PURPOSE: To examine the feasibility of using the MRI blood pool agent NC100150 for evaluation of tumor blood volume (TBV) estimates by both dynamic contrast-enhanced MRI (DCE-MRI) and susceptibility contrast MRI assays in an experimental tumor. Contrast agent clearance (K(trans); depends on perfusion and permeability) from the DCE-MRI time curves was estimated, and changes in TBV and K(trans) were measured after administration of two drugs that reduce perfusion by different mechanisms. METHODS AND MATERIALS: The DCE-MRI experiments were simulated with expected physiologic values for the C3H mouse mammary carcinoma. The C3H tumor was examined by DCE-MRI and susceptibility contrast MRI with NC100150 (NC100150 Injection, Clariscan; Amersham Health, Oslo, Norway) after treatment with either hydralazine or combretastatin (Oxigene, Boston, MA). RESULTS: Simulations showed that reliable estimates of changes in TBV and K(trans) could be performed with DCE-MRI. Hydralazine was shown to reduce TBV as measured by both assays and to reduce K(trans). Dynamic contrast-enhanced MRI also suggested that TBV and K(trans) were reduced in combretastatin-treated tumors, and the TBV reduction was confirmed by susceptibility contrast MRI. Data suggested the drug to affect mainly the total TBV, whereas microvessels as such seemed less altered. CONCLUSION: The study supports the use of the combined DCE-MRI and susceptibility contrast MRI assay with a blood pool agent in characterizing tumors and their response to treatment.
PURPOSE: To examine the feasibility of using the MRI blood pool agent NC100150 for evaluation of tumor blood volume (TBV) estimates by both dynamic contrast-enhanced MRI (DCE-MRI) and susceptibility contrast MRI assays in an experimental tumor. Contrast agent clearance (K(trans); depends on perfusion and permeability) from the DCE-MRI time curves was estimated, and changes in TBV and K(trans) were measured after administration of two drugs that reduce perfusion by different mechanisms. METHODS AND MATERIALS: The DCE-MRI experiments were simulated with expected physiologic values for the C3H mouse mammary carcinoma. The C3H tumor was examined by DCE-MRI and susceptibility contrast MRI with NC100150 (NC100150 Injection, Clariscan; Amersham Health, Oslo, Norway) after treatment with either hydralazine or combretastatin (Oxigene, Boston, MA). RESULTS: Simulations showed that reliable estimates of changes in TBV and K(trans) could be performed with DCE-MRI. Hydralazine was shown to reduce TBV as measured by both assays and to reduce K(trans). Dynamic contrast-enhanced MRI also suggested that TBV and K(trans) were reduced in combretastatin-treated tumors, and the TBV reduction was confirmed by susceptibility contrast MRI. Data suggested the drug to affect mainly the total TBV, whereas microvessels as such seemed less altered. CONCLUSION: The study supports the use of the combined DCE-MRI and susceptibility contrast MRI assay with a blood pool agent in characterizing tumors and their response to treatment.
Authors: Lotte B Bertelsen; Yuan Yuan Shen; Thomas Nielsen; Hans Stødkilde-Jørgensen; G Kenneth Lloyd; Dietmar W Siemann; Michael R Horsman Journal: Int J Radiat Biol Date: 2011-11 Impact factor: 2.694
Authors: Xin Li; William D Rooney; Csanád G Várallyay; Seymur Gahramanov; Leslie L Muldoon; James A Goodman; Ian J Tagge; Audrey H Selzer; Martin M Pike; Edward A Neuwelt; Charles S Springer Journal: J Magn Reson Date: 2010-07-31 Impact factor: 2.229