Blood Flow and Interstitial Fluid Pressure in the Rat Submandibular Gland during Changes in Perfusion

The submandibular gland is a cell-rich encapsulated organ with high transport of fluid through the interstitial space during salivation. We hypothesized that the gland is a low-compliant tissue, i.e., that a modest increase in fluid volume will produce a rise in interstitial fluid pressure (IFP) cou...

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Bibliographic Details
Published in:Journal of dental research 2003-11, Vol.82 (11), p.899-902
Main Authors: Berggreen, E., Wiig, H., Heyeraas, K.J.
Format: Article
Language:English
Subjects:
Animals
Blood Volume
Carotid Artery, Common
Compliance
Dentistry
Electric Stimulation
Extracellular Fluid - physiology
Female
Jugular Veins
Laser-Doppler Flowmetry
Ligation
Microfluidics
Parasympathetic Nervous System - physiology
Perfusion
Pressure
Rats
Rats, Wistar
Regional Blood Flow
Submandibular Gland - blood supply
Submandibular Gland - physiology
Sympathetic Nervous System - physiology
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Summary:The submandibular gland is a cell-rich encapsulated organ with high transport of fluid through the interstitial space during salivation. We hypothesized that the gland is a low-compliant tissue, i.e., that a modest increase in fluid volume will produce a rise in interstitial fluid pressure (IFP) counteracting fluid filtration into the interstitium. To test this hypothesis, we measured IFP with micropipettes and glandular blood flow (GBF) with a laser-Doppler flowmeter during changes in perfusion. Clamping of the carotid artery or the jugular vein, or electrical stimulation of the sympathetic or parasympathetic nerve to the gland, induced changes in perfusion. Baseline IFP averaged 3.5 ± 0.5 mm Hg. Clamping of the artery reduced IFP and GBF (−56.5 ± 8.4% and −53.1 ± 6.4%, respectively), whereas clamping of the vein decreased GBF (−21.6 ± 14.3%) and increased IFP (141.2 ± 27.4%). Sympathetic nerve stimulation reduced both parameters (−86.9 ± 16.5% and −74.4 ± 7.0%, respectively). In contrast, stimulation of the parasympathetic nerve elicited an increase in GBF (133.2 ± 5.9%) and in IFP (173.3 ± 41.4%). Thus, changes in vascular volume led to concomitant changes in IFP consistent with low tissue compliance, a phenomenon of importance for fluid volume regulation.
ISSN:0022-0345
1544-0591
DOI:10.1177/154405910308201110