Low-field magnetic resonance imaging of the canine stifle joint: normal anatomy.

Low-field magnetic resonance imaging (MRI) was performed on the stifle joints of four normal adult mongrel dogs using a 0.064 Tesla scanner. Markers were placed on each stifle joint to serve as reference points for comparing gross sections with the images. A T1-weighted sequence was used to image one stifle joint on each dog in the sagittal plane and the other stifle joint in the dorsal plane. The dogs were euthanized immediately following MRI and the stifle joints frozen intact. Each stifle joint was then embedded in paraffin, again frozen, and sectioned using the markers as reference points. On T1-weighted images, synovial fluid had low signal intensity (dark) compared to the infrapatellar fat pad which had a high signal intensity (bright). Articular cartilage was visualized as an intermediate bright signal and was separated from trabecular bone by a dark line representing subchondral bone. Menisci, fibrous joint capsule, and ligamentous structures appeared dark. In the true sagittal plane, the entire caudal cruciate ligament was often seen within one image slice. The patella was visualized as an intermediate bright signal (trabecular bone) surrounded by a low intensity signal (cortical bone). The trochlea and the intercondylar notch were difficult areas to analyze due to signal volume averaging of the curved surface of these areas and the presence of several types of tissues.

[1]  E. Braunstein,et al.  RADIOGRAPHIC AND MAGNETIC RESONANCE IMAGING OF THE STIFLE JOINT IN EXPERIMENTAL OSTEOARTHRITIS OF DOGS , 1994 .

[2]  D. Sartoris,et al.  MR imaging of injuries of the extensor mechanism of the knee. , 1994, Radiographics : a review publication of the Radiological Society of North America, Inc.

[3]  R. Hendrix,et al.  Anterior cruciate ligament injury: MR imaging diagnosis and patterns of injury. , 1992, Radiographics : a review publication of the Radiological Society of North America, Inc.

[4]  M. Mayes,et al.  Articular cartilage defects of the knee: correlation between magnetic resonance imaging and gross pathology. , 1990, Annals of the rheumatic diseases.

[5]  H. Genant,et al.  Magnetic resonance imaging of the knee and hip. , 1990, Arthritis and rheumatism.

[6]  L. Crooks,et al.  Direction of MR imaging. , 1990, Investigative radiology.

[7]  J. Carlson,et al.  Physics of thin-section MR imaging at low field strength. , 1989, Radiology.

[8]  L. Kaufman,et al.  Midfield and low‐field magnetic resonance imaging of the spine , 1988, Topics in magnetic resonance imaging : TMRI.

[9]  J. Callaghan,et al.  The accuracy of selective magnetic resonance imaging compared with the findings of arthroscopy of the knee. , 1988, The Journal of bone and joint surgery. American volume.

[10]  R. Ehman,et al.  MR imaging of the musculoskeletal system: a 5-year appraisal. , 1988, Radiology.

[11]  J. Crues,et al.  Magnetic resonance imaging of the knee , 1988, The American journal of sports medicine.

[12]  D M Kramer,et al.  Signal-to-noise ratio and section thickness in two-dimensional versus three-dimensional Fourier transform MR imaging. , 1988, Radiology.

[13]  E. Braunstein,et al.  Magnetic resonance imaging of knee hyaline cartilage and intraarticular pathology , 1987, The American journal of sports medicine.

[14]  J. Crues,et al.  Meniscal tears of the knee: accuracy of MR imaging. , 1987, Radiology.

[15]  D. Sartoris,et al.  Articular cartilage defects: detectability in cadaver knees with MR. , 1987, AJR. American journal of roentgenology.

[16]  M. E. Adams,et al.  Magnetic resonance imaging of osteoarthritis: Correlation with gross pathology using an experimental model , 1987, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[17]  L. Bassett,et al.  Meniscal injuries: detection using MR imaging. , 1986, Radiology.

[18]  R. G. Johnson Transection of the canine anterior cruciate ligament: a concise review of experience with this model of degenerative joint disease. , 1986, Experimental pathology.

[19]  L. Bassett,et al.  High-resolution magnetic resonance imaging of the knee joint: pathologic correlations. , 1985, AJR. American journal of roentgenology.

[20]  H. Muir,et al.  An experimental model of osteoarthritis; early morphological and biochemical changes. , 1977, The Journal of bone and joint surgery. British volume.

[21]  G. Nuki,et al.  Experimentally-induced osteoarthritis in the dog. , 1973, Annals of the rheumatic diseases.

[22]  J. L. Marshall,et al.  Instability of the knee. A long-term experimental study in dogs. , 1971, The Journal of bone and joint surgery. American volume.