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Cerebral mechanisms in cardiovascular control : studies on haemorrhage and effects of sodium

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posted on 2024-09-03, 01:44 authored by Robert Frithiof

This thesis describes experiments investigating the influence of the brain on cardiovascular adaptations to haemorrhage and excess sodium in conscious chronically prepared sheep. A continuous reduction in blood volume eventually activates a reflex that causes a fall in vascular resistance and heart rate and thereby also in arterial blood pressure. The mechanisms behind this reaction, usually referred to as the decompensatory phase, are not known in detail but it is likely to be neurally mediated. Elevated body fluid NaCl, on the other hand, increases blood pressure. This is mainly achieved by enlarging the plasma volume. However, a putative cerebral action of increased sodium concentration may also contribute to the pressor response. Infusion of hypertonic NaCl solutions is widely acclaimed as an efficient way of restoring haemorrhagic hypotension but investigations concerning the role of the brain in mediating this effect have been largely neglected.

Intracerebroventricular infusion of the unspecific opioid antagonist naloxone prior to haemorrhage significantly postponed blood loss induced hypotension, whereas the unspecific opioid agonist morphine had the opposite effect. Further studies revealed that activation of kappa- and delta-opioid receptors, but not mu-opioid receptors adjacent to the ventricular compartment, contributed to initiate haemorrhagic hypotension and bradycardia. However, blockade of these receptors delayed, but could not totally prevent the decompensatory phase.

Isoflurane anaesthesia abolished the cerebral effects of hypertonic NaCl on the circulation. As the improvement in cardiovascular function was impaired, it appears that there is a cerebral component crucial for the full effect of hypertonic NaCl resuscitation. This hypothesis was investigated in a separate study of haemorrhage, where it was shown that increased periventricular sodium concentration and cerebral angiotensin II receptors type 1 (AT1)-receptors contribute, together with plasma volume expansion, to improve systemic haemodynamics after intravenous treatment with hypertonic NaCl. Thus, resuscitation with hypertonic NaCl after haemorrhage partly depends on brain mechanisms.

Using a newly developed technique for intracerebral injections in conscious chronically prepared sheep it was also demonstrated that reversible inhibition of the neurotransmission within the paraventricular nucleus of the hypothalamus with lidocaine had no apparent effect per se but effectively abolished the increase in arterial blood pressure, central venous pressure and glomerular filtration rate as well as the decrease in plasma angiotensin II levels seen in responses to elevated cerebrospinal fluid sodium concentration. These results indicate an influence of this brain structure on the non-volume dependent cardiovascular adaptations to hypertonicity.

List of scientific papers

I. Frithiof R, Rundgren M (2006). Activation of central opioid receptors determines the timing of hypotension during acute hemorrhage-induced hypovolemia in conscious sheep. Am J Physiol Regul Integr Comp Physiol. 291(4): R987-96. Epub 2006 Apr 20
https://pubmed.ncbi.nlm.nih.gov/16627696

II. Frithiof R, Eriksson S, Rundgren M (2007). Central inhibition of opioid receptor subtypes and its effect on haemorrhagic hypotension in conscious sheep. Acta Physiol. 191(1): 25-34. Epub 2007 Jun 5
https://pubmed.ncbi.nlm.nih.gov/17550406

III. Frithiof R, Mats R, Johan U, Stefan E, Hans H (2006). Comparison between the effects on hemodynamic responses of central and peripheral infusions of hypertonic NaCl during hemorrhage in conscious and isoflurane-anesthetized sheep. Shock. 26(1): 77-86
https://pubmed.ncbi.nlm.nih.gov/16783202

IV. Frithiof R, Eriksson S, Bayard F, Svensson T, Rundgren M (2007). Intravenous hypertonic NaCl acts via cerebral sodium sensitive and angiotensinergic mechanisms to improve cardiac function in haemorrhaged conscious sheep. J Physiol. Jul 19: Epub ahead of print
https://pubmed.ncbi.nlm.nih.gov/17640936

V. Frithiof R, Rundgren M (2007). Inhibition of the hypothalamic paraventricular nucleus abolishes sodium induced blood pressure elevation in conscious sheep. [Submitted]

History

Defence date

2007-09-28

Department

  • Department of Physiology and Pharmacology

Publication year

2007

Thesis type

  • Doctoral thesis

ISBN

978-91-7357-255-2

Number of supporting papers

5

Language

  • eng

Original publication date

2007-09-07

Author name in thesis

Frithiof, Robert

Original department name

Department of Physiology and Pharmacology

Place of publication

Stockholm

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