Anticancer effect and feasibility study of hyperthermia treatment of pancreatic cancer using magnetic nanoparticles

  • Authors:
    • Lufang Wang
    • Jian Dong
    • Weiwei Ouyang
    • Xiaowen Wang
    • Jintian Tang
  • View Affiliations

  • Published online on: November 30, 2011     https://doi.org/10.3892/or.2011.1567
  • Pages: 719-726
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Abstract

We investigated the effect and feasibility of hyperthermia treatment on subcutaneous pancreatic cancer in female Kunming mice, using a murine pancreatic cancer cell line (MPC-83) established by us and found in this study to originate from epithelial pancreatic acinus. Magnetic fluid (MF) with ferromagnetic particles of about 20 nm in size was used as a heating mediator. MF was injected into the subcutaneous nodules with subaxillary regions of mice 10 days after tumor transplantation; homogeneous distribution of magnetic nanoparticles in nodules was easily detected by X-ray 24 h later. Mice were allocated to four groups as follows: no treatment (control); MF injection alone; alternating magnetic field (AMF) irradiation alone; and MF injection and hyperthermia generated by applying AMF (300 kHz, 110 Gs). The two hyperthermia-treated subgroup tumors reached central temperatures of 47 and 51˚C, respectively, for 30 min; while rectal temperature in both subgroups remained below 36˚C. Tumor growth was inhibited and survival significantly prolonged in the hyperthermia group compared with other groups (P<0.05). Tumor cells near the MF in the hyperthermia group apoptosed or necrosed immediately after hyperthermia. By day 14, there were no subcutaneous nodules; and residual magnetic nanoparticles were ingested by phagocytes. Nuclear proliferating cell nuclear antigen (PCNA) decreased in hyperthermia group tumor cells compared to the other groups; cytoplasmic heat shock protein 70 (HSP 70) was conspicuously higher immediately after hyperthermia (P<0.05). This technique had therapeutic potential and provided a new idea in the treatment of pancreatic cancer.

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March 2012
Volume 27 Issue 3

Print ISSN: 1021-335X
Online ISSN:1791-2431

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Spandidos Publications style
Wang L, Dong J, Ouyang W, Wang X and Tang J: Anticancer effect and feasibility study of hyperthermia treatment of pancreatic cancer using magnetic nanoparticles. Oncol Rep 27: 719-726, 2012.
APA
Wang, L., Dong, J., Ouyang, W., Wang, X., & Tang, J. (2012). Anticancer effect and feasibility study of hyperthermia treatment of pancreatic cancer using magnetic nanoparticles. Oncology Reports, 27, 719-726. https://doi.org/10.3892/or.2011.1567
MLA
Wang, L., Dong, J., Ouyang, W., Wang, X., Tang, J."Anticancer effect and feasibility study of hyperthermia treatment of pancreatic cancer using magnetic nanoparticles". Oncology Reports 27.3 (2012): 719-726.
Chicago
Wang, L., Dong, J., Ouyang, W., Wang, X., Tang, J."Anticancer effect and feasibility study of hyperthermia treatment of pancreatic cancer using magnetic nanoparticles". Oncology Reports 27, no. 3 (2012): 719-726. https://doi.org/10.3892/or.2011.1567