Seminars in musculoskeletal radiology
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Semin Musculoskelet Radiol · Mar 2004
ReviewMagnetic resonance imaging of sports injuries to the cervical spine.
Fortunately, serious injuries to the cervical spine in athletes are rare. Most injuries are self-limited and related to sprains and strains. Although radiographs may be used to screen for fractures, potentially serious soft-tissue injuries require additional diagnostic techniques. ⋯ MRI is well suited to imaging the cervical spine and to evaluate injuries. This article reviews cervical spine imaging in the athlete, with an emphasis on MRI. It groups pathology into stability, impingement, and impairment and discusses causes and radiological assessment of each group.
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The accuracy of sonography in evaluating various conditions of the musculoskeletal system has been demonstrated and its utility as a primary diagnostic imaging modality in the musculoskeletal system in the United States has been increasing in frequency. Sonography is universally tolerated across a broad patient population, including pediatric and pregnant patients and those in whom traditional magnetic resonance (MR) imaging is not an option, due either to absolute or relative contraindications. ⋯ With portable ultrasound units, examinations can be performed on the playing field, immediately at the time of the acute injury, for rapid diagnosis. Lastly, ultrasound can be used to guide for therapeutic procedures at the same time the diagnostic exam is performed.
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Semin Musculoskelet Radiol · Dec 2003
ReviewMagnetic resonance imaging of the weight-bearing spine.
Weight-bearing magnetic resonance (MR) imaging of the spine can either be simulated by imaging the patient in the supine position in combination with a special axial loading device or be achieved by using vertically open-configuration MR systems, which allow for in vivo MR images of the spine under upright weight-bearing conditions in either seated or standing body positions. Weight-bearing MRI of the spine permits the study of physiological as well as pathological changes in the relationships of the intervertebral disk, the spinal canal, and the neural foramina as well as the assessment of segmental instability in physiologic body positions. With this technique, MR images may be taken in painful body positions so that morphological changes of the intervertebral disk or other spinal structures may be correlated with pain or other symptoms. In selected cases, weight-bearing MRI of the spine may demonstrate clinically relevant neural compromise or foraminal stenosis, which may be occult on conventional MR images obtained in the supine position.
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Semin Musculoskelet Radiol · Sep 2003
ReviewCalcium pyrophosphate dihydrate crystal deposition disease.
Calcium pyrophosphate dihydrate (CPPD) crystal deposition disease is characterized by the accumulation of pyrophosphate dihydrate crystals in articular and periarticular tissues. Various terms have been utilized to describe this arthropathy, which has led to some confusion. CPPD crystal deposition disease is among many conditions that may result in crystal deposition within cartilage. ⋯ Pseudogout is just one of the multiple clinical presentations for CPPD crystal deposition disease. Pyrophosphate arthropathy is a term that has been used to describe the peculiar pattern of joint destruction associated with CPPD crystal deposition disease. This article reviews the protean manifestations of CPPD crystal deposition disease with emphasis on diagnostic imaging.
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Semin Musculoskelet Radiol · Jun 2003
ReviewMagnetic resonance imaging in early detection of rheumatoid arthritis.
Magnetic resonance imaging (MRI) is the modality of choice in early diagnosis and management of rheumatoid arthritis (RA). The pathologic processes in RA involve synovitis, joint effusion, proliferation of fibrovascular connective tissue, and the formation of pannus. Other imaging techniques available for imaging of RA include ultrasound, scintigraphy, computed tomography, and plain radiography (PR). ⋯ Other manifestations of RA such as intraosseous cysts, tenosynovitis, bone marrow edema, and carpal tunnel syndrome can also be visualized on magnetic resonance images. Advances in MRI include contrast-enhancement, dynamic, and quantitative techniques. MRI assists in the early detection of RA, which allows earlier initiation of treatment with disease-modifying therapies.