Biomimetic nanoparticle-driven strategies for targeted drug delivery in glioblastoma

Khushi N. Panchal; Srinivas Mutalik; Jyothsna Manikkath

doi:10.1007/s11051-024-06104-1

Biomimetic nanoparticle-driven strategies for targeted drug delivery in glioblastoma

Khushi N. Panchal, Srinivas Mutalik, Jyothsna Manikkath^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

Glioblastoma (GBM), the most prevalent primary brain tumor in adults, remains highly challenging due to its invasive nature, limited treatment effectiveness, and short median survival durations. Standard of care includes surgery, radiation, chemotherapy, and tumor treating fields; however, there has been little improvement in survival rates. Biomimetic nanoparticles (NPs), coated with cell membranes and endogenous components, have immense potential for improving chemotherapy in GBM, by imitating cellular architecture and eluding immune clearance. With more individualized and efficient drug delivery, immunotherapeutic approaches and biomimetic NPs may increase patient survival rates. This article summarizes the main research on biomimetic NPs for GBM therapy, focusing on the classification, mechanisms, advantages, and challenges, along with the advancements in the development of GBM vaccines.

Original language	English
Article number	192
Journal	Journal of Nanoparticle Research
Volume	26
Issue number	8
DOIs	https://doi.org/10.1007/s11051-024-06104-1
Publication status	Published - 08-2024

All Science Journal Classification (ASJC) codes

Bioengineering
Atomic and Molecular Physics, and Optics
General Chemistry
Modelling and Simulation
General Materials Science
Condensed Matter Physics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s11051-024-06104-1

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title = "Biomimetic nanoparticle-driven strategies for targeted drug delivery in glioblastoma",

abstract = "Glioblastoma (GBM), the most prevalent primary brain tumor in adults, remains highly challenging due to its invasive nature, limited treatment effectiveness, and short median survival durations. Standard of care includes surgery, radiation, chemotherapy, and tumor treating fields; however, there has been little improvement in survival rates. Biomimetic nanoparticles (NPs), coated with cell membranes and endogenous components, have immense potential for improving chemotherapy in GBM, by imitating cellular architecture and eluding immune clearance. With more individualized and efficient drug delivery, immunotherapeutic approaches and biomimetic NPs may increase patient survival rates. This article summarizes the main research on biomimetic NPs for GBM therapy, focusing on the classification, mechanisms, advantages, and challenges, along with the advancements in the development of GBM vaccines.",

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AU - Panchal, Khushi N.

AU - Mutalik, Srinivas

AU - Manikkath, Jyothsna

PY - 2024/8

Y1 - 2024/8

N2 - Glioblastoma (GBM), the most prevalent primary brain tumor in adults, remains highly challenging due to its invasive nature, limited treatment effectiveness, and short median survival durations. Standard of care includes surgery, radiation, chemotherapy, and tumor treating fields; however, there has been little improvement in survival rates. Biomimetic nanoparticles (NPs), coated with cell membranes and endogenous components, have immense potential for improving chemotherapy in GBM, by imitating cellular architecture and eluding immune clearance. With more individualized and efficient drug delivery, immunotherapeutic approaches and biomimetic NPs may increase patient survival rates. This article summarizes the main research on biomimetic NPs for GBM therapy, focusing on the classification, mechanisms, advantages, and challenges, along with the advancements in the development of GBM vaccines.

AB - Glioblastoma (GBM), the most prevalent primary brain tumor in adults, remains highly challenging due to its invasive nature, limited treatment effectiveness, and short median survival durations. Standard of care includes surgery, radiation, chemotherapy, and tumor treating fields; however, there has been little improvement in survival rates. Biomimetic nanoparticles (NPs), coated with cell membranes and endogenous components, have immense potential for improving chemotherapy in GBM, by imitating cellular architecture and eluding immune clearance. With more individualized and efficient drug delivery, immunotherapeutic approaches and biomimetic NPs may increase patient survival rates. This article summarizes the main research on biomimetic NPs for GBM therapy, focusing on the classification, mechanisms, advantages, and challenges, along with the advancements in the development of GBM vaccines.

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DO - 10.1007/s11051-024-06104-1

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Biomimetic nanoparticle-driven strategies for targeted drug delivery in glioblastoma

Abstract

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