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Review
Radiographic progression of joint system in Radiological Society of North America 2011
PANG Jing  XU Wen-jian 

DOI:10.3969/j.issn.1674-8034.2012.04.011.


[Abstract] The Radiological Society of North America (RSNA) represents one of the highly prestigious medical societies. Four hundred and fifty-seven studies of musculoskeletal system were published in RSNA 2011, in which 118 were about joint imaging. The exhibits,posters and studies were mainly about hip, knee, ankle and shoulder joints etc. Magnetic resonance imaging is the predominant mode of imaging technology. Diffusion weighted imaging, diffusion tensor imaging, T2 mapping, ultrashort TE, dynamic contrast-enhanced MRI and MR arthrography were used for detecting the qualitative and quantitative of articular cartilage changes.Studies in extremities joints and microstructures were rare, which were mainly comparative studies between MRI and MR arthrography. This article is a review of the radiographic progression of joint system in RSNA 2011.
[Keywords] Magnetic resonance imaging;Ligaments, articular;Review literature

PANG Jing Deparmant of Radiology, The Affiliated Hospital of Medical College Qingdao University, Qingdao 266003, China

XU Wen-jian * Deparmant of Radiology, The Affiliated Hospital of Medical College Qingdao University, Qingdao 266003, China

*Correspondence to: Xu WJ, E-mail: cjr.xuwenjian@vip.163.com

Conflicts of interest   None.

Received  2011-05-29
Accepted  2012-06-22
DOI: 10.3969/j.issn.1674-8034.2012.04.011
DOI:10.3969/j.issn.1674-8034.2012.04.011.

[1]
Aihara AY, Paulo S, Yanaguizawa M, et al. Ligamentum teres: anatomy review and imaging evaluation. Chicago: RSNA, 2011: DOI: .
[2]
Choi J, Cha J, Lee G. et al. Evaluation of ligamentum teres (LT) on MR arthrography (MRA) in patients with clinically suspected FAI: with arthroscopi correlation. Chicago: RSNA, 2011: DOI: .
[3]
Rodriguez VB, Olalla C, Guadilla AJ, et al. Femoroacetabular impingement: imaging strategies and characteristics. Chicago: RSNA, 2011: DOI: .
[4]
Magerkurth O, Jacobson JA, Morag Y, et al. Femoroacetabular CAM type impingement: assessment of the femoral head neck junction on a single image with 3D MR. Chicago: RSNA, 2011: DOI: .
[5]
Fiona C. Utility of Magnetic Resonance Arthrography of the Hip, in the Diagnosis of Labral and Chondral Pathology. Chicago: RSNA, 2011: MSVS41.
[6]
Binkhamis SM, Schweitzer ME, Beaule PE, et al. The accuracy of indirect mr arthrography of the hip in detecting acetabular labral tears. Chicago: RSNA, 2011: DOI: .
[7]
Magerkurth O, Jacobson JA, Morag Y. Capsular laxity of the hip: findings at MR arthrography. Chicago: RSNA, 2011: DOI: .
[8]
Kim E, Kwack K, Cho J, et al. Usefulness of dynamic contrast-enhanced MRI in differentiating between septic arthritis and transient synovitis in the hip joint. Chicago: RSNA, 2011:SSG09.
[9]
Sandhu R, Satchithanada K, Hart A, et al. Metal artefact reduction sequence (MARS) MRI of painful metal-on-metal hips: beyond the pseudotumor. Chicago: RSNA, 2011: DOI: .
[10]
Nguyen JC, Rosas HG, De SA, et al. What is in a tear: diagnosis and classification of meniscal tears. Chicago: RSNA, 2011: DOI: .
[11]
De S. MR imaging appearance of the types of meniscal tears with arthroscopic correlation. Chicago: RSNA, 2011: MSVS31.
[12]
Pandey S, Wong E, Roth CG, et al. Vertical? Vertical-Longitudinal? Longitudinal? What do I call the tear? A review of meniscal tear nomenclature and a proposed standardized Nomenclature. Chicago: RSNA, 2011: DOI: .
[13]
Altahawi F, Saluan P, Subhas N, et al. Display tool for radial multiplanar reconstructions of isotropic knee MR: development and initial experience. Chicago: RSNA, 2011: SSE15.
[14]
Lee S, Jee W, Jung J, et al. Isotropic 3D intermediate-weighted turbo spin-echo MR imaging of the knee at 3.0 T: fat-suppression vs without fat-suppression. Chicago: RSNA, 2011: SSE15.
[15]
Magee TH. Comparison of 3 tesla 3D XETA MR imaging of the knee vs conventional MR imaging of the knee. Chicago: RSNA, 2011: SSE15.
[16]
Sung H. Causes of high signal intensity changes of the meniscus on MR images: correlation with histologic examination. Chicago: RSNA, 2011: MSVS31.
[17]
Kristen E, Roth CG, Zoga AC, et al. "Borderline" Meniscal tears: incidence of secondary soft tissue and osseous findings on MRI. Chicago: RSNA, 2011: MSVS31.
[18]
Hwang Y, Lee S, Chung H, et al. T2 mapping of articular cartilage in patients of meniscus transplantation: comparison between immediate postoperation and six-month follow-up. Chicago: RSNA, 2011: SSA14.
[19]
Bosemani T, Durand D, Huisman T, et al. 3 T MRI of pediatric adolescent knees: our initial experience. Chicago: RSNA, 2011: DOI: .
[20]
Gupta SK, White LM, Jacks L, et al. Magnetic resonance imaging (MRI) signs of anterior knee laxity in the presence of an intact graft following anterior cruciate ligament (ACL) reconstruction. Chicago: RSNA, 2011: SSE15.
[21]
Botchu R. Trochlea dysplasia: association with ACL injuries. Chicago: RSNA, 2011: MSVS31.
[22]
Wissman RD, Kapur S, Hendry DS, et al. Extensor mechanism injuries in acute anterior cruciate ligament tears. Chicago: RSNA, 2011: DOI:
[23]
Cha J, Choi S, Kwon JW, et al. Analysis of Cyclops lesions after different anterior cruciate ligament reconstructions: a comparison of the single-bundle and remnant bundle preservation techniques. Chicago: RSNA, 2011: MSVS31.
[24]
Song Y, Lee S, Joo K, et al. Impingement of posterior cruciate ligament on coronal scans of knee MRI: is this a secondary sign of tear or normal variant inthe posterior cruciate ligament? Chicago: RSNA, 2011: MSVS31.
[25]
Pirani Y, Shukla M, Malhotra AD, et al. The role of obesity in superficial medial collateral ligament edema in the atraumatic setting. Chicago: RSNA, 2011: DOI: .
[26]
Jadhav SP, More SR, Riascos R, et al. Popliteus: a comprehensive review of anatomy, function, and imaging of popliteus and associated pathologies with 3D illustrations. Chicago: RSNA, 2011: DOI: .
[27]
Lee PP, Chalian M, Thawait GK, et al. Multimodality measurements of patellar height on X-ray, CT, and MRI. Chicago: RSNA, 2011: DOI: .
[28]
Cobo RM, Salazar C, Sabaneeff A, et al. Dynamic CT imaging of patellar instability: characterization and predisposing anatomic factors. Chicago: RSNA, 2011: DOI: .
[29]
Padua SO, Lopez-Alvarez YM, Baussan S, et al. Navigating the pits and crevasses of the patellar surface: a primer on patellar chondromalacia. Chicago: RSNA, 2011: DOI: .
[30]
Sheibanifar M. Optimized 3D sequence on MRI for the ankle ligamentary lesions: 2 years of experience. Chicago: RSNA, 2011: DOI: .
[31]
Song H, Jee W, Jung J, et al. Chronic lateral collateral ligament tears of the ankle: diagnosis with 3D isotropic turbo spin-echo SPACE sequence vs conventional 2D TSE sequences at 3.0 T. Chicago: RSNA, 2011: SSJ15.
[32]
Chang EY, Bae WC, Biswas R, et al. To provide a noninvasive quantitative means of evaluating achilles tendon T2 values using 3 T MR UTE techniques in asymptomatic volunteers: quantitative MRI characterization of the achilles tendon—T2 measurements using ultrashort echo time (UTE) MR. Chicago: RSNA, 2011: SSA14.
[33]
Tuan A. Hindsight is 20/20: ossification of the posterior tibiofibular ligament on follow-up ankle radiographs reclassifies traumatic ankle injury from a low to high sprain. Chicago: RSNA, 2011: DOI: .
[34]
Lee J, Cha J, Lee M, et al. Usefulness of IDEAL MR imaging in reducing metallic artifacts in the postoperative ankles with metallic hardware. Chicago: RSNA, 2011: SSJ15.
[35]
Pandey S, Driban JB, Huang TL. et al. Does shoulder radiography predict rotator cuff abnormality? Examination of greater tuberosity cortical irregularity as an indicator for surpaspinatus pathology. 2011: LL-MKS-TH5B.
[36]
Magee TH. MR vs MR arthrography in detection of supraspinatus tendon tears in patients without previous shoulder surgery. Chicago: RSNA, 2011: DOI: .
[37]
Maeder M, Zbojniewicz AM, Emery KH, et al. Spectrum and incidence of rotator cuff tears in pediatric patients at a large tertiary care hospital. Chicago: RSNA, 2011: SSQ14.
[38]
Jasti S, Badillo K, Farouga AF, et al. Distribution of disease around the elbow on MRI: preliminary observations. Chicago: RSNA, 2011: DOI: .
[39]
Abdelfattah S. Diagnostic role of MRI in assessing patients with ulnar sided wrist pain. Chicago: RSNA, 2011: MSVS41.
[40]
Raja FS, Garvin GJ, Osman S. Prevalence and spectrum of magnetic resonance imaging (MRI) findings involving the extensor carpi ulnaris (ECU) tendon in asymptomatic wrists. Chicago: RSNA, 2011: DOI: .
[41]
Spencer C. Demonstration of the anatomy of the extrinsic carpal ligaments of the wrist using MR arthrography. Chicago: RSNA, 2011: DOI: .
[42]
Koskinen SK, Haapamäki V, Salo J, et al. CT arthrography of the wrist using a novel mobile dedicated extremity cone beam CT (CBCT). Chicago: RSNA, 2011: DOI: .
[43]
Bierry G, Ramdhian-Wihlm R, Minor JL, et al. Cone-beam computed tomography arthrography: an innovative alternative to MDCT arthrography of the wrist? Chicago: RSNA, 2011: DOI: .
[44]
Andreisek G. Diffusion tensor imaging of the median nerve at 3.0 tesla: normative and pathologic diffusion values. Chicago: RSNA, 2011: SSK10.
[45]
Lindberg P, Feydy AA, Drape J, et al. Relation between diffusion tensor imaging, electromyography, and grip force control in patients with recurrent carpal tunnel syndrome after surgical release. Chicago: RSNA, 2011: SSK10.
[46]
Lobo LG, White LM, Khanna M, et al. Diffusion tensor imaging of the median nerve before and after carpal tunnel release in patients with carpal tunnel syndrome: feasibility study. Chicago: RSNA, 2011: DOI: .
[47]
Welsch GH, Renner N, Janka R, et al. Imaging of micro-structural cartilage changes in the finger joints of patients with rheumatoid arthritis by means of delayed gadolinium MRI of cartilage (dGEMRIC): initial clinical results. Chicago: RSNA, 2011: DOI: .
[48]
Lux G, Souza MR, Osemont B, et al. dynamic computed tomography of the subtalar joint. Chicago: RSNA, 2011: SSJ15.
[49]
Du J, Bae WC, Pauli C, et al. In vivo ultrashort TE (UTE) imaging of the knee joint with bi-component analysis. Chicago: RSNA, 2011: SSA14.
[50]
Schuetz UH. Changes of cartilage surface in knee, ankle, and hindfoot joints in ultra-endurance runners during 4.487 km trans europe foot race measured by mobile MRI on a truck. Chicago: RSNA, 2011: SSA14.
[51]
Mayerhoefer. Evaluation of 23Na (Sodium) content in native hyaline cartilage and repair tissue after two cartilage repair techniques in the knee with 7 T MR imaging. Chicago: RSNA, 2011: MSVS31.

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