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Items: 1 to 20 of 101

1.

Method for non-optical quantification of in situ local soft tissue biomechanics.

Tarsi GM, Gould RA, Chung JA, Xu AZ, Bozkurt A, Butcher JT.

J Biomech. 2013 Jul 26;46(11):1938-42. doi: 10.1016/j.jbiomech.2013.05.014. Epub 2013 Jun 19.

PMID:
23791186
2.

Characterization of biomechanical properties of agar based tissue mimicking phantoms for ultrasound stiffness imaging techniques.

Manickam K, Machireddy RR, Seshadri S.

J Mech Behav Biomed Mater. 2014 Jul;35:132-43. doi: 10.1016/j.jmbbm.2014.03.017. Epub 2014 Apr 1.

PMID:
24769915
3.

Finite-element modeling of needle electrodes in tissue from the perspective of frequent model computation.

Sel D, Mazeres S, Teissie J, Miklavcic D.

IEEE Trans Biomed Eng. 2003 Nov;50(11):1221-32.

PMID:
14619992
4.

Dynamic measurement of soft tissue viscoelastic properties with a torsional resonator device.

Valtorta D, Mazza E.

Med Image Anal. 2005 Oct;9(5):481-90.

PMID:
16006169
5.

Resistivity probing of multi-layered tissue phantoms using microelectrodes.

Linderholm P, Bertsch A, Renaud P.

Physiol Meas. 2004 Jun;25(3):645-58.

PMID:
15253116
6.

Using robotic systems in order to determine biomechanical properties of soft tissues.

Kunkel ME, Moral A, Westphal R, Rode D, Rilk M, Wahl FM.

Stud Health Technol Inform. 2008;133:156-65.

PMID:
18376024
7.

The pipette aspiration applied to the local stiffness measurement of soft tissues.

Aoki T, Ohashi T, Matsumoto T, Sato M.

Ann Biomed Eng. 1997 May-Jun;25(3):581-7.

PMID:
9146811
8.

Comparison of methods used to measure the thickness of soft tissues and their influence on the evaluation of tensile stress.

O'Leary SA, Doyle BJ, McGloughlin TM.

J Biomech. 2013 Jul 26;46(11):1955-60. doi: 10.1016/j.jbiomech.2013.05.003. Epub 2013 Jun 22.

PMID:
23800758
9.

A novel ultrasound indentation system for measuring biomechanical properties of in vivo soft tissue.

Han L, Noble JA, Burcher M.

Ultrasound Med Biol. 2003 Jun;29(6):813-23.

PMID:
12837497
10.

Development of novel imaging probe for optical/acoustic radiation imaging (OARI).

Ejofodomi OA, Zderic V, Zara JM.

Med Phys. 2013 Nov;40(11):111910. doi: 10.1118/1.4824149.

PMID:
24320443
11.

Air-cushion force-sensitive probe for soft tissue investigation during minimally invasive surgery.

Zbyszewski D, Challacombe B, Liu H, Seneviratne L, Dasgupta P, Murphy D, Althoefer K.

J Endourol. 2009 Sep;23(9):1421-4. doi: 10.1089/end.2009.0382.

PMID:
19694518
12.

Soft tissue elastometer.

Egorov V, Tsyuryupa S, Kanilo S, Kogit M, Sarvazyan A.

Med Eng Phys. 2008 Mar;30(2):206-12. Epub 2007 Mar 23.

13.

Congruence of imaging estimators and mechanical measurements of viscoelastic properties of soft tissues.

Zhang M, Castaneda B, Wu Z, Nigwekar P, Joseph JV, Rubens DJ, Parker KJ.

Ultrasound Med Biol. 2007 Oct;33(10):1617-31. Epub 2007 Jul 2.

14.

Optical micro-scale mapping of dynamic biomechanical tissue properties.

Liang X, Oldenburg AL, Crecea V, Chaney EJ, Boppart SA.

Opt Express. 2008 Jul 21;16(15):11052-65.

15.

A quantitative comparison of modulus images obtained using nanoindentation with strain elastograms.

Srinivasan S, Krouskop T, Ophir J.

Ultrasound Med Biol. 2004 Jul;30(7):899-918.

PMID:
15313323
16.

A novel method to obtain modulus image of soft tissues using ultrasound water jet indentation: a phantom study.

Lu MH, Zheng YP, Huang QH.

IEEE Trans Biomed Eng. 2007 Jan;54(1):114-21.

PMID:
17260862
17.

Nonlinear elasticity imaging: theory and phantom study.

Erkamp RQ, Emelianov SY, Skovoroda AR, O'Donnell M.

IEEE Trans Ultrason Ferroelectr Freq Control. 2004 May;51(5):532-9.

PMID:
15217231
18.

Soft-tissue material properties under large deformation: strain rate effect.

Hu T, Desai JP.

Conf Proc IEEE Eng Med Biol Soc. 2004;4:2758-61.

PMID:
17270848
19.
20.

Usefulness of ultrasonic strain measurement-based shear modulus reconstruction for diagnosis and thermal treatment.

Sumi C.

IEEE Trans Ultrason Ferroelectr Freq Control. 2005 Oct;52(10):1670-89.

PMID:
16382619
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