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Typus
KomplettPlagiat
Bearbeiter
Hindemith
Gesichtet
Yes.png
Untersuchte Arbeit:
Seite: 6, Zeilen: 21-30
Quelle: Van Oostrom et al 2008
Seite(n): 1380, 1381, Zeilen: 1380: r. Spalte: 15 ff.; 1381: l. Spalte: 1 ff.
Furthermore, FSS is almost impossible to measure in small collaterals. Pipp and colleagues[44] demonstrated that sustained, elevated FSS in their arteriovenous shunt model further significantly increased the size of collaterals, thus establishing that FSS is a dominant morphogenic force in collateral growth.

Collaterals increase their diameter up to 20 times during arteriogenesis, which is possible through mitosis of vascular cells[45]. Given that the collateral vessels grow in length as well as in width, the expanding vessel arranges itself in loops and turns to accommodate the extra length. This gives the vessels a typical corkscrew pattern and causes energy loss[10].


10. Heil, M., et al., Arteriogenesis versus angiogenesis: similarities and differences. J Cell Mol Med, 2006. 10(1): p. 45-55.

44. Pipp, F., et al., Elevated fluid shear stress enhances postocclusive collateral artery growth and gene expression in the pig hindlimb. Arterioscler Thromb Vasc Biol, 2004. 24(9): p. 1664-8.

45. Wolf, C., et al., Vascular remodeling and altered protein expression during growth of coronary collateral arteries. J Mol Cell Cardiol, 1998. 30(11): p. 2291-305.

Furthermore, FSS is almost impossible to measure in small collaterals.

[Seite 1381]

Pipp and colleagues [14] demonstrated that sustained, elevated FSS in their arteriovenous shunt model further, significantly increased the size of collaterals, thus establishing that FSS is a dominant morphogenic power in collateral growth.

Collaterals increase their diameter up to 20 times during arteriogenesis, which is possible through mitosis of vascular cells [15]. Given that the collateral vessels grow in length as well as in width, the expanding vessel arranges itself in loops and turns to accommodate the extra length. This gives the vessels a typical corkscrew pattern [16] and causes energy loss.


14. Pipp, F., Boehm, S., Cai, W. J., Adili, F., Ziegler, B., Karanovic, G., Ritter, R., Balzer, J., Scheler, C., Schaper, W., Schmitz-Rixen, T. (2004) Elevated fluid shear stress enhances postocclusive collateral artery growth and gene expression in the pig hind limb. Arterioscler. Thromb. Vasc. Biol. 24, 1664–1668.

15. Wolf, C., Cai, W. J., Vosschulte, R., Koltai, S., Mousavipour, D., Scholz, D., Afsah-Hedjri, A., Schaper, W., Schaper, J. (1998) Vascular remodeling and altered protein expression during growth of coronary collateral arteries. J. Mol. Cell. Cardiol. 30, 2291–2305.

16. Heil, M., Eitenmuller, I., Schmitz-Rixen, T., Schaper, W. (2006) Arteriogenesis versus angiogenesis: similarities and differences. J. Cell. Mol. Med. 10, 45–55.

Anmerkungen

Ein Verweis auf die Quelle fehlt.

Sichter
(Hindemith), SleepyHollow02

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