|
Showing 1 - 10 of
10 matches in All Departments
Nanotechnology is an interdisciplinary research field that
integrates chemistry, engineering, biology, and medicine.
Nanomaterials offer tremendous opportunity as well as challenges
for researchers. Of course, cancer is one of the world's most
common health problems, responsible for many deaths. Exploring
efficient anticancer drugs could revolutionize treatment options
and help manage cancer mortality. Nanomedicine plays a significant
role in developing alternative and more effective treatment
strategies for cancer theranostics. This book mainly focuses on the
emerging trends using nanomaterials and nanocomposites as
alternative anticancer material's. The book is divided into three
main topic areas: how to overcome existing traditional approaches
to combat cancer, applying multiple mechanisms to target the cancer
cells, and how nanomaterials can be used as effective carriers. The
contents highlight recent advances in interdisciplinary research on
processing, morphology, structure, and properties of nanostructured
materials and their applications to combat cancer.Cancer
Nanotheranostics is comprehensive in that it discusses all aspects
of cancer nanotechnology. Because of the vast amount of
information, it was decided to split this material into two
volumes. In the first volume of Cancer Nanotheranostics, we discuss
the role of different nanomaterials for cancer therapy, including
lipid-based nanomaterials, protein and peptide-based nanomaterials,
polymer-based nanomaterials, metal-organic nanomaterials,
porphyrin-based nanomaterials, metal-based nanomaterials,
silica-based nanomaterials, exosome-based nanomaterials and
nano-antibodies. In the second volume, we discuss the nano-based
diagnosis of cancer, nano-oncology for clinical applications,
nano-immunotherapy, nano-based photothermal cancer therapy,
nano-erythrosomes for cancer drug delivery, regulatory perspectives
of nanomaterials, limitations of cancer nanotheranostics, the
safety of nano-biomaterials for cancer nanotheranostics,
multifunctional nanomaterials for targeting cancer
nanotheranostics, and the role of artificial intelligence in cancer
nanotheranostics.
Cancer Nanotheranostics, Volume 2 continues the discussion of the
important work being done in this field of cancer nanotechnology.
The contents of these two volumes are explained in detail as
follows. In the first volume of Cancer Nanotheranostics, we discuss
the role of different nanomaterials for cancer therapy including
lipid-based nanomaterials, protein and peptide-based nanomaterials,
polymer-based nanomaterials, metal-organic nanomaterials,
porphyrin-based nanomaterials, metal-based nanomaterials,
silica-based nanomaterials, exosome-based nanomaterials, and
nano-antibodies. This important second volume discusses nano-based
diagnosis of cancer, nano-oncology for clinical applications,
nano-immunotherapy, nano-based photothermal cancer therapy,
nanoerythrosomes for cancer drug delivery, regulatory perspectives
of nanomaterials, limitations of cancer nanotheranostics, safety of
nanobiomaterials for cancer nanotheranostics, multifunctional
nanomaterials for targeting cancer nanotheranostics, and the role
of artificial intelligence in cancer nanotheranostics. Volume 2 is
a vital continuation of this two-volume set. Together, these two
volumes create a comprehensive and unique examination of this
important area of research.
Bioengineered Nanomaterials for Wound Healing and Infection Control
is a key reference for those working in the fields of materials
science, pharmacy, nanotechnology, biomedical engineering and
microbiology. Bioengineered nanomaterials have unique
physicochemical properties which promote accelerated wound healing
and treatment of infections. The biosynthesis of these
nanomaterials also offers a clean, safe and renewable alternative
to traditional nanomaterials, helping reduce environmental impact
alongside antibacterial resistance.
The field of nanotechnology for targeted therapy initiated more
than decade ago has grown fast and interest is increasing. Given
the importance of the field for targeted drug and gene delivery
systems, there are a large number of laboratory investigations
today researching nanobiomaterials for diagnostic and therapeutic
applications. Because of the ability of scientists to load
nanoparticles with any agent, interest continues to grow and
technology in this arena is rapidly evolving. These emerging
nanobiomaterials-based medicines can overcome the disadvantages of
traditional medicines by target-oriented and site-specific delivery
of precise medicines (immunotherapeutic agents, chemotherapeutic
agents, diagnostic agents, and so on). Pharmaceutical
Nanobiotechnology for Targeted Therapy presents an updated overview
of recent advancements in the field of pharmaceutical
nanobiotechnology and nano-based drug and gene delivery systems.
This comprehensive knowledge will allow researchers to discover
innovative nanobiomaterials for targeted therapeutics. The chapters
deal with various emerging nanobiomaterials for targeted
therapeutic delivery systems and the writing is in a style that is
easily disseminated and in a manner that can be readily adopted as
sources for new and further studies. This book should be useful for
researchers and professionals from academia and industry working in
the field of nanotechnology, nanobiotechnology, as well as in the
field of pharmaceutical nanotechnology. It should also be useful to
those interested in a range of disciplines from material science,
chemistry, molecular biology, polymer chemistry, and many more
interdisciplinary areas.
Cancer Nanotheranostics, Volume 2 continues the discussion of the
important work being done in this field of cancer nanotechnology.
The contents of these two volumes are explained in detail as
follows. In the first volume of Cancer Nanotheranostics, we discuss
the role of different nanomaterials for cancer therapy including
lipid-based nanomaterials, protein and peptide-based nanomaterials,
polymer-based nanomaterials, metal-organic nanomaterials,
porphyrin-based nanomaterials, metal-based nanomaterials,
silica-based nanomaterials, exosome-based nanomaterials, and
nano-antibodies. This important second volume discusses nano-based
diagnosis of cancer, nano-oncology for clinical applications,
nano-immunotherapy, nano-based photothermal cancer therapy,
nanoerythrosomes for cancer drug delivery, regulatory perspectives
of nanomaterials, limitations of cancer nanotheranostics, safety of
nanobiomaterials for cancer nanotheranostics, multifunctional
nanomaterials for targeting cancer nanotheranostics, and the role
of artificial intelligence in cancer nanotheranostics. Volume 2 is
a vital continuation of this two-volume set. Together, these two
volumes create a comprehensive and unique examination of this
important area of research.
Nanotechnology is an interdisciplinary research field that
integrates chemistry, engineering, biology, and medicine.
Nanomaterials offer tremendous opportunity as well as challenges
for researchers. Of course, cancer is one of the world's most
common health problems, responsible for many deaths. Exploring
efficient anticancer drugs could revolutionize treatment options
and help manage cancer mortality. Nanomedicine plays a significant
role in developing alternative and more effective treatment
strategies for cancer theranostics. This book mainly focuses on the
emerging trends using nanomaterials and nanocomposites as
alternative anticancer material's. The book is divided into three
main topic areas: how to overcome existing traditional approaches
to combat cancer, applying multiple mechanisms to target the cancer
cells, and how nanomaterials can be used as effective carriers. The
contents highlight recent advances in interdisciplinary research on
processing, morphology, structure, and properties of nanostructured
materials and their applications to combat cancer.Cancer
Nanotheranostics is comprehensive in that it discusses all aspects
of cancer nanotechnology. Because of the vast amount of
information, it was decided to split this material into two
volumes. In the first volume of Cancer Nanotheranostics, we discuss
the role of different nanomaterials for cancer therapy, including
lipid-based nanomaterials, protein and peptide-based nanomaterials,
polymer-based nanomaterials, metal-organic nanomaterials,
porphyrin-based nanomaterials, metal-based nanomaterials,
silica-based nanomaterials, exosome-based nanomaterials and
nano-antibodies. In the second volume, we discuss the nano-based
diagnosis of cancer, nano-oncology for clinical applications,
nano-immunotherapy, nano-based photothermal cancer therapy,
nano-erythrosomes for cancer drug delivery, regulatory perspectives
of nanomaterials, limitations of cancer nanotheranostics, the
safety of nano-biomaterials for cancer nanotheranostics,
multifunctional nanomaterials for targeting cancer
nanotheranostics, and the role of artificial intelligence in cancer
nanotheranostics.
Emerging Nanomaterials and Nano-based Drug Delivery Approaches to
Combat Antimicrobial Resistance focuses on recent and emerging
trends surrounding nanomaterials and nano-drug delivery approaches
to combat antimicrobial resistance. The relationship between
nanomaterials and antimicrobial activity needs to be deeply
explored to meet the challenges of combating antimicrobial
resistance. The content of this book is divided into three main
topic areas, including (i) how to overcome the existing traditional
approaches to combat antimicrobial resistance, (ii) applying
multiple drug delivery mechanisms to target multi-drug resistant
microbes, and (iii) how nanomaterials can be used as drug carriers.
This is an important reference source for those looking to
understand how nanotechnology plays an important role in combatting
disease and infection. As antimicrobial resistance threatens the
effective prevention and treatment of an ever-increasing range of
infections caused by bacteria, parasites, viruses, and fungi, this
is a timely resource.
Carbon-Based Nanomaterials in Biosystems: Biophysical interface at
Lower Dimensions provides a thoroughly comprehensive overview of
all major aspects of carbon-based nanomaterials, their biophysical
response, and biotechnological application. The book articulates
the underlying physics, chemistry, and the basic phenomenon of the
broad-range carbon-based nanomaterials (CNMs) with the biological
systems particularly the interface analysis. Organized in six
sections, it discusses state-of art technological interventions of
carbon-based nanomaterials and their application in biomedical
sectors in healthcare, food sciences, and technology. The book also
highlights the carrying capacity of different CNMs in payload
efficiency mechanisms in various biomedical fields. The theranostic
efficiency and the safety of various forms of CNMs is assessed.
Carbon-Based Nanomaterials in Biosystems is a helpful resource to
those specializing in the areas of nanomedicine, bionanomaterials
and nanotechnology applications.
Handbook of Nano-biomaterials for Therapeutics and Diagnostic
Applications covers in-depth topics on nano-biomaterials and nano
drug delivery systems (biosensors and bioimaging) involving polymer
nanocomposites, metal nanocomposites, and other carbon family
fibers and proteins. The book covers the current application of
tiny machines or nanodevices and their use as early detection
systems for life threatening diseases, giving detailed literature
on the development of nanodevices, their use as diagnostic tools,
and their present trend in the industry and market. In addition,
their synthesis, potential applications and future of smart
nanodevices in diagnosis of diseases and their use as smart
clinical devices is covered. Users will find sections on recent
advances in interdisciplinary research on the processing,
morphology, structure and properties of nanostructured materials
and their applications in drug delivery for various diseases such
as cancer, tuberculosis, Alzheimer disease, ophthalmic diseases,
and more.
Multidrug-resistant bacteria play a significant role in public
health by destroying the potency of existing antibiotics.
Meanwhile, cancer remains one of the most common health problems
that impact society, resulting in many deaths worldwide. Novel
strategies are required to combat antimicrobial resistance and
create efficient anticancer drugs that could revolutionize
treatment. Nanomedicine is one such innovation that plays a
significant role in developing alternative and more effective
treatment strategies for antimicrobial resistance and cancer
theranostics. The Handbook of Research on Nano-Strategies for
Combatting Antimicrobial Resistance and Cancer is an essential
scholarly resource that examines (1) how to overcome the existing,
traditional approaches to combat antimicrobial resistance and
cancer; (2) how to apply multiple mechanisms to target the cancer
cells and microbes; and (3) how the nanomaterials can be used as
carriers. Featuring a range of topics such as bacteriophage,
nanomedicine, and oncology, this book is ideal for molecular
biologists, microbiologists, nanotechnologists, academicians,
chemists, pharmacists, oncologists, researchers, healthcare
professionals, and students.
|
You may like...
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
Tenet
John David Washington, Robert Pattinson, …
DVD
R53
Discovery Miles 530
|