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Imaging the stiffness of the vitreous body with acoustic radiation force

Publication ,  Chapter
Walker, WF; Negron, LA; Mondzelewski, TJ; McAllister, MJ; Fernandez, FJ; Toth, CA
December 1, 1999

A new method of vitreous imaging which attempts to image tissue stiffness by applying acoustic radiation force is presented. The method yields the dynamic response of targets to the applied forces. For demonstration purposes, the B-Mode, maximum displacement, relative elasticity, and relative viscosity images of tissue mimicking phantoms and an enzymatically modified porcine eye are presented.

Duke Scholars

Publication Date

December 1, 1999

Volume

2

Start / End Page

1635 / 1638
 

Citation

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Walker, W. F., Negron, L. A., Mondzelewski, T. J., McAllister, M. J., Fernandez, F. J., & Toth, C. A. (1999). Imaging the stiffness of the vitreous body with acoustic radiation force (Vol. 2, pp. 1635–1638).
Walker, W. F., L. A. Negron, T. J. Mondzelewski, M. J. McAllister, F. J. Fernandez, and C. A. Toth. “Imaging the stiffness of the vitreous body with acoustic radiation force,” 2:1635–38, 1999.
Walker WF, Negron LA, Mondzelewski TJ, McAllister MJ, Fernandez FJ, Toth CA. Imaging the stiffness of the vitreous body with acoustic radiation force. In 1999. p. 1635–8.
Walker, W. F., et al. Imaging the stiffness of the vitreous body with acoustic radiation force. Vol. 2, 1999, pp. 1635–38.
Walker WF, Negron LA, Mondzelewski TJ, McAllister MJ, Fernandez FJ, Toth CA. Imaging the stiffness of the vitreous body with acoustic radiation force. 1999. p. 1635–1638.

Publication Date

December 1, 1999

Volume

2

Start / End Page

1635 / 1638