High-Frequency and Ultra-High Frequency Ultrasound: Musculoskeletal Imaging up to 70 MHz

Albano, Domenico; Aringhieri, Giacomo; Messina, Carmelo; Flaviis, Luca De; Sconfienza, Luca Maria

doi:10.1055/s-0039-3401042

Cited by 46 publications

(40 citation statements)

References 70 publications

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“…As in other clinical fields (18,(38)(39)(40)(41)(42)(43), UFHUS is being explored in the pSS scenario in order to evaluate its potential contribution to improve the evaluation of the SGs, particularly regarding minor SGs.…”

Section: Sgus In Ss: a Brief Reviewmentioning

confidence: 99%

“…UHFUS is a novel diagnostic technique which is finding an increasingly important role in several medical fields (18,19,(38)(39)(40)(41)(42)(43)(44)(45), including ophthalmology (38), dermatology (39,40), oral medicine (18,19,44,45), musculoskeletal (41,42) and vascular imaging (43). Since the axial resolution achievable increases with the frequency, the use of frequencies between 30-100 MHz allows to investigate superficial structures at a higher axial resolution compared to conventional US (46).…”

Section: Uhfus: Technical Notesmentioning

confidence: 99%

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Ultra-high frequency ultrasound (UHFUS) applications in Sjogren syndrome: narrative review and current concepts

et al. 2020

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Primary Sjogren's syndrome (SS) is a systemic autoimmune chronic inflammatory disease with predominant involvement of the exocrine glands, particularly the salivary glands (SGs). The role of salivary glands ultrasound (SGUS) in the work-up of patients with primary Sjogren syndrome (SS) is progressively increasing due to its useful support in diagnosis and follow-up as a widely available, repeatable, noninvasive and safe technique. Although SGUS is not yet included in the dominant primary SS classification, several studies supported its inclusion in the American College of Rheumatology/European League Against Rheumatism criteria. In this context, a novel imaging technique, ultra-high frequency ultrasound (UHFUS), is being explored. Compared to the frequencies used in conventional ultrasound (US) (up to 22 MHz), UHFUS operates with higher frequencies (30-100 MHz) allowing for outstanding image resolution, up to 30 µm. UHFUS permits the scan of both major and minor SGs, opening new avenues for the integration of tissue and imaging biomarkers. Although further studies are needed to confirm its role, this novel imaging technique might lead to several potential improvements, including earlier diagnosis, reduction of unnecessary and inadequate biopsies and better management and follow-up of patients with primary SS.

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Section: Sgus In Ss: a Brief Reviewmentioning

confidence: 99%

Section: Uhfus: Technical Notesmentioning

confidence: 99%

Ultra-high frequency ultrasound (UHFUS) applications in Sjogren syndrome: narrative review and current concepts

et al. 2020

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“…To our knowledge, the highest resolution reported for laboratory investigation of ultrasonic retinal stimulation is ~100 µm with the 43 MHz stimuli [ 54 ]. It may be possible to achieve a resolution of 30 μm with a 70 MHz transducer [ 79 , 80 ] or even a resolution of on the scale of 10 μm with a higher-frequency transducer [ 81 ]. However, previous studies indicated a reduced stimulation efficiency with the increase of the frequency.…”

Section: Spatiotemporal Characteristics Of Retinal Response To Ultmentioning

confidence: 99%

Ultrasonic Retinal Neuromodulation and Acoustic Retinal Prosthesis

Huang

Zhou

et al. 2020

Micromachines

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Ultrasound is an emerging method for non-invasive neuromodulation. Studies in the past have demonstrated that ultrasound can reversibly activate and inhibit neural activities in the brain. Recent research shows the possibility of using ultrasound ranging from 0.5 to 43 MHz in acoustic frequency to activate the retinal neurons without causing detectable damages to the cells. This review recapitulates pilot studies that explored retinal responses to the ultrasound exposure, discusses the advantages and limitations of the ultrasonic stimulation, and offers an overview of engineering perspectives in developing an acoustic retinal prosthesis. For comparison, this article also presents studies in the ultrasonic stimulation of the visual cortex. Despite that, the summarized research is still in an early stage; ultrasonic retinal stimulation appears to be a viable technology that exhibits enormous therapeutic potential for non-invasive vision restoration.

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“…Ultra‐high‐frequency US transducers, with frequencies ranging from 22 to 70 MHz, provide lower resolution to 30 μm. Small structural tendon abnormalities and also tiny superficial tissues such as the pulley, retinacula, volar plate, and superficial peripheral nerve can be better assessed 34,35 …”

Section: New Us Technologiesmentioning

confidence: 99%

Evaluation of Tendon Disorders With Ultrasonography and Elastography

Balaban

Çilengir

İdilman

2020

J of Ultrasound Medicine

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The frequency of musculoskeletal system ultrasonography (US) has increased over time. The most common reason for musculoskeletal US is the evaluation of tendons. The superficial location of tendons makes US the most suitable diagnostic tool, and US is generally the initial imaging modality for tendon disorders. The primary advantages of US are its low cost, easy accessibility, rapidity, repeatability, freedom from x‐rays, and enabling of a dynamic inspection. In addition, Doppler US and elastography can be performed simultaneously with US. We aimed to demonstrate the US and elastographic findings of tendon disorders that we frequently encounter in different regions.

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High-Frequency and Ultra-High Frequency Ultrasound: Musculoskeletal Imaging up to 70 MHz

Cited by 46 publications

References 70 publications

Ultra-high frequency ultrasound (UHFUS) applications in Sjogren syndrome: narrative review and current concepts

Ultra-high frequency ultrasound (UHFUS) applications in Sjogren syndrome: narrative review and current concepts

Ultrasonic Retinal Neuromodulation and Acoustic Retinal Prosthesis

Evaluation of Tendon Disorders With Ultrasonography and Elastography

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