TY - JOUR
T1 - Criterion validity of ultrasound in the identification of calcium pyrophosphate crystal deposits at the knee: an OMERACT ultrasound study
AU - Filippou, Georgios
AU - Scanu, Anna
AU - Adinolfi, Antonella
AU - Adinolfi, Annalisa
AU - Toscano, Carmela
AU - Toscano, Carlo Pompeo
AU - Gambera, Dario
AU - Largo, Raquel
AU - Naredo, Esperanza
AU - Calvo, Emilio
AU - Herrero-Beaumont, Gabriel
AU - Zufferey, Pascal
AU - Bonjour, Christel Madelaine
AU - Maccarter, Daryl K
AU - Makman, Stanley
AU - Weber, Zachary
AU - Figus, Fabiana
AU - Möller, Ingrid
AU - Gutierrez, Marwin
AU - Pineda, Carlos
AU - Clavijo Cornejo, Denise
AU - Garcia, Hector
AU - Ilizaliturri, Victor
AU - Mendoza Torres, Jaime
AU - Pichardo, Raul
AU - Rodriguez Delgado, Luis Carlos
AU - Filippucci, Emilio
AU - Cipolletta, Edoardo
AU - Cipolletta, Eleonora
AU - Serban, Teodora
AU - Cirstoiu, Catalin
AU - Vreju, Florentin Ananu
AU - Grecu, Dan
AU - Mouterde, Gaël
AU - Govoni, Marcello
AU - Punzi, Leonardo
AU - Damjanov, Nemanja S
AU - Keen, Helen Isobel
AU - Bruyn, George A.W.
AU - Terslev, Lene
AU - D'Agostino, Maria-Antonietta
AU - D'Agostino, Maria Antonietta
AU - Scirè, Carlo Alberto
AU - Iagnocco, Annamaria
PY - 2021
Y1 - 2021
N2 - Objective To evaluate the discriminatory ability of ultrasound in calcium pyrophosphate deposition disease (CPPD), using microscopic analysis of menisci and knee hyaline cartilage (HC) as reference standard. Methods Consecutive patients scheduled for knee replacement surgery, due to osteoarthritis (OA), were enrolled. Each patient underwent ultrasound examination of the menisci and HC of the knee, scoring each site for presence/absence of CPPD. Ultrasound signs of inflammation (effusion, synovial proliferation and power Doppler) were assessed semiquantitatively (0-3). The menisci and condyles, retrieved during surgery, were examined microscopically by optical light microscopy and by compensated polarised microscopy. CPPs were scored as present/absent in six different samples from the surface and from the internal part of menisci and cartilage. Ultrasound and microscopic analysis were performed by different operators, blinded to each other's findings. Results 11 researchers from seven countries participated in the study. Of 101 enrolled patients, 68 were included in the analysis. In 38 patients, the surgical specimens were insufficient. The overall diagnostic accuracy of ultrasound for CPPD was of 75% -sensitivity of 91% (range 71%-87% in single sites) and specificity of 59% (range 68%-92%). The best sensitivity and specificity were obtained by assessing in combination by ultrasound the medial meniscus and the medial condyle HC (88% and 76%, respectively). No differences were found between patients with and without CPPD regarding ultrasound signs of inflammation. Conclusion Ultrasound demonstrated to be an accurate tool for discriminating CPPD. No differences were found between patents with OA alone and CPPD plus OA regarding inflammation.
AB - Objective To evaluate the discriminatory ability of ultrasound in calcium pyrophosphate deposition disease (CPPD), using microscopic analysis of menisci and knee hyaline cartilage (HC) as reference standard. Methods Consecutive patients scheduled for knee replacement surgery, due to osteoarthritis (OA), were enrolled. Each patient underwent ultrasound examination of the menisci and HC of the knee, scoring each site for presence/absence of CPPD. Ultrasound signs of inflammation (effusion, synovial proliferation and power Doppler) were assessed semiquantitatively (0-3). The menisci and condyles, retrieved during surgery, were examined microscopically by optical light microscopy and by compensated polarised microscopy. CPPs were scored as present/absent in six different samples from the surface and from the internal part of menisci and cartilage. Ultrasound and microscopic analysis were performed by different operators, blinded to each other's findings. Results 11 researchers from seven countries participated in the study. Of 101 enrolled patients, 68 were included in the analysis. In 38 patients, the surgical specimens were insufficient. The overall diagnostic accuracy of ultrasound for CPPD was of 75% -sensitivity of 91% (range 71%-87% in single sites) and specificity of 59% (range 68%-92%). The best sensitivity and specificity were obtained by assessing in combination by ultrasound the medial meniscus and the medial condyle HC (88% and 76%, respectively). No differences were found between patients with and without CPPD regarding ultrasound signs of inflammation. Conclusion Ultrasound demonstrated to be an accurate tool for discriminating CPPD. No differences were found between patents with OA alone and CPPD plus OA regarding inflammation.
KW - chondrocalcinosis
KW - knee
KW - osteoarthritis
KW - ultrasonography
KW - chondrocalcinosis
KW - knee
KW - osteoarthritis
KW - ultrasonography
UR - http://hdl.handle.net/10807/168039
U2 - 10.1136/annrheumdis-2020-217998
DO - 10.1136/annrheumdis-2020-217998
M3 - Article
SN - 0003-4967
VL - 80
SP - 261
EP - 267
JO - Annals of the Rheumatic Diseases
JF - Annals of the Rheumatic Diseases
ER -