Magnetic Resonance Imaging of the Hip

Omar, Imran M.; Blount, Kevin J.

doi:10.1097/rmr.0000000000000057

Cited by 8 publications

(10 citation statements)

References 114 publications

(116 reference statements)

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“…While not mainstream in clinical imaging yet, these techniques will likely become more important in the future, particularly in evaluation of athletes. Such techniques include delayed gadolinium-enhanced MR imaging of cartilage, T2 cartilage mapping, and T1 mapping, which are directed toward identification of early molecular defects secondary to glycosaminoglycan depletion, free water content, and proteoglycan loss, respectively, before cartilage abnormalities become evident with conventional MR imaging sequences (62,84,85).…”

Section: Articular Cartilagementioning

confidence: 99%

Sports Injuries about the Hip: What the Radiologist Should Know

Hegazi¹,

Belair²,

McCarthy³

et al. 2016

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Injuries of the hip and surrounding structures represent a complex and commonly encountered scenario in athletes, with improper diagnosis serving as a cause of delayed return to play or progression to a more serious injury. As such, radiologists play an essential role in guiding management of athletic injuries. Familiarity with hip anatomy and the advantages and limitations of various imaging modalities is of paramount importance for accurate and timely diagnosis. Magnetic resonance (MR) imaging is often the modality of choice for evaluating many of the injuries discussed, although preliminary evaluation with conventional radiography and use of other imaging modalities such as ultrasonography (US), computed tomography, and bone scintigraphy may be supplementary or preferred in certain situations. Stress fractures, thigh splints, and posterior hip dislocations are important structural injuries to consider in the athlete, initially imaged with radiographs and often best diagnosed with MR imaging. Apophyseal injuries are particularly important to consider in young athletes and may be acute or related to chronic repetitive microtrauma. Femoroacetabular impingement has been implicated in development of labral tears and cartilage abnormalities. Tear of the ligamentum teres is now recognized as a potential cause of hip pain and instability, best evaluated with MR arthrography. Greater trochanteric pain syndrome encompasses a group of conditions leading to lateral hip pain, with US playing an increasingly important role for both evaluation and image-guided treatment. Muscle injuries and athletic pubalgia are common in athletes. Lastly, snapping hip syndrome and Morel-Lavallée lesions are two less common but nonetheless important considerations. RSNA, 2016.

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Section: Articular Cartilagementioning

confidence: 99%

Sports Injuries about the Hip: What the Radiologist Should Know

Hegazi¹,

Belair²,

McCarthy³

et al. 2016

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“…When characterizing hip anatomy and pathology, MRI can also identify synovial proliferations, joint effusion, articular cartilage abnormalities, ligaments, subchondral bone, muscles, and juxtaarticular soft tissue [4]. MRI facilitates the accurate identification, localization, and characterization of hip illness, hence aiding the diagnosis and therapy of a variety of hip pathological conditions [5]. The purpose of this study was to investigate the role of MRI in the diagnosis of non-traumatic hip joint discomfort.…”

Section: Introductionmentioning

confidence: 99%

Magnetic resonance imaging (MRI) in diagnosis of non-traumatic hip joint pain

El-Shourbagy¹,

Ghith²,

Hablas³

2022

Int. J. Radiol. Diagn. Imaging

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Background:The hip is a significant weight bearing, highly mobile, ball-and-socket synovial joint. There are several reasons of hip pain, such as congenital and developmental, viral, arthritic, and malignant conditions. Magnetic resonance imaging is the method of choice for determining the severity of osseous, chondral, and soft-tissue abnormalities of the hip joint, as well as for characterizing numerous illnesses. This study investigate the role of MRI in identifying hip joint discomfort. Methods and Results: Seventy-five both sexes patients with unilateral or bilateral painful hip joint were examined. The patients with age ranged from 10 to 70 years (mean age 54.74 + 10.52years) were 42 males (mean age 51.44 + 11.50) and 33 females (mean age 42.75 + 12.24) with male to female ratio 1.3:1. All our patients subjected to careful history taking, thorough clinical examination, routine laboratory investigations and local examination of the diseased hip. The majority of patients were in the age group 40-50 years followed by the age group of 50-60 years, with a male preponderance. The commonest chief complaint, other than pain of the involved hip joint, was restricted movement. All patients underwent MRI examination of both hips using a TOSHIBA 1.5 Tesla MRI machine scanner. Unilateral hip involvement was more common than bilateral. The commonest hip disorder was osteoarthritis, followed by avascular necrosis (AVN) of femoral head, tendinopathy, bursitis, sacroiliitis, Cam type femoral-acetabular impingement, ischio-femoral-impingement and pertheʹs disease. Conclusion:The MRI is the diagnostic method of choice for evaluating hip issues. It can discover certain features that lead to an accurate diagnosis of the uncomfortable hip joint and play a vital role in treatment and monitoring of sick joint by doctors.

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“…T2 relaxation times can be used to measure cartilage degeneration due to their dependency on the water and collagen content of the extracellular matrix as well as orientation of collagen fibers (2). T2 mapping has been used in multiple clinical studies mostly in the knee (2-7), hip (4,8,9) and spine (10)(11)(12)(13)(14)(15)(16), many of which demonstrated that T2 mapping was able to identify early cartilage degeneration.…”

Section: Introductionmentioning

confidence: 99%

Quantitative Evaluation of Pubic Symphysis in Late Pregnancy Using T2* Mapping

Zhang

Gong

Yuan³

et al. 2021

Iran J Radiol

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Background: T2* mapping is a reliable tool in articular cartilage imaging. It has been widely used to evaluate the degeneration of knee joint and intervertebral discs. Degenerative joint disease of pubic symphysis is the primary cause of groin pain during late pregnancy. Objectives: To evaluate the alterations of pubic symphyseal cartilage during late pregnancy using T2* mapping. Patients and Methods: Sixty-one first-pregnancy women, 48 second-pregnancy women and 64 nulliparous women were enrolled in this case-control study. All subjects underwent MRI exam of the pubic symphysis on a 1.5T MR scanner, including T2* mapping sequence. Regions of interest (ROIs) were hand-drawn on T2* maps along the left and right side of the cartilage and anterior/middle/posterior sub-regions of each side. T2* values were analyzed and compared among the three groups using analysis of variance. The average pubic symphyseal width was measured. The correlation between pubic symphyseal width and T2* values of cartilage were analyzed using Pearson's correlation coefficient. Results: Compared with nulliparous women, T2* values increased significantly in late pregnancy in the left/right cartilage of pubic symphysis. The differences were mainly driven by the posterior sub-region; while, no differences were found between women during first and second pregnancies. The positive linear correlation between symphyseal width and mean T2* values of the cartilage was only seen in the group of women during first pregnancy, with no significant linear correlation in the other two groups. Conclusion: T2* mapping is a sensitive quantitative method capable of detecting changes in the pubic symphyseal cartilage related to pregnancy, and the T2* values increased significantly during late pregnancy.

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Magnetic Resonance Imaging of the Hip

Cited by 8 publications

References 114 publications

Sports Injuries about the Hip: What the Radiologist Should Know

Sports Injuries about the Hip: What the Radiologist Should Know

Magnetic resonance imaging (MRI) in diagnosis of non-traumatic hip joint pain

Quantitative Evaluation of Pubic Symphysis in Late Pregnancy Using T2* Mapping

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