Parenteral Lipid-Based Nanoparticles for CNS Disorders: Integrating Various Facets of Preclinical Evaluation towards More Effective Clinical Translation

Ilić, Tanja; Đoković, Jelena; Nikolić, Ines; Mitrović, Jelena R.; Pantelić, Ivana; Savić, Snežana; Savić, Miroslav M.

doi:10.3390/pharmaceutics15020443

Cited by 8 publications

(5 citation statements)

References 170 publications

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“…The use of lipid nanocarriers, such as nanoemulsions, to circumvent the barriers that prevent medication transport across the BBB has very recently brought these materials back into the spotlight. As reviewed by Ilic et al (in 2023) [53], among the various strategies studied to overcome the low-water-solubility of various central nervous system (CNS)-active drugs as well as surmount the obstacles in BBB crossing, lipid-based nanoparticles have been recognized as an excellent platform for brain targeting. Conventional dosage forms are associated with a lack of targetabiliity, often resulting in low concentrations within the brain and, hence, a suboptimal therapeutic outcome [53].…”

Section: Discussionmentioning

confidence: 99%

“…As reviewed by Ilic et al (in 2023) [53], among the various strategies studied to overcome the low-water-solubility of various central nervous system (CNS)-active drugs as well as surmount the obstacles in BBB crossing, lipid-based nanoparticles have been recognized as an excellent platform for brain targeting. Conventional dosage forms are associated with a lack of targetabiliity, often resulting in low concentrations within the brain and, hence, a suboptimal therapeutic outcome [53]. In contrast, the "HDL-like" lipid nanoemulsion type (also referred to as "LCM/ND nanoemulsions" [3,5,6] ) displays a natural tendency to target SR-BI receptors (cf.…”

Section: Discussionmentioning

confidence: 99%

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Biobased nanoemulsions for targeted drug delivery to treat dementia and aging

D'Arrigo

2023

APT

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Early changes in cerebrovascular hemodynamics and endothelial function can contribute to altered cognitive function and systemic vascular stiffness later in life. Accordingly, vascular pathology accompanies the mechanisms underlying aging. The development of chronic cerebral hypoperfusion, which leads to a lack of blood flow to the brain, is a common trait despite the various and complex pathogenic mechanisms causing these vascular alterations. Drugs or other bioactive compounds can be incorporated into a "high density lipoprotein-like" ("HDL-like") lipid nanocarrier to create a multifunctional "combination therapeutic" that can target cell-surface scavenger receptors, primarily class B type I (i.e., SR-BI). The enhanced endocytosis of the nanocarrier's drug contents into various target cells, made possible by this proposed (biomimetic-nanocarrier) therapeutic vehicle, increases the likelihood that this multitasking "combination therapeutic" will be more effective at various stages of dementia.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Biobased nanoemulsions for targeted drug delivery to treat dementia and aging

D'Arrigo

2023

APT

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“…However, platforms based on saRNA technology offer a versatile application approach. They can be administered through direct intratumoral injection or adapted to address specific challenges, such as the formidable barrier posed by the blood–brain barrier (BBB) in combatting brain tumors like GBM [ 101 , 102 , 103 ]. Overcoming the selective permeability of the BBB is crucial for effective drug delivery to the central nervous system (CNS).…”

Section: Oncolytic Virotherapy and Self-amplifying Rna Technologymentioning

confidence: 99%

Breaking Barriers: A Future Perspective on Glioblastoma Therapy with mRNA-Based Immunotherapies and Oncolytic Viruses

Guterres,

Filho,

Moura-Neto

2024

Vaccines

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The use of mRNA-based immunotherapies that leverage the genomes of oncolytic viruses holds significant promise in addressing glioblastoma (GBM), an exceptionally aggressive neurological tumor. We explore the significance of mRNA-based platforms in the area of immunotherapy, introducing an innovative approach to mitigate the risks associated with the use of live viruses in cancer treatment. The ability to customize oncolytic virus genome sequences enables researchers to precisely target specific cancer cells, either through viral genome segments containing structural proteins or through a combination of regions with oncolytic potential. This strategy may enhance treatment effectiveness while minimizing unintended impacts on non-cancerous cells. A notable case highlighted here pertains to advanced findings regarding the application of the Zika virus (ZIKV) in GBM treatment. ZIKV, a member of the family Flaviviridae, shows oncolytic properties against GBM, opening novel therapeutic avenues. We explore intensive investigations of glioblastoma stem cells, recognized as key drivers in GBM initiation, progression, and resistance to therapy. However, a comprehensive elucidation of ZIKV’s underlying mechanisms is imperative to pave the way for ZIKV-based clinical trials targeting GBM patients. This investigation into harnessing the potential of oncolytic-virus genomes for mRNA-based immunotherapies underscores its noteworthy implications, potentially paving the way for a paradigm shift in cancer treatment strategies.

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“…To name a few, whey protein, chitosan, levan, hyaluronic acid, and heparin, were tested native, in combination (e.g., protein-polysaccharide complexes), and after hydrophobic modifications (usually with octenyl-succinic anhydride, OSA) to enable the encapsulation of hydrophilic and lipophilic actives as well (28,29). This is especially important considering the fact that a number of newly synthetized active ingredients are characterized with poor water solubility (30). Some researchers showed more interest in polysaccharide-based self-assembly systems, such as chitosan.…”

Section: Materials Showing Self-assembly Promising For Drug Deliverymentioning

confidence: 99%

Self-assembled carriers as drug delivery systems: Current characterization challenges and future prospects

Pantelić,

Ilić,

Nikolić

et al. 2023

Arhiv za farmaciju

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A review of recent publications reveals an increased interest in the so-called self-assembled carriers and their applicability in drug delivery via various routes of administration. Self-assembly denotes the process of rather spontaneous formation of ordered aggregates (sometimes under specific conditions-e.g., pH, temperature, ionic strength), via diverse interactions. This process, seen in many naturally occurring substances (polysaccharides, proteins, lipids), has inspired researchers to synthetize innovative self-assembling materials or combinations of existing ones. This paper provides a review of the recently investigated self-assembling materials and the carriers they form, often belonging to the sphere of pharmaceutical nanotechnology. Self-assembled carriers may provide enhanced stability, more efficient encapsulation and/or controlled delivery of active pharmaceutical ingredients. However, the diversity of geometries obtained (spheres, polyhedrals, ellipses, discs, porous structures, etc.) presents a significant characterization challenge, often requiring the application of several complementary techniques for proper evaluation of carrier size and morphology. Commonly utilized characterization techniques for investigating physico-chemical and certain biopharmaceutical properties are discussed, along with their advantages and disadvantages. Finally, the authors offer their critical opinion on the outlook of self-assembled drug carriers.

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Parenteral Lipid-Based Nanoparticles for CNS Disorders: Integrating Various Facets of Preclinical Evaluation towards More Effective Clinical Translation

Cited by 8 publications

References 170 publications

Biobased nanoemulsions for targeted drug delivery to treat dementia and aging

Biobased nanoemulsions for targeted drug delivery to treat dementia and aging

Breaking Barriers: A Future Perspective on Glioblastoma Therapy with mRNA-Based Immunotherapies and Oncolytic Viruses

Self-assembled carriers as drug delivery systems: Current characterization challenges and future prospects

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