Titlebook: Application of Nanocarriers in Brain Delivery of Therapeutics; Amit Alexander Book 2024 The Editor(s) (if applicable) and The Author(s), u

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T. S. Kumar,A. Josephine,G. Dharaniin the drug delivery to the brain. The biosafety and toxicity aspect of these nanomaterials will also be discussed. Furthermore, the most recent advancements in the field of novel strategies to overcome the challenges associated with drug delivery to the brain have been discussed.

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Bahar Aslanbay Guler,Esra Imamoglu’s complexities. By offering insights into the ever-evolving landscape of in vitro cell line culture in brain research, this review aims to underscore their critical role in shaping the future of neuroscience and its potential to address pressing questions related to neurological disorders and brain

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https://doi.org/10.1007/978-981-99-2901-6gs from animal studies to clinical applications. Additionally, the limited ability to mimic the intricate neural networks and cognitive functions of the human brain remains a major obstacle. This abstract also delves into the ethical considerations surrounding the use of in vivo animal models, empha

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Introduction to Nanoparticles as a Potential Carrier for Brain Targeting,brain delivery presents numerous benefits compared to traditional DDS, despite facing significant obstacles. It boasts rapidity, patient-friendliness, and noninvasiveness; bypasses first-pass metabolism; and provides swift action. The major hindrances to utilizing NPs for DD purposes are the instabi

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Recent Advancements in Lipid Nanocarriers for Brain Delivery of Bioactives,n disorders. However, bioactives have low bioavailability, poor solubility, and inefficient delivery because of blood-central nervous system barriers. To overcome these issues, a lipid nanocarrier system was found to be a suitable strategy for delivering these bioactives. This chapter discusses lipo