Parimelazhagan Thangaraj, Lucindo Jose Quintans Junior, N. Ponpandian
Nanophytomedicine (eBook, PDF)
An Emerging Platform for Drug Delivery
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Parimelazhagan Thangaraj, Lucindo Jose Quintans Junior, N. Ponpandian
Nanophytomedicine (eBook, PDF)
An Emerging Platform for Drug Delivery
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This book assesses the recent advancements and applications of plant-based nanoparticles and also highlights emerging concepts of Biomimetics.
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This book assesses the recent advancements and applications of plant-based nanoparticles and also highlights emerging concepts of Biomimetics.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 300
- Erscheinungstermin: 10. Oktober 2022
- Englisch
- ISBN-13: 9781000683981
- Artikelnr.: 65264385
- Verlag: Taylor & Francis
- Seitenzahl: 300
- Erscheinungstermin: 10. Oktober 2022
- Englisch
- ISBN-13: 9781000683981
- Artikelnr.: 65264385
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Dr. Parimelazhagan Thangaraj is a professor and head of the Department of Botany at Bharathiar University, Coimbatore in India. He received his PhD in Botany from Bharathiar University and underwent his postdoctoral fellowship in Pharmacology at University of Hawaii, USA. His field of interest encompasses focused research in bioprospecting of medicinal plants, phytomedicine, pharmacology and nutraceutical development. He and his team works on developing plant-based remedies for diseases in an effort to cure them with fewer side effects. He holds four patents and is the Founder, Director of the Intellectual Property Rights Cell of the University. He is a reviewer in many journals and holds editorship in peer-reviewed journals. Recently, he was conferred as the fellow of Royal Society of Biology, London and fellow of Linnean Society, London.
Dr. Lucindo José Quintans Júnior is a professor in the Department of Physiology at the Federal University of Sergipe in Brazil. He received his PharmD and PhD (in Pharmacology) degrees from the Federal University of Paraiba in Brazil and performed his postdoctoral fellowship in neuroscience and nanotechnology at the University of Iowa, USA. His research focuses on the study of pharmacological properties of essential oils and their secondary metabolites, especially terpenes, used for the control of chronic pain and inflammatory processes and the molecular or cellular mechanisms of natural products to produce their pharmacological action, especially involving animal models. Moreover, the investigation of novel inclusion complexes containing cyclodextrins with natural products is an additional area of his scientific interest.
Dr. Nagamony Ponpandian, PhD, FASCh, FRSC is a professor and head of the Department of Nanoscience and Technology, Bharathiar University, Coimbatore in India. He received his PhD in physics-material science from the University of Madras, Chennai. He has completed postdoctoral fellowship at Germany and USA in materials science. His current research interests are nanomaterials and thin films for energy devices, sensors and biomedical applications. His research group is working on biosensors, green energy production by water splitting, environmental remediation and monitoring by preparing and modifying the functional properties of various nanomaterials. He is a reviewer in many peer-reviewed journals and is the editorial board member of Scientific Report, Nature Publishing Group since 2014. He has been listed as world's top 2% scientist based on the Scopus database.
Dr. Lucindo José Quintans Júnior is a professor in the Department of Physiology at the Federal University of Sergipe in Brazil. He received his PharmD and PhD (in Pharmacology) degrees from the Federal University of Paraiba in Brazil and performed his postdoctoral fellowship in neuroscience and nanotechnology at the University of Iowa, USA. His research focuses on the study of pharmacological properties of essential oils and their secondary metabolites, especially terpenes, used for the control of chronic pain and inflammatory processes and the molecular or cellular mechanisms of natural products to produce their pharmacological action, especially involving animal models. Moreover, the investigation of novel inclusion complexes containing cyclodextrins with natural products is an additional area of his scientific interest.
Dr. Nagamony Ponpandian, PhD, FASCh, FRSC is a professor and head of the Department of Nanoscience and Technology, Bharathiar University, Coimbatore in India. He received his PhD in physics-material science from the University of Madras, Chennai. He has completed postdoctoral fellowship at Germany and USA in materials science. His current research interests are nanomaterials and thin films for energy devices, sensors and biomedical applications. His research group is working on biosensors, green energy production by water splitting, environmental remediation and monitoring by preparing and modifying the functional properties of various nanomaterials. He is a reviewer in many peer-reviewed journals and is the editorial board member of Scientific Report, Nature Publishing Group since 2014. He has been listed as world's top 2% scientist based on the Scopus database.
Chapter 1. Drug Discovery from Natural Products: An Approach Using Recent
Patents
Chapter 2. Nano applications in drug and gene delivery
Chapter 3. The modulation of IL-6 levels by natural products in
arthritis-like animal models: a systematic review of preclinical evidence
Chapter 4. Inside Alzheimer's Disease Diagnosis - Uncovering Nanoparticles
Contribution and their Perspectives.
Chapter 5. Nanophytomedicine based therapies for topical applications.
Chapter 6. Patents and nanobiotechnological trends in the treatment of
Diabetes
Chapter 7. The antidiabetic potential of Chenopodium album Linn.
(Chenopodiaceae): in vitro and in vivo studies.
Chapter 8. Green synthesis of nanoparticles from herbals for biomedical
application: A systematic review.
Chapter 9. Green and Chemical Synthesis of Nanoparticles from Pteridophytes
and Their Biological Application
Chapter 10. Silver nanoparticles for the in vitro production of
phytochemicals
Chapter 11. Nanoparticles synthesized by compounds of marine macroalgae for
drug delivery
Chapter 12. Role of Nanotechnology in Diagnosis and Treatment of Diabetes
Chapter 13. Nano-Phytochemicals in Cancer Therapy: Update on Preclinical
Evidence
Chapter 14. Bio-nanomaterials and their recent advancements in tissue
engineering application
Chapter 15. Technological innovations for transdermal administration: state
of the art of microneedle arrays - Patent study
Chapter 16. Medicinal plants and natural products from Caatinga biome with
anti-inflammatory activity: the chemistry behind biological activity
Chapter 17. Plant based nanoparticle synthesis for human health: current
status and future prospects
Chapter 18. Argan tree: phytochemistry, biological activities, and
potential development of nanocapsules for drug delivery.
Chapter 19. Photoactive Nanoparticles of Plant Origin in Cancer Treatment
Chapter 20. Quercetin bio-flavonoids derived from phytomedicinal compounds
for targeted drug delivery and its antioxidant properties
Chapter 21. Nanomaterials in Cardioprotection
Chapter 22. Thymoquinone: A multifunctional phytomedicine for
nanoencapsulated drug delivery for cancer and brain disorder treatments
Chapter 23. Regulatory Aspects of Herbal Nanoformulations
Chapter 24. Biomimetics: Nature and Nanoscience.
Chapter 25. Pharmacological properties of green synthesized Rubus
fairholmianus Gardner. ZnO nanoparticles
Patents
Chapter 2. Nano applications in drug and gene delivery
Chapter 3. The modulation of IL-6 levels by natural products in
arthritis-like animal models: a systematic review of preclinical evidence
Chapter 4. Inside Alzheimer's Disease Diagnosis - Uncovering Nanoparticles
Contribution and their Perspectives.
Chapter 5. Nanophytomedicine based therapies for topical applications.
Chapter 6. Patents and nanobiotechnological trends in the treatment of
Diabetes
Chapter 7. The antidiabetic potential of Chenopodium album Linn.
(Chenopodiaceae): in vitro and in vivo studies.
Chapter 8. Green synthesis of nanoparticles from herbals for biomedical
application: A systematic review.
Chapter 9. Green and Chemical Synthesis of Nanoparticles from Pteridophytes
and Their Biological Application
Chapter 10. Silver nanoparticles for the in vitro production of
phytochemicals
Chapter 11. Nanoparticles synthesized by compounds of marine macroalgae for
drug delivery
Chapter 12. Role of Nanotechnology in Diagnosis and Treatment of Diabetes
Chapter 13. Nano-Phytochemicals in Cancer Therapy: Update on Preclinical
Evidence
Chapter 14. Bio-nanomaterials and their recent advancements in tissue
engineering application
Chapter 15. Technological innovations for transdermal administration: state
of the art of microneedle arrays - Patent study
Chapter 16. Medicinal plants and natural products from Caatinga biome with
anti-inflammatory activity: the chemistry behind biological activity
Chapter 17. Plant based nanoparticle synthesis for human health: current
status and future prospects
Chapter 18. Argan tree: phytochemistry, biological activities, and
potential development of nanocapsules for drug delivery.
Chapter 19. Photoactive Nanoparticles of Plant Origin in Cancer Treatment
Chapter 20. Quercetin bio-flavonoids derived from phytomedicinal compounds
for targeted drug delivery and its antioxidant properties
Chapter 21. Nanomaterials in Cardioprotection
Chapter 22. Thymoquinone: A multifunctional phytomedicine for
nanoencapsulated drug delivery for cancer and brain disorder treatments
Chapter 23. Regulatory Aspects of Herbal Nanoformulations
Chapter 24. Biomimetics: Nature and Nanoscience.
Chapter 25. Pharmacological properties of green synthesized Rubus
fairholmianus Gardner. ZnO nanoparticles
Chapter 1. Drug Discovery from Natural Products: An Approach Using Recent
Patents
Chapter 2. Nano applications in drug and gene delivery
Chapter 3. The modulation of IL-6 levels by natural products in
arthritis-like animal models: a systematic review of preclinical evidence
Chapter 4. Inside Alzheimer's Disease Diagnosis - Uncovering Nanoparticles
Contribution and their Perspectives.
Chapter 5. Nanophytomedicine based therapies for topical applications.
Chapter 6. Patents and nanobiotechnological trends in the treatment of
Diabetes
Chapter 7. The antidiabetic potential of Chenopodium album Linn.
(Chenopodiaceae): in vitro and in vivo studies.
Chapter 8. Green synthesis of nanoparticles from herbals for biomedical
application: A systematic review.
Chapter 9. Green and Chemical Synthesis of Nanoparticles from Pteridophytes
and Their Biological Application
Chapter 10. Silver nanoparticles for the in vitro production of
phytochemicals
Chapter 11. Nanoparticles synthesized by compounds of marine macroalgae for
drug delivery
Chapter 12. Role of Nanotechnology in Diagnosis and Treatment of Diabetes
Chapter 13. Nano-Phytochemicals in Cancer Therapy: Update on Preclinical
Evidence
Chapter 14. Bio-nanomaterials and their recent advancements in tissue
engineering application
Chapter 15. Technological innovations for transdermal administration: state
of the art of microneedle arrays - Patent study
Chapter 16. Medicinal plants and natural products from Caatinga biome with
anti-inflammatory activity: the chemistry behind biological activity
Chapter 17. Plant based nanoparticle synthesis for human health: current
status and future prospects
Chapter 18. Argan tree: phytochemistry, biological activities, and
potential development of nanocapsules for drug delivery.
Chapter 19. Photoactive Nanoparticles of Plant Origin in Cancer Treatment
Chapter 20. Quercetin bio-flavonoids derived from phytomedicinal compounds
for targeted drug delivery and its antioxidant properties
Chapter 21. Nanomaterials in Cardioprotection
Chapter 22. Thymoquinone: A multifunctional phytomedicine for
nanoencapsulated drug delivery for cancer and brain disorder treatments
Chapter 23. Regulatory Aspects of Herbal Nanoformulations
Chapter 24. Biomimetics: Nature and Nanoscience.
Chapter 25. Pharmacological properties of green synthesized Rubus
fairholmianus Gardner. ZnO nanoparticles
Patents
Chapter 2. Nano applications in drug and gene delivery
Chapter 3. The modulation of IL-6 levels by natural products in
arthritis-like animal models: a systematic review of preclinical evidence
Chapter 4. Inside Alzheimer's Disease Diagnosis - Uncovering Nanoparticles
Contribution and their Perspectives.
Chapter 5. Nanophytomedicine based therapies for topical applications.
Chapter 6. Patents and nanobiotechnological trends in the treatment of
Diabetes
Chapter 7. The antidiabetic potential of Chenopodium album Linn.
(Chenopodiaceae): in vitro and in vivo studies.
Chapter 8. Green synthesis of nanoparticles from herbals for biomedical
application: A systematic review.
Chapter 9. Green and Chemical Synthesis of Nanoparticles from Pteridophytes
and Their Biological Application
Chapter 10. Silver nanoparticles for the in vitro production of
phytochemicals
Chapter 11. Nanoparticles synthesized by compounds of marine macroalgae for
drug delivery
Chapter 12. Role of Nanotechnology in Diagnosis and Treatment of Diabetes
Chapter 13. Nano-Phytochemicals in Cancer Therapy: Update on Preclinical
Evidence
Chapter 14. Bio-nanomaterials and their recent advancements in tissue
engineering application
Chapter 15. Technological innovations for transdermal administration: state
of the art of microneedle arrays - Patent study
Chapter 16. Medicinal plants and natural products from Caatinga biome with
anti-inflammatory activity: the chemistry behind biological activity
Chapter 17. Plant based nanoparticle synthesis for human health: current
status and future prospects
Chapter 18. Argan tree: phytochemistry, biological activities, and
potential development of nanocapsules for drug delivery.
Chapter 19. Photoactive Nanoparticles of Plant Origin in Cancer Treatment
Chapter 20. Quercetin bio-flavonoids derived from phytomedicinal compounds
for targeted drug delivery and its antioxidant properties
Chapter 21. Nanomaterials in Cardioprotection
Chapter 22. Thymoquinone: A multifunctional phytomedicine for
nanoencapsulated drug delivery for cancer and brain disorder treatments
Chapter 23. Regulatory Aspects of Herbal Nanoformulations
Chapter 24. Biomimetics: Nature and Nanoscience.
Chapter 25. Pharmacological properties of green synthesized Rubus
fairholmianus Gardner. ZnO nanoparticles