Physiological and Pathological Factors Affecting Drug Delivery to the Brain by Nanoparticles

Physiological and Pathological Factors Affecting Drug Delivery to the Brain by Nanoparticles

The prevalence of neurological/neurodegenerative diseases, such as Alzheimer's disease is known to be increasing due to an aging population and is anticipated to further grow in the decades ahead. The treatment of brain diseases is challenging partly due to the inaccessibility of therapeutic ag...

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Veröffentlicht in:Advanced science 2021-06, Vol.8 (11), p.e2002085-n/a
Hauptverfasser: Islam, Yamir, Leach, Andrew G., Smith, Jayden, Pluchino, Stefano, Coxon, Christopher R., Sivakumaran, Muttuswamy, Downing, James, Fatokun, Amos A., Teixidò, Meritxell, Ehtezazi, Touraj
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Aging
Aging - drug effects
Aging - pathology
aging brain
Blood vessels
Blood-Brain Barrier - drug effects
blood–brain barrier model
Brain - drug effects
Brain - pathology
Brain Diseases - drug therapy
Brain Diseases - pathology
Brain research
Collagen
complement activation
Disease
Drug Delivery Systems
drug delivery to the brain
Humans
immunogenicity
Nanoparticles
Nanoparticles - chemistry
Nanoparticles - therapeutic use
neurodegenerative diseases
Physiology
Review
Reviews
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container_issue 11
container_start_page e2002085
container_title Advanced science
container_volume 8
creator Islam, Yamir
Leach, Andrew G.
Smith, Jayden
Pluchino, Stefano
Coxon, Christopher R.
Sivakumaran, Muttuswamy
Downing, James
Fatokun, Amos A.
Teixidò, Meritxell
Ehtezazi, Touraj
description The prevalence of neurological/neurodegenerative diseases, such as Alzheimer's disease is known to be increasing due to an aging population and is anticipated to further grow in the decades ahead. The treatment of brain diseases is challenging partly due to the inaccessibility of therapeutic agents to the brain. An increasingly important observation is that the physiology of the brain alters during many brain diseases, and aging adds even more to the complexity of the disease. There is a notion that the permeability of the blood–brain barrier (BBB) increases with aging or disease, however, the body has a defense mechanism that still retains the separation of the brain from harmful chemicals in the blood. This makes drug delivery to the diseased brain, even more challenging and complex task. Here, the physiological changes to the diseased brain and aged brain are covered in the context of drug delivery to the brain using nanoparticles. Also, recent and novel approaches are discussed for the delivery of therapeutic agents to the diseased brain using nanoparticle based or magnetic resonance imaging guided systems. Furthermore, the complement activation, toxicity, and immunogenicity of brain targeting nanoparticles as well as novel in vitro BBB models are discussed. The treatment of brain diseases is challenging partly due to the inaccessibility of therapeutic agents to the brain. The physiology of the brain alters during neurological diseases, making treatment challenging. Nanoparticles are novel method of drug delivery, however, an understanding of biological responses such as immunogenicity and toxicity is essential for safe application.
doi_str_mv 10.1002/advs.202002085
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The treatment of brain diseases is challenging partly due to the inaccessibility of therapeutic agents to the brain. An increasingly important observation is that the physiology of the brain alters during many brain diseases, and aging adds even more to the complexity of the disease. There is a notion that the permeability of the blood–brain barrier (BBB) increases with aging or disease, however, the body has a defense mechanism that still retains the separation of the brain from harmful chemicals in the blood. This makes drug delivery to the diseased brain, even more challenging and complex task. Here, the physiological changes to the diseased brain and aged brain are covered in the context of drug delivery to the brain using nanoparticles. Also, recent and novel approaches are discussed for the delivery of therapeutic agents to the diseased brain using nanoparticle based or magnetic resonance imaging guided systems. Furthermore, the complement activation, toxicity, and immunogenicity of brain targeting nanoparticles as well as novel in vitro BBB models are discussed. The treatment of brain diseases is challenging partly due to the inaccessibility of therapeutic agents to the brain. The physiology of the brain alters during neurological diseases, making treatment challenging. Nanoparticles are novel method of drug delivery, however, an understanding of biological responses such as immunogenicity and toxicity is essential for safe application.</abstract><cop>Germany</cop><pub>John Wiley &amp; Sons, Inc</pub><pmid>34105297</pmid><doi>10.1002/advs.202002085</doi><tpages>45</tpages><orcidid>https://orcid.org/0000-0002-1576-2396</orcidid><oa>free_for_read</oa></addata></record>
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subjects Aging
Aging - drug effects
Aging - pathology
aging brain
Blood vessels
Blood-Brain Barrier - drug effects
blood–brain barrier model
Brain - drug effects
Brain - pathology
Brain Diseases - drug therapy
Brain Diseases - pathology
Brain research
Collagen
complement activation
Disease
Drug Delivery Systems
drug delivery to the brain
Humans
immunogenicity
Nanoparticles
Nanoparticles - chemistry
Nanoparticles - therapeutic use
neurodegenerative diseases
Physiology
Review
Reviews
title Physiological and Pathological Factors Affecting Drug Delivery to the Brain by Nanoparticles
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