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      Sonography and sonoelastography in the detection of malignancy in superficial lymph nodes of dogs

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          Abstract

          Background

          The clinical applicability of sonography and sonoelastography (SOE) in the detection of lymph node malignancy in dogs has not been established.

          Objectives

          To compare sonographic and sonoelastographic findings between malignant and benign superficial lymph nodes and to evaluate the diagnostic performance of those methods.

          Animals

          One‐hundred sixteen lymph nodes of 54 dogs.

          Methods

          A prospective observational study was used to investigate sonographic features and elasticity scores of malignant and benign superficial lymph nodes. Lymph nodes were categorized as malignant or benign according to cytology or histopathology. Quantitative variables were compared using Student's unpaired t test. Prevalence of categorical variables was compared using nonparametric Mann‐Whitney U test. Diagnostic performance was calculated by receiver‐operating characteristic analysis.

          Results

          Forty‐nine malignant and 67 benign lymph nodes were included. Malignant nodes had larger long axis (LA; P = .0002), short axis (SA; P < .0001) and short‐to‐long axis ratio ( P < .0001) in comparison with benign nodes. Malignant nodes had a higher prevalence of mixed vascular distribution on Doppler color flow mapping ( P < .005) and on power Doppler ( P < .0001) and higher resistivity index (RI; P < .0001), pulsatility index ( P < .0001), and elasticity score ( P < .0001) in comparison with benign nodes. Short axis, elasticity score, and RI offered the best accuracies, 80.2%, 78.1%, and 77.7% ( P < .05), respectively, for malignancy detection.

          Conclusions and Clinical Importance

          Results support the use of Doppler sonography and SOE as auxiliary methods to brightness mode sonography to detect nodal malignancy.

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          Most cited references36

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          Ultrasonographic differentiation between metastatic and benign lymph nodes in patients with papillary thyroid carcinoma.

          The purpose of this study was to evaluate the ultrasonographic characteristics of metastatic lymph nodes in patients with papillary thyroid carcinoma. The ultrasonographic characteristics of lymph nodes were analyzed in 112 consecutive patients who underwent thyroidectomy and lymph node dissection, with the diagnosis being confirmed by anatomopathologic examination. A total of 198 lymph nodes were metastatic, and 152 were benign (normal or with nonspecific lymphadenitis). Minimum axial diameters of 7 mm for level II (upper internal jugular chain) and 6 mm for the rest of the neck were observed in 93% of metastatic lymph nodes, absence of an echogenic hilum in 88%, hyperechogenicity in relation to the adjacent muscles in 86%, a round shape in 80%, calcifications in 49.5%, and intranodal cystic necrosis in 20%. These ultrasonographic characteristics were observed in 17%, 10%, 4.5%, 29.5%, 0%, and 0% of benign lymph nodes, respectively. Even basic ultrasonographic characteristics (shape, echogenicity and echogenic hilum, calcifications, and intranodal cystic necrosis) help in the differentiation between metastatic and nonmetastatic lymph nodes in patients with papillary thyroid carcinoma.
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            Accuracy of sonographic elastography in the differential diagnosis of enlarged cervical lymph nodes: comparison with conventional B-mode sonography.

            The purpose of our study was to evaluate the diagnostic performance of sonographic elastography and B-mode sonography individually and combined in the differentiation of reactively and metastatically enlarged cervical lymph nodes. Eighty-five lymph nodes (metastatic, n = 53; reactive, n = 32) from 37 patients were examined by both elastography and B-mode sonography in this prospective study. Elastographic patterns were determined on the distribution and percentage of the lymph node area with high elasticity (hard), with pattern 1 being an absent or very small hard area to pattern 5, a hard area occupying the entire lymph node. The cutoff line for reactive versus metastatic was set between patterns 2 and 3; patterns 3-5 were considered metastatic. B-mode sonographic diagnosis was based on the sum of scores for five criteria: short-axis diameter, shape, border (regular or irregular), echogenicity (homogeneous or inhomogeneous), and hilum (present or absent). The cutoff line for reactive versus metastatic was set between scores 6 and 7; scores 5 and 6 were considered reactive, and scores 7-10, metastatic. Sensitivity, specificity, and accuracy of B-mode sonography were 98%, 59%, and 84%, respectively; 83%, 100%, and 89% for elastography; and 92%, 94%, and 93% for the combined evaluation. The combination of highly specific elastography with highly sensitive conventional B-mode sonography has the potential to further improve the diagnosis of metastatic enlarged cervical lymph nodes.
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              Real-time elastography for the differentiation of benign and malignant superficial lymph nodes: a meta-analysis.

              Real-time elastography (RTE), as a non-invasive method, is used for the classification of benign and malignant lymph nodes (LNs) and developed as an alternative to biopsy. Elasticity score (ES) and strain ratio (SR) are used for the interpretation of RTE. We studied the performance of RTE for diagnosis of malignant LNs using meta-analysis. PubMed, the Cochrane Library, ISI Web of Knowledge, China National Knowledge Infrastructure were searched. The studies published in English or Chinese relating to the diagnostic value of RTE for superficial LNs were collected. Hierarchical summary receiver operating characteristic (HSROC) curve was used to examine the RTE accuracy. Clinical utility of RTE for LNs was evaluated by Fagan plot analysis. A total of 9 studies which included 835 LNs were analyzed. The summary sensitivity and specificity for the diagnosis of malignant LNs were 0.74 (95% confidence interval (CI), 0.66-0.81) and 0.90 (95% CI, 0.82-0.94) for ES, and 0.88 (95% CI, 0.79-0.93) and 0.81 (95% CI, 0.49-0.95) for SR, respectively. Compared to ES, SR obviously improved the diagnostic sensitivity value. The HSROCs were 0.88 for ES and 0.91 for SR, respectively. After RTE results over the cut-off value for malignant LNs ("positive" result), the corresponding post-test probability for the presence (if pre-test probability was 50%) was 88% for ES and 82% for SR, respectively; while, in "negative" measurement, the post-test probability was 22% and 13%, respectively. RTE has a high accuracy in the classification of superficial LNs and can potentially help to select suspicious LNs for biopsy. Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.
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                Author and article information

                Contributors
                alexandra.belotta.vet@gmail.com
                Journal
                J Vet Intern Med
                J. Vet. Intern. Med
                10.1111/(ISSN)1939-1676
                JVIM
                Journal of Veterinary Internal Medicine
                John Wiley & Sons, Inc. (Hoboken, USA )
                0891-6640
                1939-1676
                18 March 2019
                May-Jun 2019
                : 33
                : 3 ( doiID: 10.1111/jvim.2019.33.issue-3 )
                : 1403-1413
                Affiliations
                [ 1 ] Department of Animal Reproduction and Veterinary Radiology School of Veterinary Medicine and Animal Science, Sao Paulo State University Botucatu Brazil
                [ 2 ] Department of Veterinary Clinics School of Veterinary Medicine and Animal Science, Sao Paulo State University Botucatu Brazil
                [ 3 ] Department of Preventive Veterinary Medicine School of Veterinary Medicine, Oeste Paulista University Presidente Prudente Brazil
                Author notes
                [*] [* ] Correspondence

                Alexandra F. Belotta, Department of Animal Reproduction and Veterinary Radiology, School of Veterinary Medicine and Animal Science, Sao Paulo State University, Distrito de Rubião Jr., s/n, Botucatu, São Paulo, Brazil.

                Email: alexandra.belotta.vet@ 123456gmail.com

                Author information
                https://orcid.org/0000-0001-6233-5656
                Article
                JVIM15469
                10.1111/jvim.15469
                6524127
                30883935
                6aba2e69-1243-4b4e-9ff5-ef3c20541c1a
                © 2019 The Authors. Journal of Veterinary Internal Medicine published by Wiley Periodicals, Inc. on behalf of the American College of Veterinary Internal Medicine.

                This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

                History
                : 24 August 2018
                : 14 February 2019
                Page count
                Figures: 4, Tables: 4, Pages: 11, Words: 7716
                Funding
                Funded by: Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
                Award ID: CAPES PhD scholarship to Alexandra F.Belotta
                Funded by: Fundação de Amparo à Pesquisa do Estado de São Paulo
                Award ID: FAPESP, process 2012/02484‐2
                Categories
                Standard Article
                SMALL ANIMAL
                Standard Articles
                Oncology
                Custom metadata
                2.0
                jvim15469
                May/June 2019
                Converter:WILEY_ML3GV2_TO_NLMPMC version:5.6.3 mode:remove_FC converted:17.05.2019

                Veterinary medicine
                canine,doppler,elastography,lymphoid tissue,ultrasound
                Veterinary medicine
                canine, doppler, elastography, lymphoid tissue, ultrasound

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