A pH and magnetic dual-response hydrogel for synergistic chemo-magnetic hyperthermia tumor therapy.
Xiaohan ZhouLongchen WangYanjun XuWenxian DuXiaojun CaiFengjuan WangYi LingHang-Rong ChenZhigang WangBing HuYuanyi ZhengPublished in: RSC advances (2018)
To overcome the toxicity of chemotherapy, increasing attention has been paid to local drug delivery systems (DDSs). pH-Sensitive hydrogels have emerged as promising DDS materials in the biomedical field due to their remarkable characteristics. However, the pH environment in tumor varies from person to person, which makes the applicability of systems based on pH challenging. In this study, we developed a contractible hydroxypropyl methyl cellulose (HPMC)/Fe 3 O 4 hydrogel with dual-response pH and magnetic properties aiming to overcome the limitations of pH-sensitive hydrogel drug delivery systems and further increase their efficiency in tumor therapy. The HPMC/Fe 3 O 4 hydrogel could act as a drug delivery system that combines pH-sensitive triggering and magnetic dual-response drug release for synergistic chemo-magnetic hyperthermia therapy. The drug delivery profile of the HPMC/Fe 3 O 4 /doxorubicin hydrochloride (DOX) hydrogel was determined in vitro and revealed a remarkable pH-sensitive performance. After synergistic chemo-magnetic hyperthermia treatment, mice with 4T1 breast cancer xenografts recovered without any recurrence or metastasis, demonstrating the synergistic effect of chemotherapy and magnetic hyperthermia therapy. Meanwhile, reduced toxicity and superior anticancer effects were achieved due to the combined effect of the pH and magnetic hyperthermia response properties. This study demonstrated the high efficacy and low toxicity of the improved design of HPMC/Fe 3 O 4 for drug delivery, which may provide a promising approach for the application of chemo-magnetic hyperthermia cancer therapy.
Keyphrases
- drug delivery
- cancer therapy
- drug release
- molecularly imprinted
- photodynamic therapy
- type diabetes
- oxidative stress
- hyaluronic acid
- tissue engineering
- squamous cell carcinoma
- stem cells
- mass spectrometry
- wound healing
- skeletal muscle
- ionic liquid
- single cell
- cell therapy
- mesenchymal stem cells
- combination therapy
- smoking cessation
- wild type