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Journal of Innovative Optical Health Sciences, Volume. 1, Issue 2, 177(2008)

EFFECTS OF SEVERE HEMORRHAGE ON IN VIVO BRAIN AND SMALL INTESTINE MITOCHONDRIAL NADH AND MICROCIRCULATORY BLOOD FLOW

MIRA M. MANDELBAUM... EFRAT BARBIRO-MICHAELY, MICHAEL TOLMASOV and AVRAHAM MAYEVSKY* |Show fewer author(s)
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  • The Mina & Everard Goodman Faculty of Life-Sciences and The Gonda Multidisciplinary Brain Research Center Bar-Ilan University, Ramat-Gan, 52900, Israel
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    [1] [1] Vajda, K., Szabo, A. and Boros, M., “Heterogeneous microcirculation in the rat small intestine during hemorrhagic shock: Quantification of the effects of hypertonichyperoncotic resuscitation,” Eur. Surg. Res. 36, 338–344 (2004).

    [2] [2] Vatner, S. F., “Effects of hemorrhage on regional blood flow distribution in dogs and primates,” J. Clin. Invest. 54, 225–235 (1974).

    [3] [3] Zakaria, eR., Ehringer, W. D., Tsakadze, N., Li, N. and Garrison, R. N., “Direct energy delivery improves tissue perfusion after resuscitated shock,” Surgery 138, 195–203 (2005).

    [4] [4] Harbrecht, B. G., Alarcon, L. H. and Peitzman, A. B., Managment of shock. In Schwartz, S. I. (ed.), Principles of Surgery (McGrow-Hill, New York, 1994), pp. 101–122.

    [5] [5] Peng, T. C. et al., “The physiological changes of cumulative hemorrhagic shock in conscious rats,” J. Biomed. Sci. 13, 385–394 (2006).

    [6] [6] Boldt, J., “Clinical review: Hemodynamic monitoring in the intensive care unit,” Crit. Care 6, 52–59 (2002).

    [7] [7] Yu, Z. Y., Ono, S., Spatz, M. and McCarron, R. M., “Effect of hemorrhagic shock on apoptosis and energy-dependent efflux system in the brain,” Neurochem. Res. 27, 1625–1632 (2002).

    [8] [8] Jakob, S. M., “Clinical review: Splanchnic ischaemia,” Crit. Care 6, 306–312 (2002).

    [9] [9] Kraut, A., Barbiro-Michaely, E. and Mayevsky, A., “Differential effects of norepinephrine on brain and other less vital organs detected by a multisite multiparametric monitoring system,” Med. Sci. Monit. 10, BR215–BR220 (2004).

    [10] [10] Mayevsky, A. and Chance, B., “Intracellular oxidation reduction state measured in situ by a multichannel fiber-optic-surface fluorometer,” Science 217, 537–540 (1982).

    [11] [11] Mayevsky, A. and Chance, B., “Oxidation-reduction states of NADH in vivo: From animals to clinical use,” Mitochondrion 7, 330–339, (2007).

    [12] [12] Barbiro-Michaely, E., Tolmasov, M., Rinkevich-Shop, S., Sonn, J. and Mayevsky, A., “Can the ‘brain-sparing effect’ be detected in a small-animal model ,” Med. Sci. Monit. 13, BR211–BR219 (2007).

    [13] [13] Grottke, O., Henzler, D. and Rossaint, R., “Use of blood and blood products in trauma,” Best Pract. Res. Clin. Anaesthesiol. 21, 257–270 (2007).

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    MIRA M. MANDELBAUM, EFRAT BARBIRO-MICHAELY, MICHAEL TOLMASOV, AVRAHAM MAYEVSKY. EFFECTS OF SEVERE HEMORRHAGE ON IN VIVO BRAIN AND SMALL INTESTINE MITOCHONDRIAL NADH AND MICROCIRCULATORY BLOOD FLOW[J]. Journal of Innovative Optical Health Sciences, 2008, 1(2): 177

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    Paper Information

    Received: --

    Accepted: --

    Published Online: Jan. 10, 2019

    The Author Email: MAYEVSKY AVRAHAM (mayevsa@mail.biu.ac.il)

    DOI:

    CSTR:32186.14.

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology