scholarly journals Modeling of injury process of biological tissue containing blood vessel caused by laser impulse

2020 ◽  
Author(s):  
Marek Jasiński
Keyword(s):  
Blood Vessel ◽  
Biological Tissue ◽  
Laser Impulse

scholarly journals Sheet‐Based Tissue Engineering: From Bench Top to the First Clinical Use of a Completely Biological Tissue Engineered Blood Vessel

2006 ◽  
Vol 20 (5) ◽  
Author(s):  
Nicolas L'Heureux ◽  
Nathalie Dusserre ◽  
Sergio A Garrido ◽  
Ximena Manglano ◽  
Alicia Marini ◽  
...  
Keyword(s):  
Tissue Engineering ◽  
Blood Vessel ◽  
Biological Tissue ◽  
Clinical Use

3D full wave ultrasonic field and temperature simulations in biological tissue containing a blood vessel

2000 ◽  
Vol 107 (5) ◽  
pp. 2814-2814 ◽  
Author(s):  
Francesco P. Curra ◽  
Pierre D. Mourad ◽  
Lawrence A. Crum ◽  
Vera A. Khokhlova
Keyword(s):  
Blood Vessel ◽  
Biological Tissue ◽  
Ultrasonic Field ◽  
Full Wave

scholarly journals A completely biological tissue‐engineered human blood vessel

1998 ◽  
Vol 12 (1) ◽  
pp. 47-56 ◽  
Author(s):  
Nicolas L'Heureux ◽  
Stéphanie Pâquet ◽  
Raymond Labbé ◽  
Lucie Germain ◽  
François A. Auger
Keyword(s):  
Blood Vessel ◽  
Human Blood ◽  
Biological Tissue

3D biological imaging using TSRLM confocal microscopy

1987 ◽  
Vol 45 ◽  
pp. 638-639
Author(s):  
E. Loren Buhle ◽  
Bernard Himpens ◽  
Avril V. Somlyo ◽  
Henry Shuman ◽  
Andrew P. Somlyo
Keyword(s):  
Confocal Microscopy ◽  
Blood Vessel ◽  
Biological Tissue ◽  
Muscle Fibers ◽  
Biological Imaging ◽  
Frog Muscle ◽  
Optical Section ◽  
Fiber Volume ◽  
Reflected Light ◽  
Translucent Material

Tandem scanning reflected light (TSRLM) confocal microscopy permits the imaging of optical sections through translucent material in real time. We are currently using a TSRLM microscope to examine the morphological components of biological tissue. Optical sections of either stained or unstained biological specimens can be rapidly obtained by a through focus series of a potentially dynamic specimen. Each optical section shown here is an average of 256 512X512x8 bit frames collected from a silicon intensified target camera at video rates.Unstained living frog muscle fibers were imaged with sufficient contrast to obtain 1μ optical sections traversing a total distance of approximately 80μ. Fig. 1 shows 4μ sections through a blood vessel. Frog red cells can be clearly seen in panels 1c-e. Frog muscle fibers were mounted and stretched to a defined length. The total fiber volume was easily imaged by progressive 1μ sections.

scholarly journals Dual-phase lag model of heat transfer between blood vessel and biological tissue

2021 ◽  
Vol 18 (2) ◽  
pp. 1573-1589
Author(s):  
Ewa Majchrzak ◽  
◽  
Mikołaj Stryczyński
Keyword(s):  
Heat Transfer ◽  
Blood Vessel ◽  
Biological Tissue ◽  
Phase Lag ◽  
Dual Phase ◽  
Lag Model

A completely biological tissue-engineered human blood vessel

1998 ◽  
Vol 12 (1) ◽  
pp. 47-56 ◽  
Author(s):  
Nicolas L'heureux ◽  
Stéphanie Pâquet ◽  
Raymond Labbé ◽  
Lucie Germain ◽  
François A. Auger
Keyword(s):  
Blood Vessel ◽  
Human Blood ◽  
Biological Tissue

Advances in Microprobe Analysis Applied to Muscle, Nerve and Gland

1982 ◽  
Vol 40 ◽  
pp. 404-407
Author(s):  
T. E. Hutchinson ◽  
D. E. Johnson ◽  
A. C. Lee ◽  
E. Y. Wang
Keyword(s):  
Biological Tissue ◽  
Microprobe Analysis ◽  
Physiological State ◽  
External Environment ◽  
Physiological Relevance ◽  
Muscle Nerve ◽  
Technique Development

Microprobe analysis of biological tissue is now in the end phase of transition from instrumental and technique development to applications pertinent to questions of physiological relevance. The promise,implicit in early investigative efforts, is being fulfilled to an extent much greater than many had predicted. It would thus seem appropriate to briefly report studies exemplifying this, ∿. In general, the distributions of ions in tissue in a preselected physiological state produced by variations in the external environment is of importance in elucidating the mechanisms of exchange and regulation of these ions.

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