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Nanobiotechnology in Diagnosis, Drug Delivery and Treatment

Name: Nanobiotechnology in Diagnosis, Drug Delivery and Treatment
Author: Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle, Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle

Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle, Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle

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eBook - ePub

Nanobiotechnology in Diagnosis, Drug Delivery and Treatment

Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle, Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle

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About This Book

Presents nanobiotechnology in drug delivery and disease management

Featuring contributions from noted experts in the field, this book highlights recent advances in the nano-based drug delivery systems. It also covers the diagnosis and role of various nanomaterials in the management of infectious diseases and non-infectious disorders, such as cancers and other malignancies and their role in future medicine.

Nanobiotechnology in Diagnosis, Drug Delivery and Treatment starts by introducing how nanotechnology has revolutionized drug delivery, diagnosis, and treatments of diseases. It then focuses on the role of various nanocomposites in diagnosis, drug delivery, and treatment of diseases like cancer, Alzheimer's disease, diabetes, and many others. Next, it discusses the application of a variety of nanomaterials in the diagnosis and management of gastrointestinal tract disorders. The book explains the concept of nanotheranostics in detail and its role in effective monitoring of drug response, targeted drug delivery, enhanced drug accumulation in the target tissues, sustained as well as triggered release of drugs, and reduction in adverse effects. Other chapters cover aptamer-incorporated nanoparticle systems; magnetic nanoparticles; theranostics and vaccines; toxicological concerns of nanomaterials used in nanomedicine; and more.

Provides a concise overview of state-of-the-art nanomaterials and their application like drug delivery in infectious diseases and non-infectious disorders
Highlights recent advances in the nano-based drug delivery systems and role of various nanomaterials
Introduces nano-based sensors which detect various pathogens
Covers the use of nanodevices in diagnostics and theranostics

Nanobiotechnology in Diagnosis, Drug Delivery and Treatment is an ideal book for researchers and scientists working in various disciplines such as microbiology, biotechnology, nanotechnology, pharmaceutical biotechnology, pharmacology, pharmaceutics, and nanomedicine.

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Yes, you can access Nanobiotechnology in Diagnosis, Drug Delivery and Treatment by Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle, Mahendra Rai, Mehdi Razzaghi-Abyaneh, Avinash P. Ingle in PDF and/or ePUB format, as well as other popular books in Sciences biologiques & Biotechnologie. We have over one million books available in our catalogue for you to explore.

Information

Publisher

Wiley-Blackwell

Year

2020

ISBN

9781119671862

Edition

Topic

Sciences biologiques

Subtopic

Biotechnologie

1
Nanotechnology: A New Era in the Revolution of Drug Delivery, Diagnosis, and Treatment of Diseases

Avinash P. Ingle¹, Patrycja Golińska², Alka Yadav³, Mehdi Razzaghi‐Abyaneh⁴, Mrunali Patel⁵, Rashmin Patel⁵, Yulia Plekhanova⁶, Anatoly Reshetilov⁶, and Mahendra Rai³

¹ Department of Biotechnology, Engineering School of Lorena, University of Sao Paulo, Lorena, SP, Brazil

² Department of Microbiology, Nicolaus Copernicus University, Lwowska, Torun, Poland

³ Nanobiotechnology Laboratory, Department of Biotechnology, Sant Gadge Baba Amravati University, Amravati, Maharashtra, India

⁴ Department of Mycology, Pasteur Institute of Iran, Tehran, Iran

⁵ Department of Pharmaceutics, Ramanbhai Patel College of Pharmacy, Charotar University of Science and Technology (CHARUSAT), Changa, Gujarat, India

⁶ Laboratory of Biosensors, G.K. Skryabin Institute of Biochemistry and Physiology of Microorganisms, Russian Academy of Sciences, Moscow Region, Russia

1.1 Introduction

Various factors, including the fast pace of today's world, knowingly or unknowingly have created many concerns in the area of healthcare. Different infectious diseases, depression, hypertension, diabetes, neurodegenerative disorders, cardiovascular diseases, cancers, etc. are a small part of the list of common outcomes associated with a high‐speed, stress‐filled lifestyle, among other reasons (Petrie et al. 2018). Therefore, early diagnosis and effective treatment are required to manage all of these health conditions. However, it has been a major challenge in recent times. Moreover, the recent noteworthy scientific advancements in the field of nanotechnology have potentially improved medical diagnosis and treatment strategies (Bonnard et al. 2019). In this context, early diagnosis of diseases, even before the presentation of symptoms, and improved imaging systems for internal body structure, etc., in addition to various treatment approaches, have been developed with the help of nanotechnology.

Nanotechnology or nanoscience is referred to as the science which involves the study of materials at the atomic or molecular level. In other words, nanotechnology is defined as the investigation, design, manufacture, synthesis, manipulation, and application of materials, strategies, and structures at a scale of 1–100 nanometers (nm) (Gholami‐Shabani et al. 2014). It means to design, manufacture, characterize, and apply structures, devices, and methods through controlled manipulation of shape and size at the nanometric scale which have at least one novel/superior characteristic or property. The word “nano” is derived from the Greek word which means “dwarf.” One nanometer is the 1 billionth or 10⁻⁹ part of a meter. The nano‐size range holds so much interest because in this range materials can have diverse and enhanced properties compared with the same material at a larger (bulk) size (Gholami‐Shabani et al. 2015; Dudefoi et al. 2018). Materials in the nano‐scale differ significantly from other materials due to the following two major principal reasons: physical effects such as expanded surface area and phenomena are based on “quantum effects” (Gholami‐Shabani et al. 2016). These properties can enhance the reactivity, durability, and electrical features and in vivo behavior of nanomaterials.

Due to these unique properties of nanomaterials, modern nanotechnology is emerging as potential branch of science that can revolutionize various fields, including biomedicine. Looking at the recent advances in the field of nanotechnology it can be observed that nanotechnology influences almost every facet of everyday life from security to medicine. Nanotechnology and its medical applications are usually seen as having a wide potential to cause benefits to various areas of investigation and applications. Currently, nanotechnology is providing completely novel concepts and approaches in various fields of biomedicine such as diagnosis, drug delivery, and treatment of a wide range of diseases including various serious and life‐threatening diseases like cancer, neurodegenerative disorders, cardiovascular diseases, etc.

To date, a variety of nanomaterials have been investigated which play a crucial role in the diagnosis and management of different diseases as mentioned. The nanomaterials which are used in medicine are termed as “nanomedicine.” The concept of nanomedicine was first put forward in 1993 by Robert A. Freitas, Jr. Nanomedicine is considered the science of preventing, diagnosing, and treating disease using nanosized particles (Abiodun‐Solanke et al. 2014). Various nanomaterials such as organic, inorganic, polymeric, and metallic nanostructures like dendrimers, micelles, solid lipid nanoparticles (SLNs), carbon nanotubes (CNTs), liposomes, niosomes, etc. have been successfully exploited in nanomedicine. Therefore, the use of these nanomaterials in the development of various nanodiagnostic tools (such as microchips, biosensors, nano‐robots, nano identification of single‐celled structures, and microelectromechanical systems) and therapeutic treatment approaches via target‐specific drug delivery has attracted a great deal of attention from the scientific community around the world (Liang et al. 2014; Núñez et al. 2018; Mitragotri and Stayton 2019).

Currently, various diagnostic and therapeutic strategies are in practice which are very complex, time‐consuming, and also very costly. However, the recent advances in nanotechnology allow us to provide accurate, sensitive, rapid, and inexpensive diagnostic techniques, as well as treatments for the patients with the least number of possible interventions and without any adverse effects (Leary 2010; Gholami‐Shabani et al. 2018).

Usually, drugs function through the whole body before they reach the specific disease‐affected zone. In this context, nanotechnology has opened up novel opportunities to deliver specific drugs using various nanomaterials as delivery vehicles. Such nanotechnology‐based drug delivery has the ability to achieve effective, precise, and target‐specific drug delivery in order to reduce the chances of possible side effects (Gholami‐Shabani et al. 2017). Suitable drug‐delivery techniques have two fundamentals: the capability to target and to control the drug release. Targeting will ensure high performance of the drug and decrease the side effects, particularly when acting with drugs that are recognized to kill cancer cells but can also kill healthy cells when delivered (Cho et al. 2008). The decrease or prevention of side effects can be effectively achieved by the controlled release of a drug. In this context, nanotechnology‐based drug delivery systems provide a healthier diffusion of the drugs inside the body as their size allows delivery through intra venous injectio...