| Literature DB >> 26831343 |
Tai-Hua Yang1, Yi-Hsun Lin2, Bo-I Chuang2, Hsin-Chen Chen3, Wei-Jr Lin4, Dee-Shan Yang5, Shyh-Hau Wang6, Yung-Nien Sun6, I-Ming Jou7, Li-Chieh Kuo8, Fong-Chin Su9.
Abstract
The purpose was to identify the A1 pulley's exact location and thickness by comparing measurements from a clinical high-frequency ultrasound scanner system (CHUS), a customized high-frequency ultrasound imaging research system (HURS) and a digital caliper. Ten cadaveric hands were used. We explored the pulley by layers, inserted guide pins and scanned it with the CHUS. After identifying the pulley, we measured each long finger's thickness using the CHUS and excised the pulley to measure its thickness with a digital caliper and the HURS. The thin hypo-echoic layer was revealed to be the synovial fluid space, and the pulley appears hyper-echoic regardless of scan direction. We also defined the pulley's boundaries. Moreover, the CHUS provided a significantly lower measurement of the pulley's thickness than the digital caliper and HURS. Likewise, based on the digital caliper's measurement, the HURS had significantly lower mean absolute and relative errors than the CHUS.Keywords: Flexor tendon pulley; High frequency ultrasound; Pulley thickness; Sonographic image; Trigger finger
Mesh:
Year: 2016 PMID: 26831343 DOI: 10.1016/j.ultrasmedbio.2015.12.007
Source DB: PubMed Journal: Ultrasound Med Biol ISSN: 0301-5629 Impact factor: 2.998