Shear wave elastography (SWE) is an emerging technology that provides information about the inherent elasticity of tissues by producing an acoustic radiofrequency force impulse, sometimes called an “acoustic wind,” which generates transversely-oriented shear waves that propagate through the surrounding tissue and provide biomechanical information about tissue quality. Although SWE has the potential to revolutionize bone and joint imaging, its clinical application has been hindered by technical and artifactual challenges. Many of the stumbling blocks encountered during musculoskeletal SWE imaging are readily recognizable and can be overcome, but progressive advances in technology and a better understanding of image acquisition are required before SWE can reliably be used in musculoskeletal imaging.
Acoustics ; Elasticity ; Elasticity Imaging Techniques* ; Joints ; Muscles ; Musculoskeletal System* ; Tendons ; Ultrasonography

Ultrasonography (US) is an inexpensive, convenient, and effective tool that can be used to evaluate the shoulder. It does not expose the patient to harmful radiation and can be used to evaluate the musculoskeletal system dynamically. Additionally, US is not subject to metal artifacts when evaluating patients with previously placed hardware. Over the years, US has been found to be reliable and accurate for diagnosing rotator cuff tears (RCTs), despite its operator-dependence. The usage of US for diagnosing RCTs in orthopedic practice varies depending on practitioners' familiarity with the exam and the availability of experienced technicians. The purpose of this article is to review the diagnostic accuracy of US for identifying RCTs.
Artifacts ; Diagnostic Imaging ; Humans ; Musculoskeletal System ; Orthopedics ; Recognition (Psychology) ; Rotator Cuff ; Shoulder ; Tears ; Ultrasonography

Diffuse large B cell lymphoma (DLBCL) is the most common histological subtype of Non-Hodgkin's lymphoma. As treatments continues to evolve, so do imaging strategies, and positron emission tomography (PET) has emerged as the most important imaging tool to guide oncologists in the diagnosis, staging, response assessment, relapse/recurrence detection,and therapeutic decision making of DLBCL. Other imaging modalities including magnetic resonance imaging (MRI), computed tomography (CT), ultrasound, and conventional radiography are also used in the evaluation of lymphoma. MRI is useful for nervous system and musculoskeletal system involvement and is emerging as a radiation free alternative to PET/CT. This article provides a comprehensive review of both the functional and morphological imaging modalities, available in the management of DLBCL.
B-Lymphocytes* ; Decision Making ; Diagnosis ; Lymphoma ; Lymphoma, B-Cell* ; Lymphoma, Non-Hodgkin ; Magnetic Resonance Imaging ; Musculoskeletal System ; Nervous System ; Positron-Emission Tomography ; Positron-Emission Tomography and Computed Tomography ; Radiography ; Ultrasonography

Ultrasonography (US) is a very powerful diagnostic modality for the musculoskeletal system due to the ability to perform real-time dynamic high-resolution examinations with the Doppler technique. In addition to acquiring morphologic data, we can now obtain biomechanical information by quantifying the elasticity of the musculoskeletal structures with US elastography. The earlier diagnosis of degeneration and the ability to perform follow-up evaluations of healing and the effects of treatment are possible. US elastography enables a transition from US-based inspection to US-based palpation in order to diagnose the characteristics of tissue. Shear wave elastography is considered the most suitable type of US elastography for the musculoskeletal system. It is widely used for tendons, ligaments, and muscles. It is important to understand practice guidelines in order to enhance reproducibility. Incorporating viscoelasticity and overcoming inconsistencies among manufacturers are future tasks for improving the capabilities of US elastography.
Diagnosis ; Elasticity ; Elasticity Imaging Techniques* ; Follow-Up Studies ; Ligaments ; Muscles ; Musculoskeletal System ; Palpation ; Tendinopathy ; Tendons ; Ultrasonography

The musculoskeletal system is mainly composed of the bones, muscles, tendons, and ligaments, in addition to nerves and blood vessels. The greatest difficulty in an ultrasonographic freeze-frame created by the examiner is recognition of the targeted structures without indicators, since an elephant's trunk may not be easily distinguished from its leg. It is not difficult to find descriptive ultrasonographic terms used for educational purposes, which help in distinguishing features of these structures either in a normal or abnormal anatomic condition. However, the terms sometimes create confusion when describing common objects, for example, in Western countries, pears have a triangular shape, but in Asia they are round. Skilled experts in musculoskeletal ultrasound have tried to express certain distinguishing features of anatomic landmarks using terms taken from everyday objects which may be reminiscent of that particular feature. This pictorial review introduces known signature patterns of distinguishing features in musculoskeletal ultrasound in a normal or abnormal condition, and may stir the beginners' interest to play a treasure-hunt game among unfamiliar images within a boundless ocean.
Anatomic Landmarks ; Anisotropy ; Asia ; Blood Vessels ; Education ; Leg ; Ligaments ; Muscles ; Musculoskeletal System ; Peripheral Nerves ; Pyrus ; Tendons ; Ultrasonography* ; Ultrasonography, Interventional

The musculoskeletal system is mainly composed of the bones, muscles, tendons, and ligaments, in addition to nerves and blood vessels. The greatest difficulty in an ultrasonographic freeze-frame created by the examiner is recognition of the targeted structures without indicators, since an elephant's trunk may not be easily distinguished from its leg. It is not difficult to find descriptive ultrasonographic terms used for educational purposes, which help in distinguishing features of these structures either in a normal or abnormal anatomic condition. However, the terms sometimes create confusion when describing common objects, for example, in Western countries, pears have a triangular shape, but in Asia they are round. Skilled experts in musculoskeletal ultrasound have tried to express certain distinguishing features of anatomic landmarks using terms taken from everyday objects which may be reminiscent of that particular feature. This pictorial review introduces known signature patterns of distinguishing features in musculoskeletal ultrasound in a normal or abnormal condition, and may stir the beginners' interest to play a treasure-hunt game among unfamiliar images within a boundless ocean.
Anatomic Landmarks ; Anisotropy ; Asia ; Blood Vessels ; Education ; Leg ; Ligaments ; Muscles ; Musculoskeletal System ; Peripheral Nerves ; Pyrus ; Tendons ; Ultrasonography* ; Ultrasonography, Interventional

Ultrasound elastography is a widely used technique for assessing the mechanical characteristics of tissues. Although there are several ultrasound elastography techniques, strain elastography (SE) is currently the most widely used technique for visualizing an elastographic map in real time. Among its various indications, SE is especially useful in evaluating the musculoskeletal system. In this article, we review the SE techniques for clinical practice and describe the images produced by these techniques in the context of the musculoskeletal system. SE provides information about tissue stiffness and allows real-time visualization of the image; however, SE cannot completely replace gray-scale, color, or power Doppler ultrasonography. SE can increase diagnostic accuracy and may be useful for the follow-up of benign lesions.
Elasticity Imaging Techniques* ; Follow-Up Studies ; Musculoskeletal System* ; Soft Tissue Neoplasms ; Ultrasonography ; Ultrasonography, Doppler

Ultrasonography of the postoperative musculoskeletal system plays an important role in the Epub ahead of print accurate diagnosis of abnormal lesions in the bone and soft tissues. Ultrasonography is a fast and reliable method with no harmful irradiation for the evaluation of postoperative musculoskeletal complications. In particular, it is not affected by the excessive metal artifacts that appear on computed tomography or magnetic resonance imaging. Another benefit of ultrasonography is its capability to dynamically assess the pathologic movement in joints, muscles, or tendons. This article discusses the frequent applications of musculoskeletal ultrasonography in various postoperative situations including those involving the soft tissues around the metal hardware, arthroplasty, postoperative tendons, recurrent soft tissue tumors, bone unions, and amputation surgery.
Amputation ; Arthroplasty ; Artifacts ; Diagnosis ; Joints ; Magnetic Resonance Imaging ; Muscles ; Musculoskeletal System* ; Postoperative Care ; Soft Tissue Infections ; Soft Tissue Injuries ; Tendons ; Ultrasonography*

The use of musculoskeletal ultrasound in rheumatology clinical practice has rapidly increased over the past decade. Ultrasound has enabled rheumatologists to diagnose, prognosticate and monitor disease outcome. Although international standardization remains a concern still, the use of ultrasound in rheumatology is expected to grow further as costs fall and the opportunity to train in the technique improves. We present a review of value of ultrasound, focusing on major applications of ultrasound in rheumatologic diseases.
Humans ; Magnetic Resonance Imaging ; Musculoskeletal System/ultrasonography ; Osteoarthritis/ultrasonography ; Rheumatic Diseases/*ultrasonography ; Sjogren's Syndrome/ultrasonography ; Spondylarthropathies/ultrasonography ; Synovitis/ultrasonography ; Tendinopathy/ultrasonography ; Vasculitis/ultrasonography

In order to accurately diagnose lesions of musculoskeletal tissue, evaluation not only of the abnormality of the bone, but the condition of soft tissue is important. Magnetic resonance imaging has been widely used in evaluation of the state of soft tissue, however, it has the disadvantage that testing is expensive and real-time scanning is not possible. In recent years, ultrasonography has been used for evaluation of musculoskeletal tissue and its usefulness has shown a gradual increase. The ultrasound image is determined by the tissue specific acoustic impedance and other factors. Highly reflective tissues such as bone, calcification, ligament, and tendon are expressed as hyperechoic images, and less reflective tissues such as muscle and nerve are expressed as hypoechoic images.
Acoustics ; Electric Impedance ; Ligaments ; Magnetic Resonance Imaging ; Muscles ; Musculoskeletal System ; Tendons ; Ultrasonography