol. 67; no. 8; pp. 1286 - 1292
• Main Authors: Vijarnsorn, M, Riley, C.B, Shaw, R.A, McIlwraith, C.W, Ryan, D.A.J, Rose, P.L, Spangler, E
• Format: Journal Article
• Language: English
• Published: United States 01.08.2006
• Subjects: animal injuries; Animals; arthritis; Arthritis - diagnosis; Arthritis - veterinary; calibration; diagnostic techniques; disease diagnosis; Female; Fourier transform infrared spectroscopy; horse diseases; Horse Diseases - diagnosis; Horses; joints (animal); Male; model validation; Spectrophotometry, Infrared - methods; Spectrophotometry, Infrared - veterinary; statistical models; synovial fluid; Synovial Fluid - chemistry; Wounds and Injuries - diagnosis; Wounds and Injuries - veterinary
• ISSN: 0002-9645; 1943-5681
• DOI: 10.2460/ajvr.67.8.1286

To evaluate use of infrared spectroscopy for diagnosis of traumatic arthritis in horses. 48 horses with traumatic arthritis and 5 clinically and radiographically normal horses. Synovial fluid samples were collected from 77 joints in 48 horses with traumatic arthritis. Paired samples (affected and control joints) from 29 horses and independent samples from an affected (n = 12) or control (7) joint from 19 horses were collected for model calibration. A second set of 20 normal validation samples was collected from 5 clinically and radiographically normal horses. Fourier transform infrared spectra of synovial fluids were acquired and manipulated, and data from affected joints were compared with controls to identify spectroscopic features that differed significantly between groups. A classification model that used linear discriminant analysis was developed. Performance of the model was determined by use of the 2 validation datasets. A classification model based on 3 infrared regions classified spectra from the calibration dataset with overall accuracy of 97% (sensitivity, 93%; specificity, 100%). The model, with cost-adjusted prior probabilities of 0.60:0.40, yielded overall accuracy of 89% (sensitivity, 83%; specificity, 100%) for the first validation sample dataset and 100% correct classification of the second set of independent normal control joints. The infrared spectroscopic patterns of fluid from joints with traumatic arthritis differed significantly from the corresponding patterns for controls. These alterations in absorption patterns may be used via an appropriate classification algorithm to differentiate the spectra of affected joints from those of controls.