Background and purpose: Extensive hypoxia and high interstitial fluid pressure (IFP) in the primary tumor may cause resistance to radiation treatment and promote metastatic spread. The potential of gadomelitol-based dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) in assessing the extent of hypoxia and the level of interstitial hypertension in tumors was investigated in this preclinical study.
Materials and methods: Twenty-three A-07 tumors were subjected to DCE-MRI and subsequent measurement of IFP and fraction of pimonidazole-positive hypoxic tissue (HF(Pim)). Parametric tumor images of K(trans), v(e), and V(b)(Tofts) (Tofts model) and of K(i) and V(b)(Patlak) (Patlak model) were produced by pharmacokinetic analyses of the DCE-MRI series.
Results: There was no correlation between IFP and HF(Pim) in the tumors. K(trans) and K(i) decreased significantly with increasing HF(Pim), whereas V(b)(Tofts) and V(b)(Patlak) increased significantly with increasing IFP.
Conclusion: Information on both the extent of hypoxia and the level of interstitial hypertension in A-07 tumors can be derived from a single DCE-MRI series by using gadomelitol as contrast agent.
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