纳米药物增强型射频肿瘤消融:胶束或脂质体载体对药物递送及治疗效果的影响
Nanodrug-enhanced radiofrequency tumor ablation: effect of micellar or liposomal carrier on drug delivery and treatment efficacy.
作者信息
Moussa Marwan, Goldberg S Nahum, Kumar Gaurav, Sawant Rupa R, Levchenko Tatyana, Torchilin Vladimir P, Ahmed Muneeb
机构信息
Laboratory for Minimally Invasive Tumor Therapies, Department of Radiology, Beth Israel Deaconess Medical Center/Harvard Medical School, Boston, MA, United States of America.
Laboratory for Minimally Invasive Tumor Therapies, Department of Radiology, Beth Israel Deaconess Medical Center/Harvard Medical School, Boston, MA, United States of America; Division of Image-guided Therapy and Interventional Oncology, Department of Radiology, Hadassah Hebrew University Medical Center, Jerusalem, Israel.
出版信息
PLoS One. 2014 Aug 18;9(8):e102727. doi: 10.1371/journal.pone.0102727. eCollection 2014.
PURPOSE
To determine the effect of different drug-loaded nanocarriers (micelles and liposomes) on delivery and treatment efficacy for radiofrequency ablation (RFA) combined with nanodrugs.
MATERIALS/METHODS: Fischer 344 rats were used (n = 196). First, single subcutaneous R3230 tumors or normal liver underwent RFA followed by immediate administration of i.v. fluorescent beads (20, 100, and 500 nm), with fluorescent intensity measured at 4-24 hr. Next, to study carrier type on drug efficiency, RFA was combined with micellar (20 nm) or liposomal (100 nm) preparations of doxorubicin (Dox; targeting HIF-1α) or quercetin (Qu; targeting HSP70). Animals received RFA alone, RFA with Lipo-Dox or Mic-Dox (1 mg i.v., 15 min post-RFA), and RFA with Lipo-Qu or Mic-Qu given 24 hr pre- or 15 min post-RFA (0.3 mg i.v.). Tumor coagulation and HIF-1α or HSP70 expression were assessed 24 hr post-RFA. Third, the effect of RFA combined with i.v. Lipo-Dox, Mic-Dox, Lipo-Qu, or Mic-Qu (15 min post-RFA) compared to RFA alone on tumor growth and animal endpoint survival was evaluated. Finally, drug uptake was compared between RFA/Lipo-Dox and RFA/Mic-Dox at 4-72 hr.
RESULTS
Smaller 20 nm beads had greater deposition and deeper tissue penetration in both tumor (100 nm/500 nm) and liver (100 nm) (p<0.05). Mic-Dox and Mic-Qu suppressed periablational HIF-1α or HSP70 rim thickness more than liposomal preparations (p<0.05). RFA/Mic-Dox had greater early (4 hr) intratumoral doxorubicin, but RFA/Lipo-Dox had progressively higher intratumoral doxorubicin at 24-72 hr post-RFA (p<0.04). No difference in tumor growth and survival was seen between RFA/Lipo-Qu and RFA/Mic-Qu. Yet, RFA/Lipo-Dox led to greater animal endpoint survival compared to RFA/Mic-Dox (p<0.03).
CONCLUSION
With RF ablation, smaller particle micelles have superior penetration and more effective local molecular modulation. However, larger long-circulating liposomal carriers can result in greater intratumoral drug accumulation over time and reduced tumor growth. Accordingly, different carriers provide specific advantages, which should be considered when formulating optimal combination therapies.
目的
确定不同载药纳米载体(胶束和脂质体)对射频消融(RFA)联合纳米药物的递送和治疗效果的影响。
材料/方法:使用Fischer 344大鼠(n = 196)。首先,对皮下单个R3230肿瘤或正常肝脏进行RFA,然后立即静脉注射荧光珠(20、100和500 nm),在4 - 24小时测量荧光强度。接下来,为研究载体类型对药物效率的影响,将RFA与阿霉素(Dox;靶向HIF - 1α)或槲皮素(Qu;靶向HSP70)的胶束(20 nm)或脂质体制剂(100 nm)联合使用。动物分别接受单纯RFA、RFA联合Lipo - Dox或Mic - Dox(静脉注射1 mg,RFA后15分钟),以及RFA联合Lipo - Qu或Mic - Qu(静脉注射0.3 mg,RFA前24小时或RFA后15分钟)。在RFA后24小时评估肿瘤凝固情况以及HIF - 1α或HSP70的表达。第三,评估RFA联合静脉注射Lipo - Dox、Mic - Dox、Lipo - Qu或Mic - Qu(RFA后15分钟)与单纯RFA相比对肿瘤生长和动物终点生存的影响。最后,比较RFA/Lipo - Dox和RFA/Mic - Dox在4 - 72小时的药物摄取情况。
结果
较小的20 nm珠子在肿瘤(100 nm/500 nm)和肝脏(100 nm)中均有更大的沉积和更深的组织渗透(p<0.05)。Mic - Dox和Mic - Qu比脂质体制剂更能抑制消融周边HIF - 1α或HSP70边缘厚度(p<0.05)。RFA/Mic - Dox在早期(4小时)肿瘤内阿霉素含量更高,但RFA/Lipo - Dox在RFA后24 - 72小时肿瘤内阿霉素含量逐渐升高(p<0.04)。RFA/Lipo - Qu和RFA/Mic - Qu在肿瘤生长和生存方面无差异。然而,与RFA/Mic - Dox相比,RFA/Lipo - Dox导致动物终点生存率更高(p<0.03)。
结论
对于射频消融,较小颗粒的胶束具有更好的渗透性和更有效的局部分子调节作用。然而,较大的长循环脂质体载体可导致肿瘤内药物随时间积累更多,并减缓肿瘤生长。因此,不同载体具有特定优势,在制定最佳联合治疗方案时应予以考虑。
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