Phantom materials for elastography

Author

Hall, Timothy J. ; Bilgen, Mehmet ; Insana, Michael F. ; Krouskop, Thomas A.

Author_Institution

Kansas Univ. Med. Center, Kansas City, KS, USA

Volume

44

Issue

6

fYear

1997

Firstpage

1355

Lastpage

1365

Abstract

Acoustic and mechanical properties are reported for gelatin materials used to construct tissue-like phantoms for elasticity imaging (elastography). A device and procedure for measuring elastic properties are described. The measured compression forces were comparable to results obtained from finite element analysis when linear elastic media are assumed. Also measured were the stress relaxation, temporal stability, and melting point of the materials. Aldehyde concentration was used to increase the stiffness of the gelatin by controlling the amount of collagen cross-linking. A broad range of tissue-like elastic properties was achieved with these materials, although gels continued to stiffen for several weeks. The precision for elastic modulus measurements ranged from less than 0.1% for 100 kPa samples to 8.9% for soft (<10 kPa), sticky samples.

Keywords

acoustic materials; biomechanics; biomedical ultrasonics; elastic moduli measurement; elasticity; finite element analysis; gelatin; melting point; stress relaxation; acoustic properties; aldehyde concentration; collagen cross-linking; compression force; elastic modulus measurement; elasticity imaging; elastography; finite element analysis; gelatin material; mechanical properties; melting point; stiffness; stress relaxation; temporal stability; tissue-like phantom; Acoustic devices; Acoustic imaging; Acoustic materials; Acoustic measurements; Biological materials; Elasticity; Finite element methods; Force measurement; Imaging phantoms; Mechanical factors;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.656639

Filename

656639