Basic fibroblast growth factor infusion increases tumour vascularity, blood flow and chemotherapy uptake.

Tumour response depends on intratumoural cytotoxic concentration, which varies with tumour vascularity. We determined whether basic fibroblast growth factor (bFGF) infusion increased tumour vascularity, blood flow and cytotoxic drug uptake. The effect of interstitial and systemic bFGF infusion was compared with that of saline-infused controls using animal HSN and K12/TR tumour models.

Effect of manipulation of primary tumour vascularity on metastasis in an adenocarcinoma model.

One explanation for the clinical association between tumour vascularity and probability of metastasis is that increased primary tumour vascularity enhances haematogenous dissemination by offering greater opportunity for tumour cell invasion into the circulation (intravasation). We devised an experimental tumour metastasis model that allowed manipulation of primary tumour vascularity with differential exposure of the primary and metastatic tumour site to angiogenic agents. We used this model to assess the effects of local and systemic increases in the level of the angiogenic agent basic fibroblast growth factor on metastasis.

Continuous angiotensin II infusion increases tumour: normal blood flow ratio in colo-rectal liver metastases.

Insufficient blood flow within colo-rectal hepatic metastases is a factor which may limit drug delivery to, and thus the response of, these tumours to regional chemotherapy. Loco-regional flow may be manipulated pharmacologically to enhance the tumour blood flow relative to that of the normal liver. However, as yet, only transient effects have been studied.

Correlation between tumour blood flow and fluorouracil distribution in a hypovascular liver metastasis model.

The poor response of colorectal liver metastases to fluorinated pyrimidine chemotherapy may be due to poor drug penetration into the tumour. Chemotherapy delivered by the blood to well perfused areas of tumour must reach less well perfused areas by diffusion. This study examined the relationship between intratumoural blood flow and drug uptake in a hypovascular liver metastasis animal model.

In vivo hyperpolarized 129Xe NMR spectroscopy in tumors.

The first in vivo hyperpolarized 129Xe NMR study in experimental tumors is presented. Hyperpolarized 129Xe was dissolved in solutions, and was injected intratumorally in GH-3 prolactinomas in rats and RIF-1 fibrosarcomas in mice. The 129Xe NMR spectra and apparent spin-lattice relaxation times in the two tumor types present characteristic differences.