Collagen and Chondrocyte Concentrations Control Ultrasound Scattering in Agarose Scaffolds

Collagen and Chondrocyte Concentrations Control Ultrasound Scattering in Agarose Scaffolds

Abstract Ultrasound imaging has been proposed for diagnostics of osteoarthritis and cartilage injuries in vivo . However, the specific contribution of chondrocytes and collagen to ultrasound scattering in articular cartilage has not been systematically studied. We investigated the role of these tiss...

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Bibliographic Details
Published in:Ultrasound in medicine & biology Vol. 40; no. 9; pp. 2162 - 2171
Main Authors: Inkinen, S, Liukkonen, J, Ylärinne, J.H, Puhakka, P.H, Lammi, M.J, Virén, T, Jurvelin, J.S, Töyräs, J
Format: Journal Article
Language:English
Published: England Elsevier Inc 01-09-2014
Subjects:
Agarose
Animals
Articular cartilage
Attenuation
Cartilage, Articular - diagnostic imaging
Cattle
cell research
cellforskning
Chondrocyte
Chondrocytes - diagnostic imaging
Collagen
fysik
Image Processing, Computer-Assisted - methods
Imaging
Physics
Radiology
Scattering
Sepharose
Ultrasonography - methods
Ultrasound
Articular cartilage
Chondrocyte
Imaging
Scattering
Collagen
Attenuation
Ultrasound
Agarose
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Summary:Abstract Ultrasound imaging has been proposed for diagnostics of osteoarthritis and cartilage injuries in vivo . However, the specific contribution of chondrocytes and collagen to ultrasound scattering in articular cartilage has not been systematically studied. We investigated the role of these tissue structures by measuring ultrasound scattering in agarose scaffolds with varying collagen and chondrocyte concentrations. Ultrasound catheters with center frequencies of 9 MHz (7.1–11.0 MHz, −6 dB) and 40 MHz (30.1–45.3 MHz, −6 dB) were applied using an intravascular ultrasound device. Ultrasound backscattering quantified in a region of interest starting right below sample surface differed significantly ( p  < 0.05) with the concentrations of collagen and chondrocytes. An ultrasound frequency of 40 MHz, as compared with 9 MHz, was more sensitive to variations in collagen and chondrocyte concentrations. The present findings may improve diagnostic interpretation of arthroscopic ultrasound imaging and provide information necessary for development of models describing ultrasound propagation within cartilage.
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ISSN:0301-5629
1879-291X
1879-291X
DOI:10.1016/j.ultrasmedbio.2014.03.016