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1.
Lung Ultrasound for Critically Ill Patients.
Mojoli, F, Bouhemad, B, Mongodi, S, Lichtenstein, D
American journal of respiratory and critical care medicine. 2019;(6):701-714
Abstract
Point-of-care ultrasound is increasingly used at the bedside to integrate the clinical assessment of the critically ill; in particular, lung ultrasound has greatly developed in the last decade. This review describes basic lung ultrasound signs and focuses on their applications in critical care. Lung semiotics are composed of artifacts (derived by air/tissue interface) and real images (i.e., effusions and consolidations), both providing significant information to identify the main acute respiratory disorders. Lung ultrasound signs, either alone or combined with other point-of-care ultrasound techniques, are helpful in the diagnostic approach to patients with acute respiratory failure, circulatory shock, or cardiac arrest. Moreover, a semiquantification of lung aeration can be performed at the bedside and used in mechanically ventilated patients to guide positive end-expiratory pressure setting, assess the efficacy of treatments, monitor the evolution of the respiratory disorder, and help the weaning process. Finally, lung ultrasound can be used for early detection and management of respiratory complications under mechanical ventilation, such as pneumothorax, ventilator-associated pneumonia, atelectasis, and pleural effusions. Lung ultrasound is a useful diagnostic and monitoring tool that might in the near future become part of the basic knowledge of physicians caring for the critically ill patient.
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2.
Point-of-Care Ultrasound for the Pediatric Hospitalist's Practice.
Hopkins, A, Doniger, SJ
Hospital pediatrics. 2019;(9):707-718
Abstract
Point-of-care ultrasound (POCUS) has the potential to provide real-time valuable information that could alter diagnosis, treatment, and management practices in pediatric hospital medicine. We review the existing pediatric POCUS literature to identify potential clinical applications within the scope of pediatric hospital medicine. Diagnostic point-of-care applications most relevant to the pediatric hospitalist include lung ultrasound for pneumothorax, pleural effusion, pneumonia, and bronchiolitis; cardiac ultrasound for global cardiac function and hydration status; renal or bladder ultrasound for nephrolithiasis, hydronephrosis, and bladder volumes; soft tissue ultrasound for differentiating cellulitis from abscess; and procedural-guidance applications, including line placement, lumbar puncture, and abscess incision and drainage. We discuss POCUS applications with reviews of major pathologic findings, research gaps, the integration of POCUS into practice, and barriers to implementation.
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3.
Ultrasound in the assessment of pelvic organ prolapse.
Dietz, HP
Best practice & research. Clinical obstetrics & gynaecology. 2019;:12-30
Abstract
Imaging is increasingly being used in urogynaecology. Because of low cost and universal availability, ultrasound (US) is the most commonly used diagnostic modality, which allows the observation of manoeuvres such as Valsalva and pelvic floor muscle contraction in real time. The ability to see beyond surface anatomy is particularly important in the posterior compartment and in obstructed defecation where this method may replace defecation proctography. Imaging is especially useful in the form of 3D/4D multiplanar and tomographic translabial US, as these modalities give access to the axial plane and the levator ani. This allows assessment of both avulsion, i.e. major maternal birth trauma, and hiatal overdistension, i.e. ballooning. Both are major risk factors for both prolapse and prolapse recurrence. This review will outline current clinical utility, introduce recent research in the respective field and provide an overview of likely future utility of imaging in the investigation of pelvic organ prolapse.
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4.
Current technologies in body composition assessment: advantages and disadvantages.
Ceniccola, GD, Castro, MG, Piovacari, SMF, Horie, LM, Corrêa, FG, Barrere, APN, Toledo, DO
Nutrition (Burbank, Los Angeles County, Calif.). 2019;:25-31
Abstract
The interest in non-invasive methods of body composition assessment is on the rise in health care, especially because of its association with clinical outcomes. Technology has revolutionized our understanding of body composition abnormalities, clinical prognostication, and disease follow-up, but translation to bedside is limited, especially in terms of cost effectiveness. Computed tomography gained increased attention in cancer and sarcopenia studies, for instance. Other methods also have interesting features and applications, including bedside ultrasonography, bioelectrical impedance analysis, and dual x-ray absorptiometry. Compelling evidence indicates these methods can be used to accurately and precisely measure skeletal muscle mass, adipose tissue, and edema; diagnose malnutrition-related diseases; and aid in determining prognoses. To apply this technology properly, it is important to understand the advantages and disadvantages of each technique in specific situations of interest. This review introduces concepts and reference studies published in the scientific literature about these techniques and describes important limitations and considerations necessary to incorporate these methods into clinical practice.
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5.
Superior mesenteric artery syndrome: a radiographic review.
Warncke, ES, Gursahaney, DL, Mascolo, M, Dee, E
Abdominal radiology (New York). 2019;(9):3188-3194
Abstract
PURPOSE To provide a review of the etiology, clinical presentation, and imaging findings of superior mesenteric artery (SMA) syndrome. METHODS A literature review of 24 relevant articles regarding SMA syndrome was performed. RESULTS Clinicians and radiologists with a high index of suspicion based on symptomatology may pursue radiologic investigation in the form of upper gastrointestinal (GI) series and contrast-enhanced abdominal computed tomography (CT). Magnetic resonance imaging (MRI) and ultrasound (US) are less commonly utilized modalities in the work-up of SMA syndrome, but provide imaging alternatives without the use of ionizing radiation. Imaging can assist in diagnosis by demonstrating characteristic findings of reduced aortomesenteric angle, reduced aortomesenteric distance, gastroduodenal distention, bowel caliber narrowing at the takeoff of the superior mesenteric artery from the aorta, as well as delayed gastric emptying or positional obstruction observed with real time with fluoroscopy. CONCLUSION SMA syndrome is a rare disease that can go unrecognized and undiagnosed, exacerbating weight loss in an already significantly malnourished patient population. The diagnosis of SMA syndrome must be based on clinical symptomatology correlated with radiographic information. Once diagnosed, SMA syndrome can be safely treated by conservative measures although occasionally requires invasive intervention in the form of enteral tube placement, percutaneous jejunostomy tube placement, total parenteral nutrition, ligament of Treitz lysis, or duodenojejunostomy.
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6.
Ultrasound Appearance of the Migration of Tendon Calcifications.
Bianchi, S, Becciolini, M
Journal of ultrasound in medicine : official journal of the American Institute of Ultrasound in Medicine. 2019;(9):2493-2506
Abstract
Calcific tendinopathy (CTe) is a frequent disorder related to the deposition of calcium hydroxyapatite crystals within tendons. Ultrasound has been shown to be an excellent imaging modality for the evaluation of CTe. During the resorptive phase of CTe, calcium deposits may migrate inside the tendons or in neighboring tissues and lead to local inflammation and severe pain. In this pictorial essay, we describe the ultrasound appearance of a spectrum of CTe migrations. Knowledge of the different migration patterns can help sonologists in their detection and in establishing the correct diagnosis.
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7.
Ultrasound Imaging of Hepatocellular Adenoma Using the New Histology Classification.
Dietrich, CF, Tannapfel, A, Jang, HJ, Kim, TK, Burns, PN, Dong, Y
Ultrasound in medicine & biology. 2019;(1):1-10
Abstract
Hepatocellular adenoma is a rare benign liver tumor. Predisposing factors include hepatic storage diseases and some genetic conditions. A new histology-based classification has been proposed but to date, the corresponding ultrasound imaging features have not been reported. Here we review the new classification scheme and discuss the corresponding features on contrast-enhanced ultrasound imaging.
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8.
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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9.
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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10.
CEUS LI-RADS: algorithm, implementation, and key differences from CT/MRI.
Wilson, SR, Lyshchik, A, Piscaglia, F, Cosgrove, D, Jang, HJ, Sirlin, C, Dietrich, CF, Kim, TK, Willmann, JK, Kono, Y
Abdominal radiology (New York). 2018;(1):127-142
Abstract
Contrast-enhanced ultrasound (CEUS) is a specialized form of ultrasound (US) performed with an intravenous injection of microbubble contrast agents. It has been successfully used for a variety of applications including characterization of liver tumors. In April 2014, the American College of Radiology (ACR) convened a working group of international experts to develop ACR CEUS Liver Imaging Reporting and Data System (CEUS LI-RADS). An initial version of CEUS LI-RADS was published in August 2016. Although the CEUS LI-RADS concept and principles for liver lesion characterization, using dynamic contrast enhancement features, are similar to those for CT or MRI, there are significant differences between CT/MRI and CEUS LI-RADS. Therefore, CEUS LI-RADS has different diagnostic features and a unique characterization algorithm. The size of a lesion, the type and degree of arterial phase enhancement, the presence of washout, and the timing and degree of washout are the major features used for categorization. This paper describes key differences between CT/MRI and CEUS, and provides a diagnostic algorithm of CEUS LI-RADS with detailed, step-by-step instructions and imaging examples of CEUS LI-RADS categories.