Techniques in hip arthroscopy and joint preservation. In: Sekiya JK, Safran MR, Ranawat AS, Leunig M, editors. A comprehensive validation of a new method for correction of radiographic hip parameters for pelvic malpositioning. Tannast M, Mistry S, Steppacher SD, Reichenbach S, Siebenroc KA, Zheng GA. Radiographic analysis of femoroacetabular impingement with Hip2Norm-reliable and validated. Tannast M, Mistry S, Steppacher SD, Reichenbach S, Langlotz F, Siebenrock KA, Zheng G. The relationship between fovea capitis femoris and weight bearing area in the normal and dysplastic hip in adults: a radiologic study. Anatomy of the femoral neck and head, with comparative data from Caucasians and Hong Kong Chinese. Disease in bone and its detection by the X-rays. A new radiological index for assessing asphericity of the femoral head in cam impingement. Gosvig KK, Jacobsen S, Palm H, Sonne-Holm S, Magnusson E. Proximal femoral anatomy in the normal human population. The contour of the femoral head-neck junction as a predictor for the risk of anterior impingement. Notzli HP, Wyss TF, Stoecklin CH, Schmid MR, Treiber K, Hodler J. Femoroacetabular impingement: radiographic diagnosis–what the radiologist should know. Pelvic morphology differs in rotation and obliquity between developmental dysplasia of the hip and retroversion. Tannast M, Pfannebecker P, Schwab JM, Albers CE, Siebenrock KA, Buchler L. Effect of pelvic tilt on acetabular retroversion: a study of pelves from cadavers. Ischial spine projection into the pelvis: a new sign for acetabular retroversion. Kalberer F, Sierra RJ, Madan SS, Ganz R, Leunig M. The acetabular wall index for assessing anteroposterior femoral head coverage in symptomatic patients. Siebenrock KA, Kistler L, Schwab JM, Buchler L, Tannast M. Tannast M, Albers CE, Steppacher SD, Siebenrock K. Acetabular and femoral anteversion: relationship with osteoarthritis of the hip. A study of radiographic factors that predict the outcome. The prognosis in untreated dysplasia of the hip. Adolescent deformities of the acetabulum an investigation into the nature of protrusio acetabuli. The aetiology of primary protrusio acetabuli. Radiographic findings of femoroacetabular impingement in National Football League combine athletes undergoing radiographs for previous hip or groin pain. Nepple JJ, Brophy RH, Matava MJ, Wright RW, Clohisy JC. In: Williams PL, Warkick R, Dyson M, Bannister LH, editors. Nachweis der “Kocherschen Verbiegung” des Schenkelhalses bei der Coxa vara durch Röntgenstrahlen. Comparison of six radiographic projections to assess femoral head/neck asphericity. Meyer DC, Beck M, Ellis T, Ganz R, Leunig M. Hip damage occurs at the zone of femoroacetabular impingement. Tannast M, Goricki D, Beck M, Murphy SB, Siebenrock KA. Determining rotational errors of the femur by axial computerized tomography in comparison with clinical and conventional radiologic determination. Zur Bestimmung der Antetorsion des Schenkelhalses mittels zweier Röntgenaufnahmen. Anteversion of the neck of the femur a method of measurement. Analysis of version in the acetabular cup. Tilt and rotation correction of acetabular version on pelvic radiographs. Tannast M, Zheng G, Anderegg C, Burckhardt K, Langlotz F, Ganz R, Siebenrock KA. Anatomic referencing of cup orientation in total hip arthroplasty. Tannast M, Langlotz U, Siebenrock KA, Wiese M, Bernsmann K, Langlotz F. Theoretical study to the sub-project ‘Interactive software for 2D and 3D standardization of pelvic radiographs and CT-scans for accurate evaluation of hip joint morphology’ under CO-ME Project 4. This process is experimental and the keywords may be updated as the learning algorithm improves.īurckhardt K. These keywords were added by machine and not by the authors. This article summarizes and illustrates the most common radiographic parameters to describe the acetabular depth, acetabular coverage, acetabular orientation, head-neck sphericity, and joint congruency. Additional views are performed to answer specific questions, e.g., a false profile view to judge the anterior acetabular coverage. Hip-centered or deep-centered views are not recommended in hip-preserving surgery since the centering of the x-ray alters the projected anatomy on the radiograph. Standard radiographic evaluation of the hip comprises the anteroposterior pelvic radiograph and an axial view (e.g., cross-table). The anatomy of the hip on plain radiographs depends on the conical projection, film-tube and patient-film distance, centering and direction of the x-ray beam, and the pelvic orientation during radiograph acquisition. To know the technical principles of radiographic imaging is essential for correct interpretation of plain radiographs. Plain radiographic imaging remains the standard imaging modality for the hip despite modern three-dimensional computer tomography or magnetic resonance imaging.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |