6533b874fe1ef96bd12d60f0
RESEARCH PRODUCT
High-Frequency and Ultra-High Frequency Ultrasound: Musculoskeletal Imaging up to 70 MHz
Luca De FlaviisDomenico AlbanoGiacomo AringhieriLuca Maria SconfienzaCarmelo Messinasubject
tendonTransducersHigh resolutionSkin Diseases030218 nuclear medicine & medical imaging03 medical and health sciences0302 clinical medicineTendon InjuriesMedicineHumansRadiology Nuclear Medicine and imagingOrthopedics and Sports MedicineMusculoskeletal DiseasescartilageImage resolutionMusculoskeletal System030203 arthritis & rheumatologyMusculoskeletal imagingbusiness.industryUltrasoundPeripheral Nervous System DiseasesultrasonographyClinical Practicecartilage; peripheral nerve; tendon; ultra-high frequency ultrasonography; ultrasonographyUltra high frequencyultra-high frequency ultrasonographyperipheral nerveUltrasound imagingImaging techniquebusinessBiomedical engineeringdescription
AbstractMusculoskeletal (MSK) ultrasound has well-established advantages, able to investigate very small structures with high resolution and a quick and real-time dynamic evaluation with the possibility of contralateral comparison. Thus ultrasound has kept its own almost exclusive fields of application in daily clinical practice, and it is considered the first-level imaging technique to assess tendons, bursae, and capsuloligamentous structures of small peripheral joints as well as peripheral nerves. Up to now, however, clinical MSK ultrasound imaging could not go beyond the first 1 to 2 cm under the skin, using high-frequency probes up to 18 to 20 MHz with spatial resolution just below millimeters. We present the impressive technical advancements leading to image resolution as low as 30 µm using ultra-high frequency ultrasound (UHFUS) probes up to 70 MHz. High-frequency ultrasound and UHFUS, with frequencies ranging from 22 to 70 MHz, are promising tools to evaluate very superficial structures. In the MSK system, only two articles have assessed its value in limited case series. Future developments may be aimed to better assess ultrastructural changes of very superficial peripheral nerves and other thin structures such as pulleys, retinacula, and tendons.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-04-01 |