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Update on diagnosis and treatment of hyperthyroidism: ultrasonography and functional imaging.
Schenke, SA, Görges, R, Seifert, P, Zimny, M, Kreissl, MC
The quarterly journal of nuclear medicine and molecular imaging : official publication of the Italian Association of Nuclear Medicine (AIMN) [and] the International Association of Radiopharmacology (IAR), [and] Section of the Society of.... 2021;(2):102-112
Abstract
Ultrasonography and radionuclide imaging using [99mTc]Pertechnetate or radioactive iodine isotopes are essential tools used during the diagnostic workup of hyperthyroidism with or without structural alterations of the thyroid. Color duplex sonography and ultrasound elastography may add important information to find the cause of the hormone excess. During the last few years, hybrid imaging using SPECT/-(CT) or PET-based methods, such as [124]Iodine-PET/CT or [124]Iodine-PET/ultrasound have been increasingly used, playing a role in the context of localizing ectopic thyroid tissue or in multinodular goiter. Recently, promising data has been published on the use of [99mTc]MIBI imaging in amiodarone induced hyperthyroidism.
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A Review of the Role of the S-Detect Computer-Aided Diagnostic Ultrasound System in the Evaluation of Benign and Malignant Breast and Thyroid Masses.
Zhang, D, Jiang, F, Yin, R, Wu, GG, Wei, Q, Cui, XW, Zeng, SE, Ni, XJ, Dietrich, CF
Medical science monitor : international medical journal of experimental and clinical research. 2021;:e931957
Abstract
Computer-aided diagnosis (CAD) systems have attracted extensive attention owing to their performance in the field of image diagnosis and are rapidly becoming a promising auxiliary tool in medical imaging tasks. These systems can quantitatively evaluate complex medical imaging features and achieve efficient and high-diagnostic accuracy. Deep learning is a representation learning method. As a major branch of artificial intelligence technology, it can directly process original image data by simulating the structure of the human brain neural network, thus independently completing the task of image recognition. S-Detect is a novel and interactive CAD system based on a deep learning algorithm, which has been integrated into ultrasound equipment and can help radiologists identify benign and malignant nodules, reduce physician workload, and optimize the ultrasound clinical workflow. S-Detect is becoming one of the most commonly used CAD systems for ultrasound evaluation of breast and thyroid nodules. In this review, we describe the S-Detect workflow and outline its application in breast and thyroid nodule detection. Finally, we discuss the difficulties and challenges faced by S-Detect as a precision medical tool in clinical practice and its prospects.
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The Validity of Ultrasound Technology in Providing an Indirect Estimate of Muscle Glycogen Concentrations Is Equivocal.
Bone, JL, Ross, ML, Tomcik, KA, Jeacocke, NA, McKay, AKA, Burke, LM
Nutrients. 2021;(7)
Abstract
Researchers and practitioners in sports nutrition would greatly benefit from a rapid, portable, and non-invasive technique to measure muscle glycogen, both in the laboratory and field. This explains the interest in MuscleSound®, the first commercial system to use high-frequency ultrasound technology and image analysis from patented cloud-based software to estimate muscle glycogen content from the echogenicity of the ultrasound image. This technique is based largely on muscle water content, which is presumed to act as a proxy for glycogen. Despite the promise of early validation studies, newer studies from independent groups reported discrepant results, with MuscleSound® scores failing to correlate with the glycogen content of biopsy-derived mixed muscle samples or to show the expected changes in muscle glycogen associated with various diet and exercise strategies. The explanation of issues related to the site of assessment do not account for these discrepancies, and there are substantial problems with the premise that the ratio of glycogen to water in the muscle is constant. Although further studies investigating this technique are warranted, current evidence that MuscleSound® technology can provide valid and actionable information around muscle glycogen stores is at best equivocal.
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Ultrasound to guide the individual medical decision by evaluating the gastric contents and risk of aspiration: A literature review.
Zhang, G, Huang, X, Shui, Y, Luo, C, Zhang, L
Asian journal of surgery. 2020;(12):1142-1148
Abstract
Pulmonary aspiration of gastric contents is one of the most terrible complications following general anesthesia. It is important for patients to prevent this complication by obeying the preoperative fasting protocol strictly. At present, it has been reported by many studies that bedside ultrasound, as a non-invasive and convenient method, could be used to evaluate gastric contents qualitatively and quantitatively. With the advantages of reliability, accuracy and repeatability, it can greatly reduce the risk of aspiration and ensure patients' life security. But most of the data were acquired from the healthy volunteers. For the gastrointestinal disorder, the pregnant women, obesity, children, the elderly and diabetes patients, the accuracy and reliability of ultrasound to predict the risk of aspiration remains to be identified by more further studies. For these patients with increasing risk of aspiration, I-AIM (Indication, Acquisition, Interpretation, Medical decision-making) framework plays an important role in ensuring the safety of patients. It is crucial to make appropriate clinical decisions by evaluating the gastric contents with ultrasound.
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Does lymph node morphology using ultrasound reflect aetiology? A pictorial essay, part I.
Trenker, C, Görg, C, Hollerweger, A, Jenssen, C, Dong, Y, Cui, XW, Dietrich, CF
Medical ultrasonography. 2020;(3):2634
Abstract
The evaluation of lymph nodes (LNs) using ultrasound requires a high level of clinical and sonographic competence. This "pictorial essay" is intended to illustrate eye-catching examples of relevant "clinical-sonographic visual diagnoses" of LNs. We provide typical images and take-home messages of eye-catching features to illustrate the featured publications.The first part includes "important differential diagnoses of eye-catching features of suspected lymphadenopathy" and "benign lymphadenopathy". The second part will include "Eye-catching features of malignant lymphadenopathy, both carcinoma and lymphoma".
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Magnetomotive Ultrasound Imaging Systems: Basic Principles and First Applications.
Sjöstrand, S, Evertsson, M, Jansson, T
Ultrasound in medicine & biology. 2020;(10):2636-2650
Abstract
This review discusses magnetomotive ultrasound, which is an emerging technique that uses superparamagnetic iron oxide nanoparticles as a contrast agent. The key advantage of using nanoparticle-based contrast agents is their ability to reach extravascular targets, whereas commercial contrast agents for ultrasound comprise microbubbles confined to the blood stream. This also extends possibilities for molecular imaging, where the contrast agent is labeled with specific targeting molecules (e.g., antibodies) so that pathologic tissue may be visualized directly. The principle of action is that an external time-varying magnetic field acts to displace the nanoparticles lodged in tissue and thereby their immediate surrounding. This movement is then detected with ultrasound using frequency- or time-domain analysis of echo data. As a contrast agent already approved for magnetic resonance imaging (MRI) by the US Food and Drug Administration, there is a shorter path to clinical translation, although safety studies of magnetomotion are necessary, especially if particle design is altered to affect biodistribution or signal strength. The external modulated magnetic field may be generated by electromagnets, permanent magnets, or a combination of the two. The induced nanoparticle motion may also reveal mechanical material properties of tissue, healthy or diseased, one of several interesting potential future aspects of the technique.
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The role of multiparametric ultrasound in the diagnosis of paediatric scrotal pathology.
Huang, DY, Pesapane, F, Rafailidis, V, Deganello, A, Sellars, ME, Sidhu, PS
The British journal of radiology. 2020;(1110):20200063
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Abstract
Multiparametric ultrasound (MPUS), combining conventional techniques (greyscale and colour Doppler ultrasound), ultrasound strain elastography, and contrast-enhanced ultrasound (CEUS), has been successfully used in the assessment of adult scrotal pathology. Contrast-enhanced ultrasound can confidently establish testicular tissue vascularity even in the small-volume paediatric testis. Elastography provides further assessment of tissue stiffness, potentially adding useful diagnostic information. In children, ultrasonography is particularly advantageous, being safe, radiation-free and negating the need for sedation or general anaesthesia during the imaging evaluation. In this review article, we aim to familiarise readers with the MPUS scanning protocol used for paediatric scrotal examination and provide an overview of scrotal MPUS features, with particular focus to clinical indications where MPUS may be advantageous over conventional ultrasonography.
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Use of bedside ultrasound to assess fluid status: a literature review.
Piotrkowski, J, Buda, N, Januszko-Giergielewicz, B, Kosiak, W
Polish archives of internal medicine. 2019;(10):692-699
Abstract
The assessment of a patient's body fluid status is a challenging task for modern clinicians. Ultrasonography has numerous advantages, the most important being reproducibility and bedside monitoring of the patient. The examination is quick and has a significant diagnostic value. We reviewed the literature to assess the possibility of using ultrasound methods for evaluating body fluid status. The search of PubMed and Medline databases was performed up to February 2019. Data from published reports and clinical observations show that the quick and noninvasive ultrasound examination facilitates the assessment of intravascular volume status and that the results correlate with other modalities, including invasive methods. Ultrasound enables physicians to determine the baseline status of hydration and to monitor the patient during fluid therapy. Additionally, it allows an assessment of asymptomatic patients, patients who are well adapted to chronic oxygen deficiency, and those who develop pulmonary congestion secondary to congestive heart failure or chronic kidney disease. The development of a protocol for an ultrasound assessment of the volume status would significantly facilitate the everyday practice of internal medicine specialists.
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Diagnostic advances in synovial fluid analysis and radiographic identification for crystalline arthritis.
Zell, M, Zhang, D, FitzGerald, J
Current opinion in rheumatology. 2019;(2):134-143
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Abstract
PURPOSE OF REVIEW The present review addresses diagnostic methods for crystalline arthritis including synovial fluid analysis, ultrasound, and dual energy CT scan (DECT). RECENT FINDINGS There are new technologies on the horizon to improve the ease, sensitivity, and specificity of synovial fluid analysis. Raman spectroscopy uses the spectral signature that results from a material's unique energy absorption and scatter for crystal identification. Lens-free microscopy directly images synovial fluid aspirate on to a complementary metal-oxide semiconductor chip, providing a high-resolution, wide field of view (∼20 mm) image. Raman spectroscopy and lens-free microscopy may provide additional benefit over compensated polarized light microscopy synovial fluid analysis by quantifying crystal density in synovial fluid samples. Ultrasound and DECT have good sensitivity and specificity for the identification of monosodium urate (MSU) and calcium pyrophosphate (CPP) crystals. However, both have limitations in patients with recent onset gout and low urate burdens. SUMMARY New technologies promise improved methods for detection of MSU and CPP crystals. At this time, limitations of these technologies do not replace the need for synovial fluid aspiration for confirmation of crystal detection. None of these technologies address the often concomitant indication to rule out infectious arthritis.
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Update on imaging in rheumatic diseases: cartilage.
Sewerin, P, Schleich, C, Vordenbäumen, S, Ostendorf, B
Clinical and experimental rheumatology. 2018;(5):139-144
Abstract
In recent years, the role of articular cartilage for understanding pathogenesis as well as for clinical research has become increasingly important. Whereas previously cartilage could only be assessed invasively, various imaging procedures are available for its evaluation now. Although still widely used, conventional radiography bears significant limitations since it assesses cartilage indirectly by joint space width. Today, the cartilage thickness and structure can be reliably evaluated using ultrasound, although the molecular structure cannot be determined, yet. Besides ultrasound, MRI offers the possibility to image morphological changes with a very high resolution. In addition, the quality and composition of joint cartilage can already be measured due to a constant technical improvement and new MRI sequences such as dGEMRIC even in small joints (e.g. MCP or MTP joints). Despite the advantages of contrast agents for the detection of inflammation, its use is reevaluated today. Regarding that contrast agent-free imaging techniques for the assessment of joint cartilage are developed with great effort to depict its quality and changes over time. These novel MRI methods such as T2/T2*- and T1ρ-mapping, gagCEST, and sodium imaging provide promising quantitative imaging biomarkers that can detect early cartilage changes before morphological alterations occur. Hence, US and MRI will likely be of paramount importance in future clinical trials and clinical assessment of inflammatory and degenerative joint diseases not only for understanding pathogenesis but also for using its possible value in daily practice.