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Arterial Vessels (arterial + vessel)

Distribution by Scientific Domains

Medical Sciences	80%

Selected Abstracts

New insights in the vascular supply of the human parotid gland,Consequences for parotid gland-sparing irradiation

HEAD & NECK: JOURNAL FOR THE SCIENCES & SPECIALTIES OF THE HEAD AND NECK, Issue 7 2010
Marjolein J. van Holten MD
Abstract Background. Xerostomia is caused by irradiation for head and neck cancer, depending on the dose to the parotid gland. To investigate which part of the parotid gland has to be spared with radiotherapy, detailed information about the vascular supply of the parotid gland is necessary. Methods. Arterial vessels of the head of a human cadaver were colored. A 3-dimensional reconstruction of the parotid gland and the arterial vessels was made and analyzed. Results. Five arterial vessels were responsible for the vascular supply of the parotid gland: the posterior auricular artery, 2 branches so far unnamed, the superficial temporal artery, and the transverse facial artery. All arteries were branches off the external carotid artery, and supplied different parts of the parotid gland. Conclusions. This study describes the detailed vascular supply of the human parotid gland. These results may contribute to improve parotid sparing radiotherapy, thus reducing complications such as xerostomia in the future. © 2009 Wiley Periodicals, Inc. Head Neck, 2009 [source]

Numerical modelling of the pressure wave propagation in the arterial flow

INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS, Issue 6-7 2003
Giuseppe Pontrelli
Abstract A differential model of blood flow through an arterial vessel is presented. It consists of a one-dimensional model describing the non-linear fluid,wall interaction coupled with a simple lumped parameter model which accounts for outlet boundary conditions. The model includes a local stiffening of the vessel and the wave propagation of disturbances due to prosthetic implantations is also studied. The non-linear problem is solved by a finite-difference method on a staggered grid and some numerical simulations are analysed and discussed. Copyright © 2003 John Wiley & Sons, Ltd. [source]

Sphingosine-1-phosphate and FTY720 as anti-atherosclerotic lipid compounds

EUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 3 2007
M. Tölle
Abstract All stages of atherosclerosis have been identified as a chronic vascular inflammatory disease. In the last few years there is increasing evidence that endogenous lysophospholipids such as sphingosine-1-phosphate (S1P) have potent anti-inflammatory properties. The S1P analogue FTY720 that has been developed as a potent, orally active, immunosuppressant in the field of transplantation and autoimmune disease has interesting effects on inflammatory processes in the arterial vessel wall. S1P targets five specific S1P receptors (S1P1,5), which are ubiquitously expressed. S1P1,3 receptor expression is identified in arterial vessels. S1P and FTY720 show potent silencing effects on some vascular proinflammatory mechanisms in endothelial and vascular smooth muscle cells. In addition, the interaction of monocytes with the vessel wall is inhibited. As shown recently, FTY720 can effectively reduce the progression of atherosclerosis in apolipoprotein E-deficient mice having a high-cholesterol diet. It is not entirely clear which S1P receptor subtype is mainly involved in this process. However, it is currently speculated that the S1P3 and probably the S1P1 is involved in the anti-atherosclerotic effects of FTY720. This review summarizes the current knowledge about S1P- and FTY720-effects on mechanisms of vascular inflammatory disease. In addition S1P receptor subtypes are identified which might be interesting for molecular drug targeting. [source]

New insights in the vascular supply of the human parotid gland,Consequences for parotid gland-sparing irradiation

The Role of the Endometrium in Endocrine Regulation of the Animal Oestrous Cycle

REPRODUCTION IN DOMESTIC ANIMALS, Issue 1 2008
T Krzymowski
Contents A critical analysis of the results of research in the function of the endometrium was carried out and a view point presented. The role of the endometrium in endocrine regulation of the oestrus cycle can be summarized as follows: 1. The transfer of prostaglandin F2, (PGF2,) from the uterus to an ovary, which causes luteolysis, occurs mainly via the lymphatic pathways. 2. The system of retrograde transfer of PGs enables PGF2, and PGE2 to reach the myometrium and endometrium with arterial blood at high concentration. In the luteal phase, PGF2,, together with the increasing concentration of progesterone, constricts the arterial vessels of the uterus; in the follicular phase and in early pregnancy, PGE2 together with oestrogen and embryonic signals, relaxes the arterial vessels. In addition, this system protects the corpus luteum from premature luteolysis during the cycle and luteolysis during early pregnancy. 3. In days 10,12 of the cycle, the blood flow in the uterus decreases by 60,70% in pigs and around 90% in sheep. This causes ischaemia and local hypoxia confirmed by the presence of hypoxia inducible factor and thus remodelling of the endometrium commences. 4. The pulsatile elevations in PGF2, concentration occurring in the blood flowing out of the uterus during the period of luteolysis and the next few days, do not result from increased PGF2, synthesis as suggested in numerous studies. They are the effect of excretion of PGF2, and its metabolites together with lymph and venous blood and tissue fluids in which prostaglandin accumulates. [source]