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@#Drug transportation is impeded by various barriers in the hypoxic solid tumor, resulting in compromised anticancer efficacy. Herein, a solid lipid monostearin (MS)-coated CaO2/MnO2 nanocarrier was designed to optimize doxorubicin (DOX) transportation comprehensively for chemotherapy enhancement. The MS shell of nanoparticles could be destroyed selectively by highly-expressed lipase within cancer cells, exposing water-sensitive cores to release DOX and produce O2. After the cancer cell death, the core-exposed nanoparticles could be further liberated and continue to react with water in the tumor extracellular matrix (ECM) and thoroughly release O2 and DOX, which exhibited cytotoxicity to neighboring cells. Small DOX molecules could readily diffuse through ECM, in which the collagen deposition was decreased by O2-mediated hypoxia-inducible factor-1 inhibition, leading to synergistically improved drug penetration. Concurrently, DOX-efflux-associated P-glycoprotein was also inhibited by O2, prolonging drug retention in cancer cells. Overall, the DOX transporting processes from nanoparticles to deep tumor cells including drug release, penetration, and retention were optimized comprehensively, which significantly boosted antitumor benefits.
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Objective: The objective was to evaluate the feasibility and safety of computed tomography (CT)-guided percutaneous irreversible electroporation (IRE) in porcine kidneys. Materials and Methods: Under CT guidance, two monopole probes were used to precisely puncture through the renal parenchyma into the renal hilum in nine anesthetized adult Bama miniature pigs. After which, IRE ablation was performed. Biochemical and pathological examinations were carried out 2 h, 2, 7, and 14 days after the procedure. Results: All procedures were performed successfully without any serious complications such as bleeding, infection, or death. All pigs survived until the end of the study. Pathological examinations showed that cells in the ablation area were dead within 2 days after the procedure, whereas the vascular endothelium showed only slight damage. After 2 days, endothelialization ensued and regrowth of smooth muscle cells was observed after 14 days. Hemogram tests indicated a transient increase but gradually returned to baseline levels 14 days after the procedure. Conclusion: IRE was essentially safe, however further studies on tumor ablation using several different animal models are needed
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Platinum-based chemotherapy is used for non-small cell lung cancer (NSCLC). However, it has side effects and minimum efficacy against lung cancer metastasis. In this study, platinum-curcumin complexes were loaded into pH and redox dual-responsive nanoparticles (denoted as Pt-CUR@PSPPN) to facilitate intracellular release and synergistic anti-cancer effects. Pt-CUR@PSPPN was prepared by a nano-precipitation method and had a diameter of ∼100 nm. The nanoparticles showed increased anti-cancer effects both and . In addition, Pt-CUR@PSPPN blocked PI3K/AKT signal transduction pathway and inhibited MMP2 and VEGFR2, resulting in enhanced anti-metastatic activity. Furthermore, reduced side effects were also observed. In conclusion, Pt-CUR@PSPPN provided a novel and attractive therapeutic strategy for NSCLC.
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Combination chemotherapy and nanoparticle drug delivery are two promising strategies in cancer treatment. The use of multiple therapeutic agents in combination provides synergistic effects among different drugs against cancer cells and suppresses drug resistance through distinct mechanisms of action.Nanocarriers can improve anti-tumor effects of drugs and reduce systemic toxicity through delivering drugs into the tumor tissue specially. Recently, many studies are aiming to encapsulate multiple agents into nanocarriers to optimize the anti-tumor effects. In the present review, the recent advances of nanoparticle platforms applied with co-delivering two or more drugs were summarized and the various combination strategies based on nanoparticles in oncology were discussed.
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AIM:To select an efficient way of promoting induced pluripotent stem cells ( iPSC) to differentiate into neural stem cells (NSC) by comparing 2 methods.METHODS:The culture system in method A contained SB431542 (5 mmol/L) and drosomophorin (5 mmol/L) with 100%initial cell density, while that in method B contained SB431542 (5 mmol/L) and drosomophorin (1 mmol/L) with 30%~50% initial cell density.For comparison and identification of the 2 methods, the growth state was observed under microscope , and the expression of Pax6, nestin, Sox1 and Sox2 was quantitatively detected by real-time PCR and flow cytometry .The related protein expression and the ability of spontaneous differentiation were determined by immunofluorescence analysis .RESULTS: The cells derived from method A with 5 mmol/L of SB431542 and drosomophorin and 100% initial cell density achieved the higher expression of Pax 6, nestin, Sox1 and Sox2.The growth state was better and the cells differentiated into neurons and astrocytes normally .CONCLU-SION:The method A was superior to method B , and we recommend the method A with 5 mmol/L of SB431542 and droso-mophorin and 100%initial cell density as the method for differentiating NSC .
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BACKGROUND:Many studies have showed that neural stem cells therapy is a new strategy for hypoxic-ischemic encephalopathy. OBJECTIVE:To review and analyze the status of research, transplantation strategies and mechanism of neural stem cells therapy for treatment of hypoxic-ischemic encephalopathy. METHODS:A computer-based retrieval was performed in PubMed and CNKI database to search papers published from August 2000 to August 2013 using the key words of“hypoxic-ischemic encephalopathy, neural stem cells”in English and Chinese. The papers with objective-independent and repetitive contents were excluded, and final y 39 papers were included for final analysis. RESULTS AND CONCLUSION:Neural stem celltransplantation can promote recovery of neurological function, which brings new hope to hypoxic-ischemic encephalopathy patients. But the study is at a primary stage and limited in laboratory. There are many critical factors that hinder the clinical transplantation, such as delivery path, transplantation time, single or combined transplantation, mechanisms of action. Application of neural stem cells requires further investigation.