References
M. V. Vorob'ev and G. B. Vainshtein, “New possibilities for the electrical impedance method of assessing the state of brain tissue”.Fiziol. Zh. SSSR,75, No. 11, 1630–1634 (1989).
B. V. Gaidar, “Methods of investigating the reactivity of brain vessels in the postoperative period,” in:Problems of the Pathology of Brain Circulation in Neurosurgical Clinical Practice [in Russian], Leningrad (1987), pp. 14–18.
Yu. N. Morgalev, N. G. Zakaraidze, and E. M. Kalozishvili, “The variability of physiological parameters as an indicator of the activity of the cerebral circulation regulatory system,”Fiziol. Zh. SSSR,75, No. 11, 1509–1514 (1989).
Yu. E. Moskalenko and V. A. Khil'ko,Principles of the Study of the Human Cerebral Vascular System [in Russian], Leningrad (1984).
Yu. E. Moskalenko, A. I. Beketov, and R. S. Orlov,The Cerebral Circulation: Physicochemical Study Techniques [in Russian], Leningrad (1984).
V. A. Khil'ko, Yu. E. Moskalenko, B. V. Gaidar, and V. E. Parfenov, “The reactivity of human cerebral trunk vessels according to the data of transcranial dopplerography,”Fiziol. Zh. SSSR,75, No. 11, 1486–1500 (1989).
S. B. Cox, T. A. Woolsey, and C. M. Rovainen, “Blood flow increases in barrel cortex during whisker stimulation,”Soc. Neurosci.,17, No. 1, 27 (1991), Abstract.
N. A. Lassen, “Brain,” in:Peripheral Circulation, P. C. Jonson (ed.), New York (1979), pp. 414–440.
U. Lindauter, A. Vilringer, and U. Dirnagl, “Characterization of CBF response to somatosensory stimulation: model and influence of anesthetics,”Am. J. Physiol.,264, H1223-H1228 (1993).
Yu. E. Moskalenko, G. B. Wainshtein, I. T. Demchenko, and A. I. Krivchenko,Biophysical Aspects of Cerebral Circulation, Oxford (1980).
J. O. Skarphedinsson, H. Harding, and P. Thoren, “Related measurements of cerebral blood flow in rats. Comparison between the hydrogen clearance method and laser Doppler flowmetry,”Acta Physiol. Scand.,134, 133–142 (1988).
R. S. Sonina and V. M. Khayutin, “The dilation of arterioles in frog submaxillaris muscle caused by visible light,”Int. J. Microcirc. (Clin. Exper.),8, 143–158 (1989).
Y. A. B. D. Wickramasinghe, L. N. Livera, S. A. Spenser, et al., “Plethimographic [sic] validation of near infra red spectroscopic monitoring of cerebral blood volume,”Arch. Dis. Child.,67, 404–411 (1992).
T. A. Woolsey and C. M. Rovainen, “Whisker barrels. A model for direct observation of changes in the cerebral microcirculation with neuronal activity,” in:Alfred Benzon Symposium 31. Copenhagen (1991), pp. 189–198.
W. Young, “H2 clearance measurement of blood flow. A review of technique and polarographic principles,”Stroke,11, 552–564 (1980).
Additional information
Laboratory of Comparative Physiology of Circulation, I. M. Sechenov Scientific Research Institute of Evolutionary Physiology and Biochemistry, Russian Academy of Sciences, Saint Petersburg, Russia; Department of Cell Biology and Physiology, Washington University School of Medicine, St. Louis, USA. Translated from Fiziologicheskii Zhurnal imeni I. M. Sechenova, Vol. 80, No. 2, pp. 144–153, February, 1994.
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Moskalenko, Y.E., Rovainen, C., Woolsey, T.A. et al. Combinations of methods for monitoring the microcirculation of the brain. Neurosci Behav Physiol 25, 266–272 (1995). https://doi.org/10.1007/BF02360216
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DOI: https://doi.org/10.1007/BF02360216