The reported proof of principle study demonstrated the feasibility of local delivery of a c-Met inhibitor (VXc-140) in a subcutaneous xenograft tumor model. VXc-140 was formulated in a wafer delivery system for direct implantation into the tumor. Systemic and local tumor exposure of VXc-140 was analyzed. High tumor exposures coupled with fast release of compound were associated with significant tumor regression and reduction in tumor levels of phosphorylated c-Met. High VXc-140 tumor-to-plasma ratios (∼42 at the tumor periphery) were achieved. The tumor response achieved (7/11 partial response) with VXc-140 with the local delivery in the wafer (4 mg over 15 days) was comparable to the regression observed (11/15 partial response) for VXc-140 in the oral delivery (∼8 mg total administered once a day for 2 weeks). Notably, the plasma levels in animals implanted with VXc-140 wafers ranged from 2 to 4 μM, which, although higher than trough levels achieved with oral administration, were well below oral Cmax levels (∼42 μM) suggesting that toxicities associated with Cmax exposure may be reduced or eliminated by local delivery. The high tumor to plasma exposure of VXc-140 and the efficacy observed with local wafer delivery warrants further exploration into the utility of local delivery.
Keywords: PLGA; biodegradable polymers; cancer; controlled release; drug effects.
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