POSSIBLE ROLE OF NITRIC OXIDE IN REGULATION OF MICROCIRCULATION IN THE ORAL CAVITY TISSUES OF RAT

  • Dekanosidze M. New Vision University, Georgia
  • Saganelidze Kh. New Vision University, Georgia
  • Mamaladze M. Tbilisi State Medical University, Georgia
  • Sakvarelidze N. Tbilisi State Medical University, Georgia
  • Diasamidze G. Association of Dentists of Georgia, Georgia
  • Mitagvaria N. Beritashvili Center for Experimental Biomedicine, Georgia
DOI: https://doi.org/10.31435/rsglobal_ws/28022019/6353
Keywords: Nitric Oxide, L-NAME, local blood flow, oral tissue, rat

Abstract

Possible role of Nitric oxide (NO) in terms formation of basal blood flow level in oral cavity tissue is studied using the method of hydrogen electrochemical generation in anesthetized rats.
It was found that NO plays a leading role in oral mucosa and submandibular gland basal blood flow regulation and does not have any significant effect on blood circulation of the lower snout tissue.

References

Adams R.N. Ekectrochemistry at solid electrodes. New York, Marcel Dekker Inc., 1969.

Aukland K. Hydrogen polarography in measurement of local blood flow; Theoretical and empirical basis. Acta neurol. Scand., 1965, 41, 14, Suppl., p.42-45.

Boulanger C., Luscher T.F. Release of endothelin from the porcine aorta. Inhibition by endothelium-derived nitric oxide. J. Clin. Invest., 1990, 85, 587-562.

Edwall L. Some effects of sympathetic nerve activation in oral tissues as studied by tracer disappearance. Thesis, Stockholm, 1971.

Gardiner S.M., Kemp P.A., Bennet T. Effect of N-nitro-L-arginine methyl ester on vasodilator responses to acetilcholine, 5’-N-ethylcarboxamidoadenosine or sambutamol in conscious rats. Br. J. Pharmacol., 1991, 103, 1752-1758.

Kim S., Lipowsky S., Usami S., Chien S. Arteriovenous distribution of hemodynamic parameters in the rat dental pulp. Microvasc. Res., 1984, 27, 28-36.

Koss M.C., Yu Y. Tole of Nitric oxide in maintenance of basal oral tissue blood flow in anesthetized cats. GENERAL Pharmacology, 2000, 35, 3, 159-164.

Rees D.D., Palmer R., Schulz H., Hodson H., Moncada S. Characterization of three inhibitors of endothelial nitric oxide syntheses in vitro and in vivo Br. J. Pharmacol., 1990, 101, 746-751.

Roberts Z., Koss M. Nitric oxide regulation of lingual blood flow in the rat. Nitric Oxide, 2001, 5, 271-277.

Silverman J.D. and Kruger L. An interpretation of dental innervations based upon the pattern calcitonin gene-related peptide (CGRP)-immunoreactive thin sensory axons. Somatosens. Res., 1987, 5, 157-164.

Stosseck K., Lubbers D.W. Determination of microflow of the cerebral cortex by means of electrochemically generated hydrogen. In: Brain and Blood Flow (Ed. R.W. Russel). London, 1970, pp.80-84.

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Published
2019-02-28
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How to Cite
Dekanosidze M., Saganelidze Kh., Mamaladze M., Sakvarelidze N., Diasamidze G., & Mitagvaria N. (2019). POSSIBLE ROLE OF NITRIC OXIDE IN REGULATION OF MICROCIRCULATION IN THE ORAL CAVITY TISSUES OF RAT. World Science, 2(2(42), 4-9. https://doi.org/10.31435/rsglobal_ws/28022019/6353
Issue
Vol 2 No 2(42) (2019): World Science
Section
Medicine

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