Drug-delivery systems of phytochemicals as therapeutic strategies in cancer therapy /

Drug-delivery Systems of Phytochemicals as Therapeutic Strategies in Cancer Therapy elucidates the importance of various phytochemicals in cancer therapy and explains various routes/methods to deliver phytochemicals for overcoming the problems associated with delivery systems in cancer treatment. Se...

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Bibliographic Details
Main Author: Srivastava, Akhileshwar Kumar
Corporate Author: ScienceDirect (Online service)
Other Authors: Singh, Divya, Singh, Rajesh Kumar
Format: eBook
Language:English
Published: London ; San Diego, CA : Academic Press, an imprint of Elsevier, [2024]
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Front Cover
  • DRUG-DELIVERY SYSTEMS OF PHYTOCHEMICALS AS THERAPEUTIC STRATEGIES IN CANCER THERAPY
  • DRUG-DELIVERY SYSTEMS OF PHYTOCHEMICALS AS THERAPEUTIC STRATEGIES IN CANCER THERAPY
  • Copyright
  • Dedication
  • Contents
  • About the authors
  • Preface
  • Introduction
  • 1
  • Significance of phytochemicals in cancer therapy
  • Introduction
  • Current challenges in cancer treatment and management
  • Phytodrugs: A historical view
  • Natural products
  • Nutraceuticals
  • Anticancer phytocomponents
  • Molecular targets of phytochemicals
  • Plants compounds targeting ROS and autophagy for cancer treatment
  • Clinical trial of phytochemicals for cancer therapy
  • Conclusion and future prospectives
  • References
  • 2
  • Emerging need of delivery systems for plant metabolites
  • Introduction
  • Novel drug delivery methods
  • Patterns of drug delivery
  • Drug modifications
  • Microenvironmental modifications
  • Drug delivery systems
  • Novel drug delivery systems for plants metabolites
  • Benefits of drug delivery system (Pagar &amp
  • Khandbahale, 2019)
  • Conclusion and future prospectives
  • References
  • 3
  • Phytosome: A promising drug delivery system for cancer therapy
  • Introduction
  • Principle for synthesis of phytosomes
  • Composition of phytosomes
  • Phospholipids
  • Solvent for phytosome
  • Stoichiometric ratio of phytoactive components and phospholipid
  • Anticancer activity of phytosomes-formulated phytochemicals
  • Challenges of phytosomal products to commercialization
  • Conclusion and future prospect
  • References
  • 4
  • Exosome-based delivery systems for natural compounds in cancer therapy
  • Introduction
  • Biogenesis of exosomes
  • Role of exosomes in cancer
  • Modification of exosome-based drug delivery system
  • Encapsulation method of therapeutic regimens into exosome
  • Surface modification of exosomes with therapeutic compounds.
  • 8
  • Nanotechnology-based delivery system for phytochemicals in cancer therapy
  • Introduction
  • Branches of nanotechnology
  • Nanoengineering
  • Green nanotechnology
  • Wet nanotechnology
  • Research breakthrough in nanotechnology for development of anticancer drugs
  • Advancement in nanotechnology targeting cancer
  • Nanodrug delivery systems of phytochemicals for cancer therapy
  • Nanoformulation of phytochemicals for cancer treatments
  • Nanocarrier-based codelivery of phytochemicals with conventional drugs for cancer treatment
  • Clinical applications
  • Conclusions and future perspective
  • References
  • 9
  • Delivery system of phenolic compounds for the treatment of lung cancer
  • Introduction
  • Biological function of polyphenols in cancer
  • Classifications of polyphenols
  • Biological functions of polyphenols in cancer
  • Bioavailability of phenolic compounds
  • Polyphenolics drug delivery systems
  • Rutin-loaded drug delivery systems
  • Baicalin-loaded drug delivery systems
  • Chrysin-loaded drug delivery systems
  • Apigenin-loaded drug delivery systems
  • Ginkgo biloba extract-loaded drug delivery systems
  • Naringenin-loaded drug delivery systems
  • Drug delivery
  • Nanoparticulate delivery systems
  • Pulmonary delivery
  • Methyl gallate@ZIF-L hybrid as drug delivery system for lung cancer treatment
  • Curcumin-loaded solid lipid nanoparticles (Cur-SLNs) as drug delivery system for the lung cancer therapy
  • Conclusion and future perspective
  • References
  • 10
  • Advancement in drug delivery systems of curcumin for cancer chemoprevention
  • Introduction
  • Drug delivery vehicle for curcumin
  • Biodegradable curcumin-loaded magnetic microsphere
  • Curcumin loaded mesoporous silica
  • Curcumin-loaded carboxymethylpachymaran-coated zein
  • Engineered UIO-66 metal-organic complex for delivery of curcumin.
  • Microsponges as gastroretentive drug delivery system of curcumin
  • Folate attached: curcumin-loaded Fe3O4 nanoparticles
  • Curcumin-loaded SNEDDS
  • Glycyrrhizic acid micellar hydrogel carriers for delivery of curcumin
  • Drug delivery systems for synergistic application of curcumin with anticancer regimens
  • Curcumin-piperine-loaded human serum albumin nanoparticles against carcinoma cells
  • Drug delivery of curcumin and platinum drugs in polymeric micelles
  • Codelivery of etoposide and curcumin for treatment of gastric cancer
  • Curcumin-bortezomib-loaded polymeric nanoparticles for carcinoma therapy
  • Dual drug delivery system for coadministration of curcumin and 5-fluorouracil
  • Codelivery of doxorubicin and curcumin through polypeptide nanocarrier
  • Conclusions and future prospective
  • References
  • 11
  • Drug delivery system for saponins in cancer treatments
  • Introduction
  • Classification of saponins
  • Sources of saponins
  • Natural sources
  • Synthetic sources
  • Anticancer event of saponin
  • Chemoprevention
  • Antiinflammatory
  • Cell cycle arrest
  • Cytotoxicity impact of saponins
  • Apoptosis
  • Autophagy
  • Metastasis
  • Saponin in multidrug-resistant carcinoma
  • Drug delivery system for saponins
  • Saponin emulsion as drug delivery system
  • Saponins as surfactant
  • Release of nanofiber membrane loaded with saponin
  • Saponin-loaded chitosan nanoparticles
  • Saponin-loaded montmorillonite-human serum albumin nanocomposites in cancer therapy
  • A novel saponin liposome based on the couplet medicines
  • Conclusions and future perspectives
  • References
  • 12
  • Administration of plant-derived terpenoids in cancer management
  • Introduction
  • Mechanism of action of terpenoids against cancer development
  • Monoterpenoids
  • Thymol
  • Menthol
  • Auraptene
  • Sesquiterpenoids and sesquiterpene lactones
  • Sesquiterpene lactones.
  • Dehydrocostus lactone
  • Helenalin
  • Diterpenoids
  • Triptolide
  • Crocetin
  • Phytol
  • Triterpenoids
  • Ursolic acid
  • Betulinic acid
  • Lupeol
  • Terpene-based therapeutic deep eutectic systems against colorectal cancer
  • Coencapsulation and sustained release of terpenes from injectable PELGE nanoparticles
  • The combination of nanomicelles with terpenoids for skin drug delivery
  • Development of enhanced drug delivery vehicles for three cannabis-based terpenes
  • Patents of some terpenoids as an anticancer compound
  • Conclusions and future perspectives
  • References
  • 13
  • Therapeutic role of essential oils in malignancies through drug delivery mechanisms
  • Introduction
  • Activity of essential oils/their constituents on cancer cell lines
  • Anticancer properties of essential oils
  • Major issues in clinical use of essential oils
  • Effective essential oil delivery in living systems
  • Aromatherapy: the roots of a bio-based solution
  • Drug delivery strategies impact essential oil activity
  • Applications of essential oils in combination with synthetic drug
  • Problems of current technology
  • Nanoencapsulation approach
  • Targeted nanodelivery systems for cancer treatment
  • Nanodelivery systems of essential oils for breast cancer
  • Nanodelivery systems for lung cancer
  • Nanodelivery systems for liver cancer
  • Conclusion and future perspectives
  • References
  • 14
  • Development of codelivery systems for phytochemicals and targeted siRNA in treatment of cancer
  • Introduction
  • Event of siRNA action
  • Implication of siRNA in cancer therapy
  • Phytochemicals-siRNA codelivery
  • Docetaxel-siRNA codelivery
  • Paclitaxel-siRNA codelivery
  • Etoposide-siRNA codelivery
  • Conclusions
  • References
  • 15
  • Future challenges of drug-delivery systems for phytochemicals in cancer management
  • Introduction.