A large central necrotic/fibrotic area could be observed surround

A large central necrotic/fibrotic area could be observed surrounded by peripherally arranged vital tumor cells (Figure 3C). Figure 3 Analysis of contrast agent induced interior structuring of tumours. (A): Transaxial

NMR images of a mouse (face-down position) bearing two s.c. xenografts; left: HT29 colon carcinoma, right HCT8 colon carcinoma. Images were taken to the indicated time points after i.v. application of higher dosed Gd-BOPTA (0.1 mmol/kg). A time dependent alteration of contrast enhancement with initial enhancement of the tumor rim followed by a centripetal progression of the signal is observed in the HT29 tumor. The HCT8 tumor was too small for detailed analyses although a time dependent alteration Tariquidar cost of the signal could also be observed. (upper panel – grayscale, lower panel – pseudocolor) (B): Transaxial NMR images of a mouse (face-down position) bearing two s.c. HT29 xenografts 15 min and 30 min after i.v. application of Gd-BOPTA. One tumor showed strong contrast enhancement and an interior structuring click here could be observed (white arrow). (C): HE staining of the well structured left HT29 xenograft shown in (A). Depicted is a section at the side of the tumor to represent the whole structure composed of a large central necrotic/fibrotic area (white star) surrounded by peripherally arranged vital tumor cells (white arrow). Monitoring of xenograft tumor growth Apart from tumor detection the quantification of tumor burden

is one important aspect of non-invasive in vivo imaging techniques. To test whether buy Hydroxychloroquine the BT-MRI system is suitable for following s.c. xenograft growth the tumor burden was examined in 2 groups of 3 mice each bearing 2 different tumors: one group with 1411HP germ cell tumor and DLD-1 colon carcinoma, one group with HT29 colon carcinoma and DLD-1 colon carcinoma. Growth of tumors was followed using (a) calliper measurement and volume calculation and (b) BT-MRI and measurement of pixel extensions of tumor sections based on NMR images. For both methods comparable progression profiles could be observed, which was independent of Gd-BOPTA injection. A representative example

of one individual is presented in Figure 4A and 4B. In addition, all values calculated by pixel extension analyses were plotted dependent on respective values calculated by calliper measurement. This demonstrates the correlation of both applications (Figure 4C). Figure 4 Monitoring of xenograft tumor growth. (A): Transaxial NMR images of a mouse (face-down position) bearing two s.c. xenografts (left: 1411HP germ cell tumor, right: DLD-1 colon carcinoma) analysed over 5 weeks (d13, d20, d27, d34 post cell injection). Depicted images were taken 10 min after i.v. application of Gd-BOPTA. White arrows point at tumors. (B): Following tumor growth of example shown in Figure 4A as analysed by calliper measurements and volume calculation compared to analyses by pixel extension of tumor sections based on NMR images (with or without Gd-BOPTA (CA)).

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