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1.
Effectiveness of Lymphatic Contrast Enhanced Ultrasound in the diagnosis of Cervical Lymph node metastasis from papillary thyroid carcinoma.
Wei, Y, Niu, Y, Zhao, ZL, Cao, XJ, Peng, LL, Li, Y, Yu, MA
Scientific reports. 2022;(1):578
Abstract
Cervical lymph node metastasis (CLNM) is common in patients with papillary thyroid carcinoma (PTC), which is responsible for tumor staging and surgical strategy. The accurate preoperative identification of CLNM is essential. In this study, twenty consecutive patients with PTC received a parenchyma injection of Sonazoid followed by contrast enhanced ultrasound (CEUS) to identify CLNM. The specific lymphatic CEUS (LCEUS) signs for diagnosing CLNM were summarized, which were further compared with the resected specimens to get the pathological basis. After the injection of contrast agent, lymphatic vessel and lymph node (LN) could be exclusively displayed as hyperperfusion on LCEUS. The dynamic perfusion process of contrast agent in CLNM over time can be clearly visualized. Perfusion defect and interruption of bright ring were the two characteristic LCEUS signs in diagnosing CLNM. After comparing with pathology, perfusion defect was correlated to the metastatic foci in medulla and interruption of bright ring was correlated to the tumor seeding in marginal sinus (all p values < 0.001). The diagnostic efficacies of these two signs were high (perfusion defect vs. interruption of bright ring: AUC, 0.899, 95% CI 0.752-1.000 vs. 0.904, 0.803-1.000). LCEUS has advantages in identifying CLNM from PTC. The typical LCEUS signs of CLNM correlated with pathology.
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2.
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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3.
Utility of Fluorine-18 Fluorodeoxyglucose Positron Emission Tomography/Computed Tomography in Patients with Visceral Leishmaniasis: Case Report and Literature Review.
Pinnegar, HP, Sánchez-Montalvá, A, Barios Profitos, M, Bosch-Nicolau, P, Salvador, F, Molina, I
The American journal of tropical medicine and hygiene. 2021;(3):934-944
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Abstract
The diagnosis of visceral leishmaniasis (VL) is complicated and often unsuspected. Little is known of the usefulness of nuclear imaging in VL. Our objective was to describe findings seen in fluorodeoxyglucose positron emission tomography/computed tomography (FDG-PET/CT) in cases of VL. We retrospectively reviewed VL cases diagnosed at Vall d'Hebron University Hospital from May 2012 to May 2018 and selected those that had an FDG-PET/CT performed. Information on procedures and details of the FDG-PET/CT features and follow-up were collected. We then systematically reviewed the literature on VL and FDG-PET/CT. Four of 43 patients diagnosed with VL had an FDG-PET/CT performed. All four patients presented diffuse splenic uptake of FDG-PET/CT. Adenopathy was not always present, and bone marrow uptake was found in two patients. A posttreatment FDG-PET/CT in one patient revealed normalization of initial findings. In the literature review, 43 of 50 cases presented similar splenic uptake in the PET/CT, being described as different patterns: "increased metabolism," "homogeneous," "diffuse," "diffuse and multifocal," "nodular," "patchy and granular," "subcortical," and "compatible with lymphoma." Other frequent findings were bone marrow uptake and adenopathies. We, therefore, conclude that FDG-PET/CT could become a useful tool for the diagnosis and follow-up of VL and that VL should be taken into account in patients with fever of unknown origin with enhanced splenic uptake in FDG-PET/CT. Differential diagnosis in these cases should be made with splenic primary lymphoma, virus infections, chemotherapy, and colony-stimulating factor therapy. Further structured studies with more cases are needed to define its diagnostic and prognostic value.
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Novel High-Quality Sonographic Methods to Diagnose Muscle Wasting in Long-Stay Critically Ill Patients: Shear Wave Elastography, Superb Microvascular Imaging and Contrast-Enhanced Ultrasound.
Hernández-Socorro, CR, Saavedra, P, López-Fernández, JC, Lübbe-Vazquez, F, Ruiz-Santana, S
Nutrients. 2021;(7)
Abstract
Novel ultrasound (US) methods are required to assess qualitative changes in the quadriceps rectus femoris (QRF) muscle when evaluating mechanically ventilated, long-stay ICU patients with suspected neuromuscular acquired weakness (ICUAW). Our aim was to analyze novel US muscle assessment methods in these patients versus healthy controls by carrying out a prospective observational study. Shear wave elastography (SWE) showed, with a receiver operating characteristic (ROC) curve of 0.972 (95% confidence interval (CI) = 0.916-1.000), that patients increased muscle stiffness associated with muscle fibrosis when diagnosed with ICUAW. We also performed, for the first time, superb microvascular imaging (SMI), which is an innovative US technique designed for imaging microvascularization unseen with color Doppler US, and observed that 53.8% of cases had significantly lower QRF muscle microvascular angiogenic activity than controls (p < 0.001). Finally, we used contrast-enhanced ultrasound (CEUS) to analyze maximum and minimum QRF muscle perfusion and obtained a ROC curve of 0.8, but when used as markers for SMI, their diagnostic capacity increased to 0.988 (CI = 0.965-1) and 0.932 (CI = 0.858-1), respectively. These findings show, for the first time, that these novel sonographic muscle methods should be used for their diagnostic capacity when assessing sarcopenic processes associated with this group of critically ill patients.
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The use of 3D ultrasound in comparing surgical techniques for posterior wall prolapse repair: a pilot randomised controlled trial.
Derpapas, A, Vijaya, G, Nikolopoulos, K, Nikolopoulos, M, Robinson, D, Fernando, R, Khullar, V
Journal of obstetrics and gynaecology : the journal of the Institute of Obstetrics and Gynaecology. 2021;(4):594-600
Abstract
The most appropriate method for repairing posterior vaginal wall prolapse is still debatable. Women with symptomatic prolapse scheduled to undergo surgical repair in the posterior compartment were randomised to standard posterior colporrhaphy (SPC) or fascial and vaginal epithelial plication (FEP). Participants were assessed with the Prolapse Quality of Life (P-QOL) questionnaire, pelvic organ prolapse quantification (POP-Q) examination and three-dimensional ultrasound (3D US) prior to surgery and 6 months postoperatively. The research hypothesis is that 3D US of the pelvic floor is a reliable tool in comparing the anatomical outcomes of the two different surgical techniques. Differences in anatomical outcomes, assessed clinically and by ultrasonographic evaluation, were compared between the two groups using the Independent Mann-Whitney U-test and the Wilcoxon signed-rank sum test. Twenty-two women were included in the analysis. Six months postoperatively, women in the FEP arm had better anatomical outcomes compared to those who had undergone SPC (p = .02). Repeatability of the ultrasound technique was confirmed, showing moderate to very good agreement in all parameters and the 3D US evaluation was corroborated with the clinical examination, showing a greater reduction in the urogenital size in the FEP group.Impact statementWhat is already known on this subject? The low cost and universal availability of the ultrasound (US) makes it the most commonly used diagnostic modality. The ability to see beyond surface anatomy is important and useful in the assessment of the posterior vaginal wall prolapse and the obstructed defaecation, where this method may replace the defaecation proctography (Dietz 2019). Recent advances in pelvic floor ultrasonography (3D US) have achieved repeatability in the measurement of the levator hiatal (LH) dimensions, introducing a valid and readily available tool for researchers and clinicians (Dietz et al. 2005). Ultrasound may distinguish a true rectocele due to the weakening of the rectovaginal fascia from an enterocele, a rectal intussusception, or just a deficient perineum (Guzman Rojas et al. 2016).What do the results of this study add? Our study demonstrates that 3D translabial pelvic floor ultrasound is a useful and reliable tool in assessing the anatomical outcome of prolapse surgery.What are the implications of these findings for clinical practice and/or further research? Our study demonstrates that 3D translabial ultrasound of the pelvic floor is a useful and reproducible method in evaluating the anatomical outcomes of surgical repair for posterior wall prolapse. Genital hiatus (GH) and levator hiatus (LH) dimensions measured by ultrasound can be used as surrogate anatomical markers in comparing the efficacy of different surgical techniques.
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[Potential of ultrasound in allogeneic stem cell transplantation and transplant-related complications].
Trenker, C, Dietrich, CF, Klein, S, Safai Zadeh, E, Sohlbach, K, Neubauer, A, Burchert, A, Görg, C
Zeitschrift fur Gastroenterologie. 2021;(4):336-344
Abstract
Allogeneic hematopoietic stem cell transplantation (HCT) is a complex therapeutic procedure causing significant morbidity and mortality, including the gastrointestinal tract. Early diagnosis and treatment of HCT-associated complications are, therefore, of utmost importance to improve overall HCT outcome. Sonography can be a powerful diagnostic tool and is easily accessible at the bedside of HCT patients. In the hands of a sonography-experienced physician, it allows for instant diagnosis and can also rule out several important transplant-associated complications. Here we review available evidence on the diagnostic and clinical value of ultrasound prior, during and after HCT.
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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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Role of conventional ultrasonography in the diagnosis of gallbladder polypoid lesions.
Okaniwa, S
Journal of medical ultrasonics (2001). 2021;(2):149-157
Abstract
The major role of conventional ultrasonography (US) can be divided into three processes: cancer screening, differential diagnosis, and assessment of the depth of tumor invasion. As US is a simple and minimally invasive modality, it is widely used for cancer screening and health checkups. Both gallbladder (GB) polyps and thickened wall of the GB are common US findings. On the contrary, US is prone to interference from gas echoes, and its diagnostic accuracy depends on both the US technology and the ability of sonographers. It is also important to be well acquainted with characteristic artifacts and how to manage their influence. Furthermore, magnified images acquired using high-resolution US (HRUS) are strongly helpful to pick up small lesions. As for differential diagnosis, classification of GB polypoid lesions (GPLs) into pedunculated or sessile (broad-based) types is very important. Cholesterol polyps in pedunculated lesions and localized adenomyomatosis (ADM) in sessile lesions are the most important targets to be differentiated. Furthermore, significant findings including number, size, growth rate, shape, internal echo, surface contour, and internal structure should be evaluated and judged as a whole. Usually, US delineates the GB wall as a two- or three-layer structure. However, as the inner hypoechoic layer includes not only the mucosa and muscularis propria but also the fibrous layer of subserosa, the differentiation between T1 (confined to the mucosa or muscularis propria) and T2 (invading the subserosa) based on the layer structure is difficult. Shape, size, and internal echo structure may be helpful for further assessment.
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Sarcopenia in critically ill children: A bedside assessment using point-of-care ultrasound and anthropometry.
de Figueiredo, RS, Nogueira, RJN, Springer, AMM, Melro, EC, Campos, NB, Batalha, RE, Brandão, MB, de Souza, TH
Clinical nutrition (Edinburgh, Scotland). 2021;(8):4871-4877
Abstract
BACKGROUND & AIMS Due to the lack of validated methods of muscle assessment, sarcopenia is not well described in critically ill children. The main objectives of this study were to assess muscle wasting using point-of-care ultrasound (POCUS) and anthropometry, as well as its association with nutrition delivery in PICU. METHODS This was a single-center, prospective cohort study, including consecutive children admitted to the PICU. Quadriceps femoris muscle thickness (QFMT) and anthropometrics measurements were performed at admission and then weekly until the 14th day of the PICU stay. The three moments of assessment were defined as T0 (baseline), T1 (7th day) and T2 (14th day). For analysis purposes, participants assessed only in T0 and T1 were defined as Subgroup 1, while those assessed in T0, T1 and T2 were defined as Subgroup 2. Actual total daily intake was determined by patient intake records until discharge or during the first 14 full days of PICU admission. RESULTS In all, 119 patients were included with a median age of 12.0 months (IQR 4.0-42.5). In Subgroup 1, QFMT significantly decreased between T0 and T1 (-12.93 ± 14.07 %; p < 0.001), and the same was observed in Subgroup 2 (-13.81 ± 13.05 %; p < 0.001). However, no differences in QFMT was observed between T1 and T2 (-2.06 ± 13.80 %; p = 0.936). Triceps skinfold thickness, mid-upper arm circumference, and upper arm muscle area presented a similar pattern of changes between periods in both groups. Decrease of QFMT at T1 was significantly correlated with the cumulative protein deficit in both subgroups, but not with the cumulative energy deficit. CONCLUSION Substantial muscle wasting occurs early in critically ill children and may be related to insufficient protein delivery. Anthropometric measurements are valuable in PICU and POCUS has the potential to play a major role in sarcopenia assessment during critical illnesses. TRIAL REGISTRATION Brazilian Clinical Trials registry, registration number: RBR-85YYGN.