Common foot and ankle disorders in pregnancy: the role of diagnostic ultrasound.

Foot and ankle disorders are common during pregnancy, driven by significant physiological changes including weight distribution, hormonal fluctuations, and fluid balance. These changes often result in conditions such as varicose veins, thrombophlebitis, deep vein thrombosis (DVT), edema, overpronation, ankle sprains, metatarsalgia, stress fractures, ligament tears, synovitis, tendon tears, tenosynovitis, paratenonitis, plantar fasciitis, and Morton's neuroma. This paper emphasizes the diagnostic utility of ultrasound for these conditions, given its safety, non-invasiveness, and real-time imaging capabilities without ionizing radiation. Ultrasound is particularly effective for diagnosing venous disorders like varicose veins and thrombophlebitis, leveraging Doppler ultrasound to assess vein structure and function. It is also instrumental in identifying DVT, detecting vein dilation, reflux, and thrombosis. For conditions such as edema, ultrasound helps differentiate physiological from pathological causes, ensuring accurate diagnosis and management. In cases of musculoskeletal issues like overpronation, ankle sprains, ligament tears, and tendon pathologies, ultrasound provides detailed images of soft tissues, allowing for precise diagnosis and effective treatment planning. It is equally useful for detecting metatarsalgia, plantar fasciitis, and Morton's neuroma, offering insights into soft tissue abnormalities and guiding therapeutic interventions. Ultrasound's role extends to diagnosing foreign bodies in the foot and ankle, where it demonstrates high sensitivity and specificity. The accessibility and cost-effectiveness of ultrasound make it an invaluable tool in various healthcare settings, ensuring timely and accurate diagnosis and management of foot and ankle disorders during pregnancy, ultimately enhancing patient outcomes and quality of life.

Dynamic ultrasound assessment of hip instability and anterior and posterior hip impingement.

OBJECTIVE: In this technical report, we describe our protocol for the dynamic sonographic evaluation of the hip and assess reliability of the ultrasound assessment of hip microinstability. MATERIALS AND METHODS: Our clinical experience with a standardized dynamic ultrasound of the hip performed in a series of 27 patients with imaging performed by an experienced musculoskeletal radiologist during physical examination by an orthopedic surgeon specializing in hip preservation is illustrated with clinical photographs and ultrasound images from volunteers and selected patients. Interrater reliability for the diagnosis of microinstability was calculated. RESULTS: Dynamic ultrasound technique and findings of hip instability, femoroacetabular impingement, and ischiofemoral impingement with corresponding clinical photos showing the necessary physical examination maneuvers are described. Interrater agreement for the diagnosis of microinstability was substantial (κ 0.606 [0.221-0.991]). CONCLUSION: At our institution, dynamic ultrasound of the hip during physical examination complements information gathered from static imaging by providing real-time correlation of symptoms with what is occurring anatomically.

MRI Visualization of Polyethylene Post Fractures in Posterior Stabilized Total Knee Arthroplasty.

Polyethylene post fracture is a recognized complication of posterior stabilized total knee arthroplasty. Two radiologists retrospectively reviewed MRI examinations of 19 reported post fractures in 18 patients; all fractures were subsequently confirmed surgically with no false-positive cases. All post fractures were visualized as a combination of post deformity and signal-void fragment in a joint recess. A metal artifact reduction 3D multispectral imaging sequence improved fracture visualization versus conventional sequences in 47% of cases.

Utility of Zero Echo Time MRI for the Diagnosis and Characterization of Ankle Fractures.

Background: Zero echo time (ZTE) imaging is a relatively new magnetic resonance (MR) pulse sequence that provides bone-soft tissue contrast similar to that of computed tomography (CT). Purpose: We sought to (1) determine the accuracy of ZTE MRI for the diagnosis of common ankle fractures and (2) investigate whether ZTE imaging sequences are equivalent to the gold standard of CT for the characterization of fracture fragments. Methods: We conducted a prospective case series of 54 patients with acute ankle trauma, in whom ZTE MRI was performed, followed by surgical reduction. Fractures on the ZTE sequence were correlated with the operative report as the reference standard. Raw agreement (%) and correlation (κ) were calculated. Selected fracture fragments were measured in 2 dimensions (anterior-posterior and superior-inferior) on corresponding sagittal ZTE and CT images by 3 independent radiologists to determine reliability. Results: The ZTE sequence demonstrated 47 distal fibular, 17 medial malleolar, 24 posterior malleolar, 5 anterior talofibular ligament avulsion, and 4 distal tibial fractures on the 54 cases. Raw agreement with operative findings was 95% (range: 86%-100%) and correlation almost perfect (0.960 [0.926-0.995]). Fragment characterization was accurate and repeatable. Intraobserver and interobserver agreement was excellent. Conclusions: Our case series suggests that the use of the MRI ZTE sequence may provide images with CT-like contrast for characterizing acute ankle fractures.

Pain After Hip Arthroplasty: MR Imaging/Ultrasound Correlation.

MR imaging and ultrasound (US) have complementary roles for the comprehensive assessment of painful hip arthroplasty. Both modalities demonstrate synovitis, periarticular fluid collections, tendon tears and impingement, and neurovascular impingement, often with features indicating the causative etiology. MR imaging assessment requires technical modifications to reduce metal artifact, such as multispectral imaging, and optimization of image quality, and a high-performance 1.5-T system. US images periarticular structures at high-spatial resolution without interference of metal artifact, permitting real-time dynamic evaluation, and is useful for procedure guidance. Bone complications (periprosthetic fracture, stress reaction, osteolysis, and component loosening) are well depicted on MR imaging.

Partial Flexor Tendon Injury Causing Locking: Illustration of the Utility of Dynamic Ultrasound.

Clinical diagnosis of partial flexor tendon lacerations is challenging because tendon function may be preserved. Although some partial flexor tendon tears can be managed conservatively, pain, stiffness, and triggering/locking may result, requiring surgical management. The mechanism by which this occurs has been investigated in animal and cadaver studies but has not been demonstrated in patients with real-time, in vivo imaging. Here, we present a case of partial tendon tear presenting with severe pain and locking that was diagnosed before surgery and characterized with dynamic ultrasound.