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Second-harmonic microscopy of biological tissue
Optics Letters, 1986We present the first reported optical second-harmonic microscope images of a biological sample—rattail tendon—and discuss, also for the first time, the need to distinguish between coherent and incoherent second-harmonic imaging. Our data show that the currently unexplained macroscopic polar order of this classic representative of connective tissue is ...
I, Freund, M, Deutsch
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Acoustic imaging of thick biological tissue
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2009Up to now, biomedical imaging with ultrasound for observing a cellular tissue structure has been limited to very thinly sliced tissue at very high ultrasonic frequencies, i.e., 1 GHz. In this paper, we present the results of a systematic study to use a 150 to 200 MHz frequency range for thickly sliced biological tissue. A mechanical scanning reflection
Elena, Maeva +4 more
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Processing Biological Tissues for Ultrastructural Study
2007Biological tissues are passed through numerous procedures before they can be studied at the ultrastructural level with the electron microscope. Chemical fixation is widely used as a method for preserving structural detail and can be performed by simple immersion or total body vascular perfusion.
José A, Mascorro, John J, Bozzola
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Tissue Transglutaminase as a Biological Tissue Glue
2009Surgeons have long sought an efficient biological method of wound repair that requires little time and minimizes discomfort for their patients, yet produces a good cosmetic outcome. Our aim is to develop a biological tissue glue based on the extracellular matrix stabilizing enzyme transglutaminase 2 to covalently bond tissue layers to promote suture ...
P. P. Panengad +2 more
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Dielectric response of some biological tissues
Bioelectromagnetics, 2001AbstractThe dielectric properties of two freshly excised mice tissue samples (kidney, skeletal muscle) and also freshly excised Ehrlich solid tumor were measured in the frequency range from 20 Hz to 100 kHz using RLC bridges. The data were fitted to a summation of multiple Cole–Cole dispersion and also to the constant power law which is related ...
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Elastography: A Quantitative Method for Imaging the Elasticity of Biological Tissues
Ultrasonic imaging (Print), 1991J. Ophir +4 more
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Mechanics of Biological Tissue
2006Tissue Growth and Remodelling.- Towards a Theory of Vascular Growth and Remodeling.- Complementary Roles of Theoretical Modeling and Computer-controlled Experimentation in Vascular Growth and Remodeling.- On the Modeling of Growth and Adaptation.- Growth in Soft Biological Tissue and Residual Stress Development.- Characterization and Modeling of Growth
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