渗透(战争)
卵巢癌
单克隆抗体
抗体
卵巢癌
曲妥珠单抗
医学
体内
转移性肿瘤
卵巢肿瘤
癌症研究
病理
内科学
转移
癌症
生物
免疫学
乳腺癌
工程类
生物技术
运筹学
作者
Michael F. Flessner,Jaewah Choi,Kimberly Credit,Ravi Deverkadra,Karla Henderson
标识
DOI:10.1158/1078-0432.ccr-04-2332
摘要
Abstract Purpose: Despite evidence that regional chemotherapy improves the treatment of metastatic peritoneal ovarian carcinoma, monoclonal antibodies have not shown significant success in i.p. delivery. The present study was designed to address the hypothesis that convective penetration of macromolecular antineoplastic agents depends on a positive pressure difference between the i.p. therapeutic solution and the tumor. Experimental Design: Nude rats with human ovarian xenografts implanted in the abdominal wall were used in experiments to facilitate in vivo measurement of tumor pressure and the treatment of the tumor with i.p. solutions at high pressures. Penetration of 125I-labeled trastuzumab was measured with quantitative autoradiography. Results: Tumor pressure profiles showed peak pressures of 32 mm Hg with mean pressures (± SD, mm Hg) in 12 SKOV3 tumors of 9.7 ± 8.3 and in 15 OVCAR3 tumors of 12.5 ± 7.0. I.p. therapeutic dwells at 6 to 8 mm Hg (maximum feasible pressure) showed significantly less penetration of trastuzumab than in adjacent normal muscle. To establish a driving force for convection into the tumor, various maneuvers were attempted to reduce tumor pressure, including treatment with taxanes or prostaglandin E1, elimination of tumor circulation, and removal of the tumor capsule. Tumor decapsulation decreased the pressure to zero but did not enhance the penetration of antibody. Binding to specific trastuzumab receptors on each tumor was shown to be not a significant barrier to antibody penetration. Conclusions: The results only partially support our hypothesis and imply that the microenvironment of the tumor is in itself a major barrier to delivery of charged macromolecules.
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