Injuries of the lateral collateral ligaments of the ankle: assessment with MR imaging

Abstract: The aim of this study was to evaluate the ability of MRI to display injuries of the lateral collateral ligamentous complex in patients with an acute ankle distorsion trauma. The MR examinations of 36 patients with ankle pain after ankle distorsion were evaluated retrospectively without knowledge of clinical history, outcome and/or operative findings. The examinations were performed on a 1. 5-T whole-body imager using a flexible surface coil. The signs for ligamentous abnormality were as follows: complete or pa… Show more

“…If the clinical stress test is positive, stress radiography can be performed; however, there is no consensus about the usefulness of stress radiography in acute ankle sprain, particularly about the cut-off talar tilt angle beyond which a ligament rupture would be certain, ranging from 5 to 30°. Presently, MRI is not regularly used for this indication, although it allows, with controlled positioning of the foot and with defined sections, visualization of injured lateral collateral ankle ligaments with high precision [43]. Subchondral bone bruise in the medial femoral condyle.…”

Traumatic injuries: imaging of peripheral musculoskeletal injuries

“…If the clinical stress test is positive, stress radiography can be performed; however, there is no consensus about the usefulness of stress radiography in acute ankle sprain, particularly about the cut-off talar tilt angle beyond which a ligament rupture would be certain, ranging from 5 to 30°. Presently, MRI is not regularly used for this indication, although it allows, with controlled positioning of the foot and with defined sections, visualization of injured lateral collateral ankle ligaments with high precision [43]. Subchondral bone bruise in the medial femoral condyle.…”

Traumatic injuries: imaging of peripheral musculoskeletal injuries

“…Any high signal intensity due to edema or bleeding from acute mechanical injury would be expected to decrease as the acute responses resolve. [21][22][23] The unaltered signal intensity also does not support the theory that acute ligament injury invisible on MR images in the acute phase can cause the development of high signal intensity seen only at a later stage of injury, eg, after a repair process or due to accelerated degeneration. 11 We cannot completely rule out that such high signal intensity may occur later than 12 months after injury.…”

Follow-Up MR Imaging of the Alar and Transverse Ligaments after Whiplash Injury: A Prospective Controlled Study

“…A further improvement in T2-weighted imaging of the spine seems to be the utilization of a driven equilibrium RF pulse, allowing T2-weighted 3D imaging of the cervical spine with a repetition time as short as 211 ms within an acquisition time of 4 min 14 s [26]. As T2-weighted imaging has also been used in the past to study the integrity of joints, fast spin echo imaging has replaced the conventional SE protocols for the evaluation of ligamental injuries, documenting joint effusion, edema, or hemarthrosis as hyperintense signal regions on T2-weighted TSE images [57]. Both FLASH and FISP have been used for the evaluation of human articular cartilage [58]; however, for chondral abnormalities as a result of traumatic injury or arthritis the contrast between cartilage and joint fluid is The hyperintense distribution within the fetal brain is typical for the appearance of cerebrospinal fluid in the case of ventriculomegaly frequently inadequate.…”

Fast and ultrafast non-echo-planar MR imaging techniques