A Snapshot on the Current Status of Alzheimer’s Disease, Treatment Perspectives, in-Vitro and in-Vivo Research Studies and Future Opportunities (original) (raw)
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Chemical & Pharmaceutical Bulletin, 2019
Alzheimer's Disease (AD) is one of the most challenging diseases faced by humankind. AD is still not classified as curable because of the complex structure of pathologies underlying it. As the mean life expectancy of the world population constantly increases, the prevalence of AD and treatment costs for AD also grow rapidly. Current state of the art for AD treatment mainly consists of palliative therapy aimed at providing symptomatic relief and improving the standard of living in patients with AD. However, different research groups are working on more effective and safe drug delivery options aimed at both symptomatic relief and treatment of the underlying mechanisms. In this review, the current prevalence of AD, health costs, pathologies, and available treatment options including the ones in the market and/or under trial have been reviewed. Data in the existing literature have been presented, and future opportunities have been discussed. It is our belief that these nanotechnological products provide the required efficacy and safety profiles to enable these formulations go through phase studies and enter the market after regulatory authority approval, as with cancer. Last, but not the least the metabolomic studies will be providing useful informative data on the early diagnosis of AD, thus may be clinical implications might be delayed with the administration of therapeutic agents at the initial state of the disease.
Nanomedicine in the Management of Alzheimer’s Disease: State-of-the-Art
Biomedicines
Alzheimer’s disease (AD) is a deadly, progressive, and irreversible brain condition that impairs cognitive abilities. Globally, it affects 32.6 million individuals, and if no viable therapies are available by 2050, that figure might rise to 139 million. The current course of treatment enhances cognitive abilities and temporarily relieves symptoms, but it does not halt or slow the disease’s development. Additionally, treatments are primarily offered in conventional oral dosage forms, and conventional oral treatments lack brain specialization and cause adverse effects, resulting in poor patient compliance. A potential nanotechnology-based strategy can improve the bioavailability and specificity of the drug targeting in the brain. Furthermore, this review extensively summarizes the applications of nanomedicines for the effective delivery of drugs used in the management of AD. In addition, the clinical progress of nanomedicines in AD is also discussed, and the challenges facing the clin...
Alzheimer’s Disease: An Overview of Major Hypotheses and Therapeutic Options in Nanotechnology
Nanomaterials, 2020
Alzheimer’s disease (AD), a progressively fatal neurodegenerative disorder, is the most prominent form of dementia found today. Patients suffering from Alzheimer’s begin to show the signs and symptoms, like decline in memory and cognition, long after the cellular damage has been initiated in their brain. There are several hypothesis for the neurodegeneration process; however, the lack of availability of in vivo models makes the recapitulation of AD in humans impossible. Moreover, the drugs currently available in the market serve to alleviate the symptoms and there is no cure for the disease. There have been two major hurdles in the process of finding the same—the inefficiency in cracking the complexity of the disease pathogenesis and the inefficiency in delivery of drugs targeted for AD. This review discusses the different drugs that have been designed over the recent years and the drug delivery options in the field of nanotechnology that have been found most feasible in surpassing ...
Nanomedicines in the Management of Alzheimer’s Disease: Current View and Future Prospects
Frontiers in Aging Neuroscience
Alzheimer’s disease (AD) is a kind of dementia that creates serious challenges for sufferers’ memory, thinking, and behavior. It commonly targeting the aging population and decay the brain cells, despite attempts have been performed to enhance AD diagnostic and therapeutic techniques. Hence, AD remains incurable owing to its complex and multifactorial consequences and still there is lack of appropriate diagnostics/therapeutics option for this severe brain disorder. Therefore, nanotechnology is currently bringing new tools and insights to improve the previous knowledge of AD and ultimately may provide a novel treatment option and a ray of hope to AD patients. Here in this review, we highlighted the nanotechnologies-based findings for AD, in both diagnostic and therapeutic aspects and explained how advances in the field of nanotechnology/nanomedicine could enhance patient prognosis and quality of life. It is highly expected these emerging technologies could bring a research-based revo...
Nanotechnology-based drug delivery systems for the treatment of Alzheimer’s disease
International Journal of Nanomedicine, 2015
Alzheimer's disease is a neurological disorder that results in cognitive and behavioral impairment. Conventional treatment strategies, such as acetylcholinesterase inhibitor drugs, often fail due to their poor solubility, lower bioavailability, and ineffective ability to cross the blood-brain barrier. Nanotechnological treatment methods, which involve the design, characterization, production, and application of nanoscale drug delivery systems, have been employed to optimize therapeutics. These nanotechnologies include polymeric nanoparticles, solid lipid nanoparticles, nanostructured lipid carriers, microemulsion, nanoemulsion, and liquid crystals. Each of these are promising tools for the delivery of therapeutic devices to the brain via various routes of administration, particularly the intranasal route. The objective of this study is to present a systematic review of nanotechnology-based drug delivery systems for the treatment of Alzheimer's disease.
An Overview on Global Trends in Nanotechnological Approaches for Alzheimer Therapy
Current Drug Metabolism, 2015
Despite extensive research for over two decades, the medical science is yet to assign the exact aetiology and mode of progression of Alzheimer's disease (AD). The modern era of AD drug development began with the proposal of the cholinergic hypothesis of memory impairment. Since then, despite the proposal and phase trials of many therapeutic options, only few drugs have shown some efficacy and safety. The reasons behind this have been many including the ineffectiveness of tested drugs and inadequacy of clinical development methods. In this manuscript , we present an account of modern structural, functional and molecular imaging developed for AD therapy. A comprehensive review of all the current and future treatment options for AD, ranging from cholinergic drugs, NMDA receptor antagonist, immunotherapy, drugs reducing A production, and drugs targeting tau protein and mitochondrial dysfunction has also been provided. However, the failure of all the proposed treatment options to provide a complete cure of AD has been pushing for the need of new therapies. The recent advent of nano-drugs has been proposed to provide crucial breakthroughs in AD therapy. Hence, a detailed outline of the usage and applications of nano-drugs in AD therapy, and outstanding developments in nanodrug metabolism and disposition has been discussed.
Nanodelivery systems for Alzheimer’s disease: Prospects of natural therapeutic agents
Journal of Applied Pharmaceutical Science
Diseases that cause deterioration of the neurons are many and Alzheimer's disease (AD) is a typical example. The prevalence of AD is increasing with a huge impact on the family, society, and the economy of nations. The central nervous system and its periphery have barriers which are crucial interfaces preventing the entrance of awkward materials. Among these barriers, the blood-brain barrier (BBB) is the most selective and comprises cells coupled with fitted intersections. Nanosized carriers have the prospect for administering drugs to the brain and examples include nanoemulsions, those based on solid lipids and those based on solid and liquid lipids. These formulations can encapsulate active molecules and target necessary transport systems in the brain, thus enabling drug uptake through the BBB. Nanoparticles are of different types and are obtained using diverse techniques and materials. What is common to all nanocarriers is the small sizes and specificity in site targeting. Conventional drugs used in the treatment of AD and bioactive agents can be designed as nanocarriers for improved efficacy. This paper elucidates the use of nanoparticles in managing AD while touching on the prospects of natural therapeutic agents and highlighting future perspectives.
Expert opinion on drug delivery, 2018
Brain is supposed to be the most complicated part of the body which is very far from the reach of drug moieties. The drug entry in to the brain region depends upon various factors, and among those, the blood-brain-barrier remains the most prominent one. This barrier restricts the entry of almost all the drug and most of the essential biological components like proteins, peptides, etc. and hinders treatment of the CNS disorders. Alzheimer Disease (AD) is one such brain disorder, more specifically a neurodegenerative disorder which primarily affects the older adults. Areas covered: From solubility enhancement to targeted delivery, the nanoparticulate system became the answer for almost all the criticality related to drug delivery. Hence, nanoparticulate drug carrier system has been widely utilizing to remove the hurdles of brain drug delivery. Keeping this in mind, we have underlined the proficiencies of the nanocarrier systems which claim to improve the drug efficacy for the treatmen...