OBJECTIVE: The purpose of this study was to review the normal and sonographic (US) anatomy of the central aponeurosis of the rectus femoris muscle, describe the sonographic appearance of its tears and correlate it with the MR findings. DESIGN AND PATIENTS: The rectus femoris internal architecture was evaluated by cadaveric dissection. To correlate the sonographic normal findings with cadaveric data, axial sections were compared with the corresponding US images. The normal in vivo sonographic appearance of rectus femoris was assessed in 20 healthy subjects (40 thighs). To evaluate the US findings in central aponeurosis tears we performed a retrospective review of 17 examinations of 17 patients suffering from acute injuries. Follow-up examinations were available in five patients. Sonographic findings were correlated with MR findings in eight patients. RESULTS: Anatomical dissection of the rectus femoris confirmed the presence of the central aponeurosis, a sagittally oriented fibrous band located within the proximal two-thirds of the muscle belly. In vitro US showed the central aponeurosis as a curvilinear hyperechoic structure whose shape correlated well with the cadaveric data, and in vivo US demonstrated it in all healthy subjects. In the retrospective analysis of the patient group, we classified the lesions into three groups according to the size at sonography: group 1 ( n=9), hyperechoic band surrounding an intact central aponeurosis; group 2 ( n=7), mixed hypo- and hyperechoic bands surrounding an intact central aponeurosis but associated with globular enlargement of the rectus femoris; group 3 ( n=1), complete discontinuity of the rectus femoris. These findings can reflect small partial tears, larger partial tears and complete musculotendonous junction tears respectively. In patients evaluated with both techniques, MRI confirmed the US findings. In five patients follow-up studies showed an irregular hyperechoic ill-defined area centred on the central aponeurosis that was compatible with a central scar. CONCLUSIONS: Sonography can demonstrate the normal internal anatomy of the rectus femoris and post-traumatic changes at the myotendinous junction of the central aponeurosis. Sonographic data correlate well with MR findings, and the low cost and wide availability of sonography make it the first-line technique in the evaluation of injuries of the rectus femoris.
OBJECTIVE: The purpose of this study was to review the normal and sonographic (US) anatomy of the central aponeurosis of the rectus femoris muscle, describe the sonographic appearance of its tears and correlate it with the MR findings. DESIGN AND PATIENTS: The rectus femoris internal architecture was evaluated by cadaveric dissection. To correlate the sonographic normal findings with cadaveric data, axial sections were compared with the corresponding US images. The normal in vivo sonographic appearance of rectus femoris was assessed in 20 healthy subjects (40 thighs). To evaluate the US findings in central aponeurosis tears we performed a retrospective review of 17 examinations of 17 patients suffering from acute injuries. Follow-up examinations were available in five patients. Sonographic findings were correlated with MR findings in eight patients. RESULTS: Anatomical dissection of the rectus femoris confirmed the presence of the central aponeurosis, a sagittally oriented fibrous band located within the proximal two-thirds of the muscle belly. In vitro US showed the central aponeurosis as a curvilinear hyperechoic structure whose shape correlated well with the cadaveric data, and in vivo US demonstrated it in all healthy subjects. In the retrospective analysis of the patient group, we classified the lesions into three groups according to the size at sonography: group 1 ( n=9), hyperechoic band surrounding an intact central aponeurosis; group 2 ( n=7), mixed hypo- and hyperechoic bands surrounding an intact central aponeurosis but associated with globular enlargement of the rectus femoris; group 3 ( n=1), complete discontinuity of the rectus femoris. These findings can reflect small partial tears, larger partial tears and complete musculotendonous junction tears respectively. In patients evaluated with both techniques, MRI confirmed the US findings. In five patients follow-up studies showed an irregular hyperechoic ill-defined area centred on the central aponeurosis that was compatible with a central scar. CONCLUSIONS: Sonography can demonstrate the normal internal anatomy of the rectus femoris and post-traumatic changes at the myotendinous junction of the central aponeurosis. Sonographic data correlate well with MR findings, and the low cost and wide availability of sonography make it the first-line technique in the evaluation of injuries of the rectus femoris.
Authors: Xavier Valle; Eduard Alentorn-Geli; Johannes L Tol; Bruce Hamilton; William E Garrett; Ricard Pruna; Lluís Til; Josep Antoni Gutierrez; Xavier Alomar; Ramón Balius; Nikos Malliaropoulos; Joan Carles Monllau; Rodney Whiteley; Erik Witvrouw; Kristian Samuelsson; Gil Rodas Journal: Sports Med Date: 2017-07 Impact factor: 11.136
Authors: Xavier Valle; Sandra Mechó; Eduard Alentorn-Geli; Tero A H Järvinen; Lasse Lempainen; Ricard Pruna; Joan C Monllau; Gil Rodas; Jaime Isern-Kebschull; Mourad Ghrairi; Xavier Yanguas; Ramon Balius; Adrian Martinez-De la Torre Journal: Sports Med Date: 2022-05-24 Impact factor: 11.928
Authors: Christoph von Laßberg; Julia A Schneid; Dominik Graf; Felix Finger; Walter Rapp; Norman Stutzig Journal: PLoS One Date: 2017-08-17 Impact factor: 3.240