Ultra-High Frequency Ultrasound, A Promising Diagnostic Technique: Review of the Literature and Single-Center Experience

医学 多学科方法 超声科 放射科 临床实习 医学影像学 图像质量 医学物理学 物理疗法 人工智能 计算机科学 图像(数学) 社会学 社会科学
作者
Rossana Izzetti,Saverio Vitali,Giacomo Aringhieri,Marco Nisi,Teresa Oranges,Valentina Dini,Francesco Ferro,Chiara Baldini,Marco Romanelli,Davide Caramella,Mario Gabriele
出处
期刊:Canadian Association of Radiologists journal [SAGE Publishing]
卷期号:72 (3): 418-431 被引量:118
标识
DOI:10.1177/0846537120940684
摘要

Objectives: Ultra-high frequency ultrasonography (UHFUS) is a recently introduced diagnostic technique which finds several applications in diverse clinical fields. The range of frequencies between 30 and 100 MHz allows for high spatial resolution imaging of superficial structures, making this technique suitable for the imaging of skin, blood vessels, musculoskeletal anatomy, oral mucosa, and small parts. However, the current clinical applications of UHFUS have never been analyzed in a consistent multidisciplinary manner. The aim of this study is to revise and discuss the current applications of UHFUS in different aspects of research and clinical practice, as well as to provide some examples of the current work-in-progress carried out in our center. Materials and Methods: A literature search was performed in order to retrieve articles reporting the applications of UHFUS both in research and in clinical settings. Inclusion criteria were the use of frequencies above 30 MHz and study design conducted in vivo on human subjects. Results: In total 66 articles were retrieved. The majority of the articles focused on dermatological and vascular applications, although musculoskeletal and intraoral applications are emerging fields of use. We also describe our experience in the use of UHFUS as a valuable diagnostic support in the fields of dermatology, rheumatology, oral medicine, and musculoskeletal anatomy. Conclusion: Ultra-high frequency ultrasonography application involves an increasing number of medical fields. The high spatial resolution and the superb image quality achievable allow to foresee a wider use of this novel technique, which has the potential to bring innovation in diagnostic imaging.
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