Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery

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Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery Publisher

Sabaghi V¹ ; Rashidiranjbar P¹ ; Davar F² ; Sharifpaghaleh E^{3, 4}

Source: Journal of Drug Delivery Science and Technology Published:2024

Abstract

TME-responsive MnO2 nanorod-based platform was synthesized through the simple and eco-friendly hydrothermal approach. Then, chitosan cross-linked tripolyphosphate (Chi-TPP) was applied to coat the surface of the MnO2 nanorod to enhance the biocompatibility of bare nanostructures. The high specific surface area (51.966 m2/g) and heterogeneous nature of MnO2@Chi-TPP nanoplatforms demonstrated a significant physical loading capacity of pharmaceutical cargo (97.116 mg/g). In-vitro release profiles demonstrated that the release of DOX and the Fenton-like reaction for enhanced therapeutic effect were induced by the demolition of MnO2 nanorod to Mn2+ under acidic conditions and high glutathione (GSH), high temperature, and high concentration of H2O2. Additionally, Mn2+ ions could function as a T1-weighted MRI contrast agent. As-synthesized nanoplatforms not only serve as a TME-responsive nanocarrier but also introduces a TME-modulating agent to produce molecular O2 and simultaneously decrease tumor hypoxia. To precise detection of the tumor microenvironment, fluorescein isothiocyanate (FITC) was well labeled on the MnO2@Chi-TPP nanoplatform. The MnO2 nanorods are known as a fluorescence signal quencher regardless of the wide absorption band in the visible spectrum through the fluorescence resonance energy transfer (FRET) effect. The in-vitro analysis proved the TME-responsiveness of the MnO2@Chi-TPP@FITC nanosystem. The recovery of the fluorescence signal in the TME introduced the MnO2@Chi-TPP@FITC nanosystem as a “turn off-on” sensor. © 2023 Elsevier B.V.

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Style	Citing Format
MLA	Sabaghi V, et al.. "Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery." Journal of Drug Delivery Science and Technology, vol. 91, no. , 2024, pp. -.
APA	Sabaghi V, Rashidiranjbar P, Davar F, Sharifpaghaleh E (2024). Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery. Journal of Drug Delivery Science and Technology, 91(), -.
Chicago	Sabaghi V, Rashidiranjbar P, Davar F, Sharifpaghaleh E. "Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery." Journal of Drug Delivery Science and Technology 91, no. (2024): -.
Harvard	Sabaghi V et al. (2024) 'Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery', Journal of Drug Delivery Science and Technology, 91(), pp. -.
Vancouver	Sabaghi V, Rashidiranjbar P, Davar F, Sharifpaghaleh E. Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery. Journal of Drug Delivery Science and Technology. 2024;91():-.
BibTex	@article{ author = {Sabaghi V and Rashidiranjbar P and Davar F and Sharifpaghaleh E}, title = {Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery}, journal = {Journal of Drug Delivery Science and Technology}, volume = {91}, number = {}, pages = {-}, year = {2024} }
RIS	TY - JOUR AU - Sabaghi V AU - Rashidiranjbar P AU - Davar F AU - Sharifpaghaleh E TI - Development of Multifunctional Mno2-Based Nanoplatforms for Hypoxia Modulation/T1-Weighted Mri/ Optical Biosensing and Targeted Drug Delivery JO - Journal of Drug Delivery Science and Technology VL - 91 IS - SP - EP - PY - 2024 ER -

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