Elastic Moduli of Breast and Prostate Tissues under Compression
To evaluate the dynamic range of tissue imaged by elastography, the mechanical behavior of breast and prostate tissue samples subject to compression loading has been investigated. A model for the loading was validated and used to guide the experimental design for data collection. The model allowed t...
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| Published in | Ultrasonic imaging Vol. 20; no. 4; pp. 260 - 274 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Los Angeles, CA
SAGE Publications
01.10.1998
Dynamedia |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0161-7346 1096-0910 |
| DOI | 10.1177/016173469802000403 |
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| Abstract | To evaluate the dynamic range of tissue imaged by elastography, the mechanical behavior of breast and prostate tissue samples subject to compression loading has been investigated. A model for the loading was validated and used to guide the experimental design for data collection. The model allowed the use of small samples that could be considered homogeneous; this assumption was confirmed by histological analysis. The samples were tested at three strain rates to evaluate the viscoelastic nature of the material and determine the validity of modeling the tissue as an elastic material for the strain rates of interest. For loading frequencies above 1 Hz, the storage modulus accounted for over 93 percent of the complex modulus. The data show that breast fat tissue has a constant modulus over the strain range tested while the other tissues have a modulus that is dependent on the strain level. The fibrous tissue samples from the breast were found to be 1 to 2 orders of magnitude stiffer than fat tissue. Normal glandular breast tissue was found to have an elastic modulus similar to that of fat at low strain levels, but the modulus of the glandular tissue increased by an order of magnitude above fat at high strain levels. Carcinomas from the breast were stiffer than the other tissues at the higher strain level; intraductal in situ carcinomas were like fat at the low strain level and much stiffer than glandular tissue at the high strain level. Infiltrating ductal carcinomas were much stiffer than any of the other breast tissues. Normal prostate tissue has a modulus that is lower than the modulus of the prostate cancers tested. Tissue from prostate with benign prostatic hyperplasia (BPH) had modulus values significantly lower than normal tissue. There was a constant but not significant difference in the modulus of tissues taken from the anterior and posterior portions of the gland. |
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| AbstractList | To evaluate the dynamic range of tissue imaged by elastography, the mechanical behavior of breast and prostate tissue samples subject to compression loading has been investigated. A model for the loading was validated and used to guide the experimental design for data collection. The model allowed the use of small samples that could be considered homogeneous; this assumption was confirmed by histological analysis. The samples were tested at three strain rates to evaluate the viscoelastic nature of the material and determine the validity of modeling the tissue as an elastic material for the strain rates of interest. For loading frequencies above 1 Hz, the storage modulus accounted for over 93 percent of the complex modulus. The data show that breast fat tissue has a constant modulus over the strain range tested while the other tissues have a modulus that is dependent on the strain level. The fibrous tissue samples from the breast were found to be 1 to 2 orders of magnitude stiffer than fat tissue. Normal glandular breast tissue was found to have an elastic modulus similar to that of fat at low strain levels, but the modulus of the glandular tissue increased by an order of magnitude above fat at high strain levels. Carcinomas from the breast were stiffer than the other tissues at the higher strain level; intraductal in situ carcinomas were like fat at the low strain level and much stiffer than glandular tissue at the high strain level. Infiltrating ductal carcinomas were much stiffer than any of the other breast tissues. Normal prostate tissue has a modulus that is lower than the modulus of the prostate cancers tested. Tissue from prostate with benign prostatic hyperplasia (BPH) had modulus values significantly lower than normal tissue. There was a constant but not significant difference in the modulus of tissues taken from the anterior and posterior portions of the gland. To evaluate the dynamic range of tissue imaged by elastography, the mechanical behavior of breast and prostate tissue samples subject to compression loading has been investigated. A model for the loading was validated and used to guide the experimental design for data collection. The model allowed the use of small samples that could be considered homogeneous; this assumption was confirmed by histological analysis. The samples were tested at three strain rates to evaluate the viscoelastic nature of the material and determine the validity of modeling the tissue as an elastic material for the strain rates of interest. For loading frequencies above 1 Hz, the storage modulus accounted for over 93 percent of the complex modulus. The data show that breast fat tissue has a constant modulus over the strain range tested while the other tissues have a modulus that is dependent on the strain level. The fibrous tissue samples from the breast were found to be 1 to 2 orders of magnitude stiffer than fat tissue. Normal glandular breast tissue was found to have an elastic modulus similar to that of fat at low strain levels, but the modulus of the glandular tissue increased by an order of magnitude above fat at high strain levels. Carcinomas from the breast were stiffer than the other tissues at the higher strain level; intraductal in situ carcinomas were like fat at the low strain level and much stiffer than glandular tissue at the high strain level. Infiltrating ductal carcinomas were much stiffer than any of the other breast tissues. Normal prostate tissue has a modulus that is lower than the modulus of the prostate cancers tested. Tissue from prostate with benign prostatic hyperplasia (BPH) had modulus values significantly lower than normal tissue. There was a constant but not significant difference in the modulus of tissues taken from the anterior and posterior portions of the gland.To evaluate the dynamic range of tissue imaged by elastography, the mechanical behavior of breast and prostate tissue samples subject to compression loading has been investigated. A model for the loading was validated and used to guide the experimental design for data collection. The model allowed the use of small samples that could be considered homogeneous; this assumption was confirmed by histological analysis. The samples were tested at three strain rates to evaluate the viscoelastic nature of the material and determine the validity of modeling the tissue as an elastic material for the strain rates of interest. For loading frequencies above 1 Hz, the storage modulus accounted for over 93 percent of the complex modulus. The data show that breast fat tissue has a constant modulus over the strain range tested while the other tissues have a modulus that is dependent on the strain level. The fibrous tissue samples from the breast were found to be 1 to 2 orders of magnitude stiffer than fat tissue. Normal glandular breast tissue was found to have an elastic modulus similar to that of fat at low strain levels, but the modulus of the glandular tissue increased by an order of magnitude above fat at high strain levels. Carcinomas from the breast were stiffer than the other tissues at the higher strain level; intraductal in situ carcinomas were like fat at the low strain level and much stiffer than glandular tissue at the high strain level. Infiltrating ductal carcinomas were much stiffer than any of the other breast tissues. Normal prostate tissue has a modulus that is lower than the modulus of the prostate cancers tested. Tissue from prostate with benign prostatic hyperplasia (BPH) had modulus values significantly lower than normal tissue. There was a constant but not significant difference in the modulus of tissues taken from the anterior and posterior portions of the gland. |
| Author | Hall, Timothy Krouskop, Thomas A. Wheeler, Thomas M. Garra, Brian S. Kallel, Faouzi |
| Author_xml | – sequence: 1 givenname: Thomas A. surname: Krouskop fullname: Krouskop, Thomas A. email: krouskop@bcm.tmc.edu – sequence: 2 givenname: Thomas M. surname: Wheeler fullname: Wheeler, Thomas M. – sequence: 3 givenname: Faouzi surname: Kallel fullname: Kallel, Faouzi – sequence: 4 givenname: Brian S. surname: Garra fullname: Garra, Brian S. – sequence: 5 givenname: Timothy surname: Hall fullname: Hall, Timothy |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=1723881$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/10197347$$D View this record in MEDLINE/PubMed |
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| CODEN | ULIMD4 |
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| Keywords | prostate tissue Breast tissue tissue mechanics elastography cancer modulus compression elastic modulus Elastic constant Human Viscoelasticity Deformation modulus Mechanical properties Malignant tumor Experimental study Biomechanics Mechanical test Tissue Testing equipment Medical imagery Mammary gland Measurement method Acoustic image Prostate Ultrasound |
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| References | Belaid, Céspedes, Thijssen, Ophir 1994; 20 Hayes, Mockros 1971; 31 Parker, Gao, Lerner, Levinson 1996 Krouskop, Vinson, Goode, Dougherty 1987; 24 Gao, Parker, Lerner, Levinson 1996; 22 Parker, Huang, Musulin 1990; 16 Fukaya, Hildebrant, Martin 1969; 27 Ophir, Céspedes, Ponnekanti, Yazdi, Li 1991; 13 Bakke 1973; 52 Walz, Teubner, Georgi 1993; 56 Garra, Céspedes, Ophir, Spratt 1997; 202 Ophir, Kallel, Varghese, Bertrand, Céspedes, Ponnekanti 1997; 8 Demiray 1972; 5 Sarvazyan 1993 Krokosky, Krouskop 1970; 4 Bamber, Dunn, Hill, King 1979; 5 Ophir, Céspedes, Garra, Ponnekanti, Huang, Maklad 1996 Malinauska, Krouskop, Barry 1989; 26 Hall, Bilgen, Insana, Krouskop; 44 Feigl, Jones, Peterson 1963; 42 Harley, James, Miller, White 1977; 265 Choyke 1995; 20 Krokosky, Krouskop 1968; 2 Céspedes, Ophir, Ponnekanti, Maklad 1993; 15 Frasher, Fung, Lee 1968; 25 Carton, Clark, Barron, Dainauskas 1964; 19 Galey 1969; 26 Fukaya, Katsura, Martin, Young 1968; 25 Kallel, Ophir, Magee, Krouskop 1998; 24 Chen, Navakofski, Jenkins, O'Brien 1996; 43 D'Angelo 1975; 23 Malinauska M. (bibr22-016173469802000403) 1989; 26 Anderson W.A.D. (bibr2-016173469802000403) 1953 Yamada Hiroshi (bibr12-016173469802000403) 1970 Krouskop T. (bibr23-016173469802000403) 1987; 24 bibr20-016173469802000403 bibr26-016173469802000403 bibr27-016173469802000403 bibr21-016173469802000403 bibr25-016173469802000403 bibr24-016173469802000403 bibr17-016173469802000403 bibr14-016173469802000403 bibr15-016173469802000403 bibr18-016173469802000403 bibr16-016173469802000403 Fung Y.C. (bibr1-016173469802000403) 1981 bibr19-016173469802000403 bibr10-016173469802000403 bibr6-016173469802000403 bibr11-016173469802000403 bibr36-016173469802000403 Krokosky E. (bibr29-016173469802000403) 1968; 2 bibr13-016173469802000403 Walz M. (bibr32-016173469802000403) 1993; 56 bibr33-016173469802000403 bibr37-016173469802000403 bibr30-016173469802000403 bibr28-016173469802000403 Timoshenko S.P. (bibr34-016173469802000403) 1970 Lambe T.W. (bibr35-016173469802000403) 1969 bibr31-016173469802000403 bibr9-016173469802000403 bibr8-016173469802000403 bibr4-016173469802000403 bibr7-016173469802000403 bibr5-016173469802000403 bibr3-016173469802000403 |
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| SubjectTerms | Acoustical measurements and instrumentation Acoustics Adult Biological and medical sciences Biomechanics. Biorheology Breast Neoplasms - diagnostic imaging Breast Neoplasms - pathology Breast Neoplasms - physiopathology Carcinoma, Ductal, Breast - diagnostic imaging Carcinoma, Ductal, Breast - pathology Carcinoma, Ductal, Breast - physiopathology Carcinoma, Intraductal, Noninfiltrating - diagnostic imaging Carcinoma, Intraductal, Noninfiltrating - pathology Carcinoma, Intraductal, Noninfiltrating - physiopathology Elasticity Exact sciences and technology Female Fundamental and applied biological sciences. Psychology Fundamental areas of phenomenology (including applications) Humans Investigative techniques, diagnostic techniques (general aspects) Male Medical sciences Miscellaneous. Technology Models, Theoretical Physics Prostatic Hyperplasia - diagnostic imaging Prostatic Hyperplasia - pathology Prostatic Hyperplasia - physiopathology Prostatic Neoplasms - diagnostic imaging Prostatic Neoplasms - pathology Prostatic Neoplasms - physiopathology Tissues, organs and organisms biophysics Ultrasonic investigative techniques Ultrasonography |
| Title | Elastic Moduli of Breast and Prostate Tissues under Compression |
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