Researching

Journals
  • Advanced Photonics
  • Photonics Insights
  • Advanced Photonics Nexus
  • Photonics Research
  • Advanced Imaging
  • View All Journals
  • Chinese Optics Letters
  • High Power Laser Science and Engineering
    • Articles
  • Optics
  • Physics
  • Geography
  • View All Subjects
    • Conferences
  • CIOP
  • HPLSE
  • AP
  • View All Events
    • News
    About CLP
    Search by keywords or author
    Journals >Journal of Innovative Optical Health Sciences >Volume 4 >Issue 4 >Page 409 > Article
    • Journal of Innovative Optical Health Sciences
    • Vol. 4, Issue 4, 409 (2011)
    HOW DOES ANESTHESIA AFFECT VARIOUS LEVELS OF EXPERIMENTAL TRAUMATIC BRAIN INJURY
    BARBIRO-MICHAELY EFRAT, MANOR TAMAR, ROGATSKY GENNADY, and MAYEVSKY AVRAHAM*
    Author Affiliations
  • The Mina and Everard Goodman Faculty of Life-Sciences The Leslie and Susan Gonda Multidisciplinary Brain Research Center Bar-Ilan University, Ramat-Gan, 52900, Israel
    • show less
    DOI: 10.1142/s1793545811001502 Cite this Article
    BARBIRO-MICHAELY EFRAT, MANOR TAMAR, ROGATSKY GENNADY, MAYEVSKY AVRAHAM. HOW DOES ANESTHESIA AFFECT VARIOUS LEVELS OF EXPERIMENTAL TRAUMATIC BRAIN INJURY[J]. Journal of Innovative Optical Health Sciences, 2011, 4(4): 409 Copy Citation Text show less
    References

    [1] Y. Shen, Z. Kou, C. W. Kreipke, T. Petrov, J. Hu, E. M. Haacke, "In vivo measurement of tissue damage, oxygen saturation changes and blood flow changes after experimental traumatic brain injury in rats using susceptibility weighted imaging," Magn. Reson. Imaging 25, 219-227 (2007).

    [2] H. I. Chen, N. R. Malhotra, M. Oddo, G. G. Heuer, J. M. Levine, P. D. LeRoux, "Barbiturate infusion for intractable intracranial hypertension and its effect on brain oxygenation," Neurosurgery 63, 880-886 (2008).

    [3] A. Gremmelt, U. Braun, "Analgesia and sedation in patients with head-brain trauma," Anaesthesist 44, S559-S565 (1995).

    [4] A. Zauner, T. Clausen, O. L. Alves, A. Rice, J. Levasseur, H. F. Young, R. Bullock, "Cerebral metabolism after fluid-percussion injury and hypoxia in a feline model," J. Neurosurg. 97, 643-649 (2002).

    [5] M. Czosnyka, P. J. Hutchinson, M. Balestreri, M. Hiler, P. Smielewski, J. D. Pickard, "Monitoring and interpretation of intracranial pressure after head injury," Acta Neurochir. Suppl. 96, 114-118 (2006).

    [6] W. Mauritz, I. Janciak, I. Wilbacher, M. Rusnak, "Severe traumatic brain injury in Austria IV: Intensive care management," Wien. Klin. Wochenschr. 119, 46-55 (2007).

    [7] B. Schaller, "Craniocerebral trauma — new pathophysiological and therapeutic viewpoints. 1: Management of the acute phase," Swiss. Surg. 8, 123-137 (2002).

    [8] R.M. Chesnut, L. F. Marshall, "Management of head injury. Treatment of abnormal intracranial pressure," Neurosurg. Clin. N. Am. 2, 267-284 (1991).

    [9] M. J. Kanter, R. K. Narayan, "Management of head injury. Intracranial pressure monitoring," Neurosurg. Clin. N. Am. 2, 257-265 (1991).

    [10] N. Lundberg, "Continuous recording and control of ventricular fluid pressure in neurosurgical practice," Acta Psychiatr. Scand. Suppl. 36, 1-193 (1960).

    [11] L. A. Steiner, P. J. Andrews, "Monitoring the injured brain: ICP and CBF," Br. J. Anaesth. 97, 26-38 (2006).

    [12] G. Citerio, I. Piper, M. Cormio, D. Galli, S. Cazzaniga, P. Enblad, P. Nilsson, C. Contant, I. Chambers, "Bench test assessment of the new Raumedic Neurovent- P ICP sensor: A technical report by the BrainIT group," Acta Neurochir. (Wien.) 146, 1221-1226 (2004).

    [13] "The Brain Trauma Foundation. The American Association of Neurological Surgeons. The Joint Section on Neurotrauma and Critical Care. Computed tomography scan features," J. Neurotrauma 17, 597-627 (2000).

    [14] R. M. Chesnut, L. F. Marshall, S. B. Marshall, "Medical management of intracranial pressure," in Head Injury, P. R. Cooper, Ed. (London, Williams & Wilkins, 1993), pp. 225-246.

    [15] I. Roberts, "Barbiturates for acute traumatic brain injury," Cochrane Database Syst. Rev. CD000033 (2000).

    [16] K. D. Statler, H. Alexander, V. Vagni, C. E. Dixon, R. S. Clark, L. Jenkins, P. M. Kochanek, "Comparison of seven anesthetic agents on outcome after experimental traumatic brain injury in adult, male rats," J. Neurotrauma 23, 97-108 (2006).

    [17] A. Gremmelt, U. Braun, "Analgesia and sedation in patients with head-brain trauma," Anaesthesist 44, S559-S565 (1995).

    [18] E. G. Pfenninger, A. Reith, D. Breitig, A. Grunert, F. W. Ahnefeld, "Early changes of intracranial pressure, perfusion pressure, and blood flow after acute head injury. Part 1: An experimental study of the underlying pathophysiology," J. Neurosurg. 70, 774-779 (1989).

    [19] E. Bedell, D. S. Prough, "Anesthetic management of traumatic brain injury," Anesthesiol. Clin. North Am. 20, 417-439 (2002).

    [20] F. S. Kahveci, N. Kahveci, T. Alkan, B. Goren, E. Korfali, K. Ozluk, "Propofol versus isoflurane anesthesia under hypothermic conditions: Effects on intracranial pressure and local cerebral blood flow after diffuse traumatic brain injury in the rat," Surg. Neurol. 56, 206-214 (2001).

    [21] A. Zauner, W. P. Daugherty, M. R. Bullock, D. S. Warner, "Brain oxygenation and energy metabolism. Part I: Biological function and pathophysiology," Neurosurg. 51, 289-301 (2002).

    [22] A. Mayevsky, "Biochemical and physiological activities of the brain as in vivomarkers of brain pathology," in Cerebral, Revascularization, E. F. Bernstein, A. D. Callow, A. N. Nicolaides, E. G. Shifrin, Eds. (Med-Orion Pub., 1993), pp. 51-69.

    [23] A. Mayevsky, "Brain NADH redox state monitored in vivo by fiber optic surface fluorometry," Brain Res. Rev. 319, 49-68 (1984).

    [24] D. Arvidsson, H. Svensson, U. Haglund, "Laser Doppler flowmetry for estimating liver blood flow," Am. J. Physiol. 254, G471-G476 (1988).

    [25] R. L. Haberl, M. L. Heizer, A. Marmarou, E. F. Ellis, "Laser Doppler assessment of brain microcirculation: Effect of systemic alterations," Am. J. Physiol. 256, H1247-H1254 (1989).

    [26] U. Dirnagl, B. Kaplan, M. Jacewicz, W. Pulsinelli, "Continuous measurement of cerebral cortical blood flow by laser Doppler flowmetry with a rat stroke model," J. Cereb. Blood Flow Metab. 9, 589-596 (1989).

    [27] A. Mayevsky, G. G. Rogatsky, "Mitochondrial function in vivo evaluated by NADH fluorescence: From animal models to human studies," Am. J. Physiol. Cell Physiol. 292, C615-C640 (2007).

    [28] C. E. Dixon, B. G. Lyeth, J. T. Povlishock, R. L. Findling, R. J. Hamm, A. Marmarou, H. F. Young, R. L. Hayes, "A fluid percussion model of experimental brain injury in the rat: Neurological, physiological and histological characterizations," J. Neurosurg. 67, 110-119 (1987).

    [29] H. G. Sullivan, J. Martinez, D. P. Becker, J. D. Miller, R. Griffith, A. O. Wist, "Fluid-percussion model of mechanical brain injury in the cat," J. Neurosurg. 45, 521-534 (1976).

    [30] C. E. Dixon, R. L. Hayes, "Fluid percussion and cortical impact models of brain injury," in Neurotrauma, R. K. Narayan, J. E. Wilberger, J. T. Povlishock, Eds. (McGraw-Hill, New York, 1996), pp. 1337-1356.

    [31] F. Y. Sun, A. I. Faden, "N-methyl-D-aspartate receptors mediate post-traumatic increases of protein kinase C in rat brain," Brain Res. 661, 63-69 (1994).

    [32] M. J. Ahn, E. R. Sherwood, D. S. Prough, C. Y. Lin, D. S. DeWitt, "The effects of traumatic brain injury on cerebral blood flow and brain tissue nitric oxide levels and cytokine expression," J. Neurotrauma 21, 1431-1442 (2004).

    [33] D. S. Prough, G. C. Kramer, T. Uchida, R. T. Stephenson, H. L. Hellmich, D. S. Dewitt, "Effects of hypertonic arginine on cerebral blood flow and intracranial pressure after traumatic brain injury combined with hemorrhagic hypotension," Shock 26, 290-295 (2006).

    [34] N. Marklund, S. Sihver, B. Langstrom, M. Bergstrom, L. Hillered, "Effect of traumatic brain injury and nitrone radical scavengers on relative changes in regional cerebral blood flow and glucose uptake in rats," J. Neurotrauma 19, 1139-1153 (2002).

    [35] T. Manor, E. Barbiro-Michaely, G. Rogatsky, A. Mayevsky, "Real-time multi-site multi-parametric monitoring of rat brain subjected to traumatic brain injury," Neurol. Res. 30, 1075-1083 (2008).

    [36] J. K. Muir, M. Boerschel, E. F. Ellis, "Continuous monitoring of post-traumatic cerebral blood flow using laser-Doppler flowmetry," J. Neurotrauma 9, 355-362 (1992).

    [37] H. J. Thompson, J. Lifshitz, N. Marklund, M. S. Grady, D. I. Graham, D. A. Hovda, T. K. McIntosh, "Lateral fluid percussion brain injury: A 15-year review and evaluation," J. Neurotrauma 22, 42-75 (2005).

    [38] P. Lipton, "Ischemic cell death in brain neurons," Physiol. Rev. 79, 1431-1568 (1999).

    [39] E. Barbiro-Michaely, G. Bachbut, A. Mayevsky, "Effects of compression injury on brain mitochondrial and tissue viability evaluated by multiparametric monitoring system," Proc. SPIE 6848, 68480M-1-68480M-8 (2008).

    [40] M. L. Prins, S. M. Lee, C. L. Cheng, D. P. Becker, D. A. Hovda, "Fluid percussion brain injury in the developing and adult rat: A comparative study of mortality, morphology, intracranial pressure and mean arterial blood pressure," Brain Res. Dev. Brain Res. 95, 272-228 (1996).

    [41] I. Yamakami, T. K. McIntosh, "Effects of traumatic brain injury on regional cerebral blood flow in rats as measured with radiolabeled microspheres," J. Cereb. Blood Flow Metab. 9, 117-124 (1989).

    [42] L. E. Thibault, D. F. Meaney, B. J. Anderson, A. Marmarou, "Biomechanical aspects of a fluid percussion model of brain injury," J. Neurotrauma 9, 311-322 (1992).

    [43] G. Rogatsky, A. Mayevsky, N. Zarchin, A. Doron, "Continuous multiparametric monitoring of brain activities following fluid-percussion injury in rats: Preliminary results," J. Basic Clin. Physiol. Pharmacol. 7, 23-43 (1996).

    [44] D. F. Kelly, R. K. Kordestani, N. A. Martin, T. Nguyen, D. A. Hovda, M. Bergsneider, D. L. McArthur, D. P. Becker, "Hyperemia following traumatic brain injury: Relationship to intracranial hypertension and outcome," J. Neurosurg. 85, 762-771 (1996).

    [45] M. J. Rosner, S. D. Rosner, A. H. Johnson, "Cerebral perfusion pressure: Management protocol and clinical results," J. Neurosurg. 83, 949-962 (1995).

    [46] M. J. Rosner, S. Daughton, "Cerebral perfusion pressure management in head injury," J. Trauma 30, 933-940 (1990).

    [47] B. H. Verweij, J. P. Muizelaar, F. C. Vinas, P. L. Peterson, Y. Xiong, C. P. Lee, "Impaired cerebral mitochondrial function after traumatic brain injury in humans," J. Neurosurg. 93, 815-820 (2000).

    [48] R. Vagnozzi, A. Marmarou, B. Tavazzi, S. Signoretti, P. D. Di, B. F. del, A. M. Amorini, G. Fazzina, S. Sherkat, G. Lazzarino, "Changes of cerebral energy metabolism and lipid peroxidation in rats leading to mitochondrial dysfunction after diffuse brain injury," J. Neurotrauma 16, 903-913 (1999).

    [49] X. B. Jiang, K. Ohno, L. Qian, B. Tominaga, T. Kuroiwa, T. Nariai, K. Hirakawa, "Changes in local cerebral blood flow, glucose utilization, and mitochondrial function following traumatic brain injury in rats," Neurol. Med. Chir. (Tokyo) 40, 16-28 (2000).

    [50] A. Mayevsky, G. G. Rogatsky, "Mitochondrial function in vivo evaluated by NADH fluorescence: From animal models to human studies," Am. J. Physiol. Cell Physiol. 292, C615-C640 (2007).

    [51] B. J. McGrath, M. J. Matjasko, "Anesthesia and head trauma," New Horiz. 3, 523-533 (1995).

    [52] D. S. Warner, S. Takaoka, B. Wu, P. S. Ludwig, R. D. Pearlstein, A. D. Brinkhous, F. Dexter, "Electroencephalographic burst suppression is not required to elicit maximal neuroprotection from pentobarbital in a rat model of focal cerebral ischemia," Anesthesiology 84, 1475-1484 (1996).

    [53] G. K. Shiu, E. M. Nemoto, J. Nemmer, "Dose of thiopental, pentobarbital, and phenytoin for maximal therapeutic effects in cerebral ischemic anoxia," Crit. Care Med. 11, 452-459 (1983).

    [54] M. M. Todd, J. Weeks, "Comparative effects of propofol, pentobarbital, and isoflurane on cerebral blood flow and blood volume," J. Neurosurg. Anesthesiol. 8, 296-303 (1996).

    [55] K. S. Hendrich, P. M. Kochanek, J. A. Melick, J. K. Schiding, K. D. Statler, D. S. Williams, D. W. Marion, C. Ho, "Cerebral perfusion during anesthesia with fentanyl, isoflurane, or pentobarbital in normal rats studied by arterial spin-labeled MRI," Magn. Reson. Med. 46, 202-206 (2001).

    [56] J. E. Bazin, "Effects of anesthetic agents on intracranial pressure," Ann. Fr. Anesth. Reanim. 16, 445-452 (1997).

    [57] A. Gremmelt, U. Braun, "Analgesia and sedation in patients with head-brain trauma," Anaesthesist 44, S559-S565 (1995).

    [58] K. H. Reid, M. Paskitti, S. Z. Guo, T. Schmelzer, V. Iyer, "Experience with ketamine and sodium pentobarbital as anesthetics in a rat model of cardiac arrest and resuscitation," Resuscitation 57, 201-210 (2003).

    [59] F. A. Beland, T. C. Schmitt, N. F. Fullerton, J. F. Young, "Metabolism of chloral hydrate in mice and rats after single and multiple doses," J. Toxicol. Environ. Health A 54, 209-226 (1998).

    [60] H. I. Chen, N. R. Malhotra, M. Oddo, G. G. Heuer, J. M. Levine, P. D. LeRoux, "Barbiturate infusion for intractable intracranial hypertension and its effect on brain oxygenation," Neurosurg. 63, 880-886 (2008).

    Abstract
    Get PDF
    Figures&Tables (0)
    Equations (0)
    References (60)
    Get Citation
    Copy Citation Text
    BARBIRO-MICHAELY EFRAT, MANOR TAMAR, ROGATSKY GENNADY, MAYEVSKY AVRAHAM. HOW DOES ANESTHESIA AFFECT VARIOUS LEVELS OF EXPERIMENTAL TRAUMATIC BRAIN INJURY[J]. Journal of Innovative Optical Health Sciences, 2011, 4(4): 409
    Download Citation
    Tools
    Share
    Save the article for my favorites
    Paper Information
    Recommended Topics
    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology