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Books on the topic 'Knee segmentation in MRI'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

Bolog, Nicolae V., Gustav Andreisek, and Erika J. Ulbrich. MRI of the Knee. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-08165-6.

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2

Advances in MRI of the knee for osteoarthritis. New Jersey: World Scientific, 2010.

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3

name, No. MRI atlas of orthopedics and traumatology of the knee. Berlin: Springer, 2003.

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4

Teller, Peter, Hermann König, Ulrich Weber, and Peter Hertel. MRI Atlas of Orthopedics and Traumatology of the Knee. Berlin, Heidelberg: Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/978-3-642-55620-3.

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5

F, Nielsen Poul M., Miller Karol, and SpringerLink (Online service), eds. Computational Biomechanics for Medicine: Soft Tissues and the Musculoskeletal System. New York, NY: Springer Science+Business Media, LLC, 2011.

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6

MRI of the knee. Gaithersburg, Md: Aspen Publishers, 1992.

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7

L, Munk Peter, and Helms Clyde A, eds. MRI of the knee. 2nd ed. Philadelphia: Lippincott-Raven, 1996.

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8

Lee, Christoph I. Incidental Meniscal Findings on Knee MRI. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190223700.003.0033.

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This chapter, found in the bone, joint, and extremity pain section of the book, provides a succinct synopsis of a key study examining the frequency of incidental findings on knee magnetic resonance imaging. This summary outlines the study methodology and design, major results, limitations and criticisms, related studies and additional information, and clinical implications. Incidental meniscal damage on MRI was shown to be common in the general population, especially among the elderly, and is not necessarily attributable to patients’ knee symptoms. Authors advise those interpreting MRI reports and planning interventions that there is a high prevalence of incidental tears even among those without knee symptoms. In addition to outlining the most salient features of the study, a clinical vignette and imaging example are included in order to provide relevant clinical context.
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9

Fenstermacher, Marc. MRI of the Knee CD-ROM (Body MRI Series on CD-ROM). A Hodder Arnold Publication, 1997.

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10

Mri of the Knee (Clinical Diagnostic Imaging Series). Aspen Publishers, 1991.

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11

Majumdar, Sharmila. Advances in MRI of the Knee for Osteoarthritis. WORLD SCIENTIFIC, 2010. http://dx.doi.org/10.1142/7267.

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12

Peter, Teller, ed. MRI atlas of orthopedics and traumatology of the knee. Berlin: Springer, 2003.

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13

Teller, Peter. Mri Atlas of Orthopedics and Traumatology of the Knee. Springer, 2012.

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14

Imanirad, Leyla. Segmentation and tracking of the left ventricle in cardiac MRI. 2006.

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15

Bolog, Nicolae V., Gustav Andreisek, and Erika J. Ulbrich. MRI of the Knee: A Guide to Evaluation and Reporting. Springer, 2016.

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16

Teller, Peter, Hermann König, Peter Hertel, and Ulrich Weber. MRI Atlas of Orthopedics and Trauma Surgery of the Knee. Springer, 2002.

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17

Shulman, Ryan, Adrian Wilson, and Delia Peppercorn. Magnetic resonance imaging of the knee. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780199550647.003.008003.

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♦ ACL tear: abnormal fibres, tibial translation, PCL/patella tendon buckling, bone bruising♦ Meniscal tear: signal change to free edge♦ Bone bruising:• Reticular—not continuous subarticular bone• Geographic—extends to subarticular bone♦ Posterolateral corner:• Oblique slices through fibular head• Consists of lateral collateral ligament, popliteus, popliteofibular ligament, and arcuate complex.Magnetic resonance imaging (MRI) has revolutionized the investigation and treatment of the painful knee. It is non-invasive and avoids patient exposure to ionizing radiation. MRI has the advantage of establishing diagnoses in a painful knee without the morbidity of surgical intervention. It is now widely available and has moved from a simple diagnostic adjunct into a key planning tool. It offers improved management of theatre resources and it allows for more accurate planning of postoperative rehabilitation.The role of MRI in management of the injured knee is determined by its cost-effectiveness and its ability to augment the diagnostic accuracy of clinical examination. Accuracy of clinical examination by specialist orthopaedic surgeons is comparable to MRI when interpreted by specialist radiologists (Table 8.3.1). Increasingly, MRI has been shown to be cost neutral. Whilst costs are high, diagnostic information reduces the need for unnecessary surgery.
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18

Monk, Paul, Max Gibbons, and Tom Temple. Miscellaneous conditions around the knee. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780199550647.003.008009.

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19

Brockmeier, Stephen F. MRI-Arthroscopy Correlations: A Case-Based Atlas of the Knee, Shoulder, Elbow and Hip. Springer, 2016.

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20

Mo Ahn, Joong, Yusuf Menda, and Georges Y. El-Khoury. Imaging. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780199550647.003.0010.

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♦ Each modality of imaging—digital radiography, multidetector computed tomography (MDCT), magnetic resonance imaging (MRI), ultrasound, and nuclear medicine studies—has its own advantages and disadvantages♦ Conventional radiography is the best for initial evaluation of a musculoskeletal problem♦ MDCT rapid survey of multiple trauma patients is easily performed using the new high speed computed tomography scanners♦ MRI is the imaging modality of choice for internal derangement of the knee and other soft tissue injuries♦ Radionuclide bone imaging is most suitable for screening the whole skeleton for metastases♦ Positron emission tomography is useful for identification of tumour, inflammation, and infection.
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21

Malajikian, Krikor, and Daniel Finelli. Basics of Computed Tomography. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199908004.003.0003.

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Computed tomography (CT)-guidance is typically used when precise needle placement is essential for a successful procedure. It uses ionizing radiation, which could pose risks to the patient and operating staff if proper technique is not used. The performing physician should adhere to all principles of minimizing radiation exposure to the patient and clinicians. Common CT-guided imaging procedures include facet injections, nerve root injections, sacroiliac joint injections, intradiscal procedures, vertebroplasty/sacroplasty, and image-guided ablation of painful bone lesions. Computed tomography is also the imaging modality of choice for aspiration of deep paraspinal soft tissues in addition to disc space or bone biopsy in acute discitis/osteomyelitis. In fluoroscopic-guided knee or shoulder joint injections, CT arthrography is a useful adjunct to better assess anatomy when MRI is contraindicated. When imaging the postoperative spine, CT myelography has some advantages over MRI, and CT is also superior to MRI in assessing par intra-articularis defects or spondylolysis.
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22

van Gaalen, Floris, Désirée van der Heijde, and Maxime Dougados. Diagnosis and classification of axial spondyloarthritis. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198734444.003.0003.

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Axial spondyloarthritis (axSpA) is a potentially disabling chronic inflammatory disease affecting the spine and sacroiliac (SI) joints. Lead symptoms are chronic back pain and stiffness. The disease is called radiographic axSpA or ankylosing spondylitis (AS) when, on plain radiographs, bone changes consistent with sacroiliitis are present. When no evidence of sacroiliitis is seen on radiographs, it is called non-radiographic axSpA. In such cases, diagnosis is made based on evidence of active inflammation of SI joints on magnetic resonance imaging (MRI) and clinical and laboratory features, or a combination of clinical and laboratory features only. Apart from affecting the spine and SI joints, axSpA may involve peripheral joints (e.g. knee, ankle) and manifest in extra-articular manifestations, for example uveitis, psoriasis, and inflammatory bowel disease. In this chapter, diagnosis and classification of axSpA is discussed, including use of MRI in detecting sacroiliitis and the difference between clinical diagnosis and disease classification.
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23

Laureno, Robert. Selected Concepts. Edited by Robert Laureno. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190607166.003.0016.

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This chapter on “Selected Concepts” examines the evolution of neurological concepts during the modern era. Examples presented include the concepts of transient ischemic attack, disconnection syndrome, thoracic outlet syndrome, and Wilbrand’s knee. Over the past half century, neurology has witnessed great technological advances. Newer scientific methods, such as MRI scanning, have led to new knowledge that has necessitated changes in neurologic concepts. During recent decades, new concepts have emerged. Infectious proteins, antibody-mediated brain disease, channelopathies, and the glymphatic system are relatively new ideas, and we cannot foresee how our understanding of these concepts will be advanced or modified in the coming decades.
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24

Hayashi, Daichi, Ali Guermazi, and Frank W. Roemer. Radiography and computed tomography imaging of osteoarthritis. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199668847.003.0016.

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Osteoarthritis (OA) is the most prevalent joint disorder in the elderly worldwide and there is still no effective treatment, other than joint arthroplasty for end-stage OA, despite ongoing research efforts. Imaging is essential for assessing structural joint damage and disease progression. Radiography is the most widely used first-line imaging modality for structural OA evaluation. Its inherent limitations should be noted including lack of ability to directly visualize most OA-related pathological features in and around the joint, lack of sensitivity to longitudinal change and missing specificity of joint space narrowing, and technical difficulties regarding reproducibility of positioning of the joints in longitudinal studies. Magnetic resonance imaging (MRI) is widely applied in epidemiological studies and clinical trials. Computed tomography (CT) is an important additional tool that offers insight into high-resolution bony anatomical details and allows three-dimensional post-processing of imaging data, which is of particular importance for orthopaedic surgery planning. However, its major disadvantage is limitations in the assessment of soft tissue structures compared to MRI. CT arthrography can be useful in evaluation of focal cartilage defects or meniscal tears; however, its applicability may be limited due to its invasive nature. This chapter describes the roles and limitations of both conventional radiography and CT, including CT arthrography, in clinical practice and OA research. The emphasis is on OA of the knee, but other joints are also mentioned where appropriate.
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