| Autor: |
Harrington, Jamie K., Chahboune, Halima, Criscione, Jason M., Y. Li, Alice, Hibino, Narutoshi, Tai Yi, Villalona, Gustavo A., Kobsa, Serge, Meijas, Dane, Duncan, Daniel R., Devine, Lesley, Papademetri, Xenophon, Shin'oka, Toshiharu, Fahmy, Tarek M., Breuer, Christopher K. |
| Předmět: |
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| Zdroj: |
FASEB Journal; Dec2011, Vol. 25 Issue 12, p4150-4161, 12p |
| Abstrakt: |
A major limitation of tissue engineering research is the lack of noninvasive monitoring techniques for observations of dynamic changes in single tissue-engineered constructs. We use cellular magnetic resonance imaging (MRI) to track the fate of cells seeded onto functional tissue-engineered vascular grafts (TEVGs) through serial imaging. After in vitro optimization, murine macrophages were labeled with ultrasmall superparamagnetic iron oxide (USPIO) nanopartides and seeded onto scaffolds that were surgically implanted as inferior vena cava interposition grafts in SCID/bg mice. Serial MRI showed the transverse relaxation times (T2) were significantly lower immediately following implantation of USPIO-labeled scaffolds (T2=44±6.8 vs. 71±10.2 ms) but increased rapidly at 2 h to values identical to control implants seeded with unlabeled macrophages (T2=63±12 vs. 63±14 ms). This strongly indicates the rapid loss of seeded cells from the scaffolds, a finding verified using Prussian blue staining for iron containing macrophages on explanted TEVGs. Our results support a novel paradigm where seeded cells are rapidly lost from implanted scaffolds instead of developing into cells of the neovessel, as traditionally thought. Our findings confirm and validate this paradigm shift while demonstrafing the first successful application of noninvasive MRI for serial study of cellular-level processes in tissue engineering. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
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