Protoporphyrin IX (PpIX)-conjugated Self-lighting Nanoparticles for Photodynamic Therapy PDF Download
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Author: Homa Homayoni
Publisher:
ISBN:
Category : Afterglow (Physics)
Languages : en
Pages : 122
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Book Description
In Photodynamic therapy (PDT) PDT, cancer destruction relies on applying a photosensitizing drug (PS) followed by light. Absorbed light can activate the PS to transfer energy to existing molecules and substrates or to oxygen to generate singlet oxygen which are highly toxic to cells. Protophorphyrin IX (PpIX) is a photosensitizers (PSs) which has FDA approval and an absorbance near the Soret band which is 10 times stronger than the absorbance in Q-band (600nm). Our goal was to design a modality to eliminate of external blue light in addition to increasing the drug's water dispersion which finally may result in enhancing PDT efficiency. The hypothesis of this study proposes an enhanced PDT efficiency through the delivery of synthesized afterglow nanoparticles (AG NPs), which may be excited by both X-ray and UV and emit blue light for a long time, even after removing the energy source; Folic acid-PpIX-conjugated NPs could also improve the water dispersion of PpIX. Afterglow alkaline earth silicates (Sr3MgSi2O8) nanoparticles doped with rear earth elements (Eu, Dy) were synthesized through this study; the best parameters to achieve a successful synthesis were investigated. the silanol groups oriented outside of the AG NPs caused a net negative surface charge (- 38.52 mV). Alkaline wet grinding decreased the NP size from 809 ± 40.9 nm to 399.5 ± 117.5 nm. The surface silanization of synthesized AG NPs was induced to introduce an NH2 functional group on the surface of AG NPs for further drug and FA conjugation. After APTES coating, the surface charge changed to -4.28 mV because NH2 oriented out of the NPs surface. Adding a new layer caused size increments to 458 ± 136.8 nm. Calculations of Conjugation efficiency (CE) proved that 100 [microgram]/ml of APTES-coated AG NPs was containing of 43.043 ± 6.42 [microgram]/ml of APTES. Protonated PpIX dicholoride with high reactive COOH groups were successfully conjugated to the surface of APTES-AG NPs which led to better water dispersion of PpIX-AG NPs and caused 20 times enhancement of the red emission intensity of PpIX- AG NPs for the concentration equal to 6.25 [microgram]/ml of free PpIX compared to the same concentration of PpIX in water; in addition, 4 times concentration decrement of drug was observed to get most intense red emission. The results of the spectrofluorophotometer confirmed that FRET had happened between APTES-AG NPs and PpIX which corresponds to the successful conjugation of PpIX and NPs. The size decreased to 232 ± 1.3 nm. Raman spectroscopy results confirmed not only PpIX but also FA were successfully conjugated to APTES-AG NPs. Ultimate NPs (FA-PpIX-APTES-AG NPs) could improve the generation of singlet oxygen 2.4% more than free PpIX for concentration of 1.5 [microgram]/ml of free PpIX. Conjugation efficiency (CE) calculation showed that in 100 [microgram]/ml PpIX-APTES-AG NPs, there was a 2.050±0.207 [microgram]/ml of conjugated PpIX and 100 [microgram]/ml PpIX-APTES-AG NPs was containing 26.87±2.998 [microgram]/ml of FA. Exposed PC3 cells to ultimate NPs (equal to 5 [microgram]/ml of free PpIX) demonstrated 30% less dark toxicity and almost 15% more toxicity after exposure to UV for 5 min compared to that of free PpIX. All mentioned results proved that the fabrication of FA-PpIX-conjugated AG NPs may introduce an acceptable solution to current challenges of PDT including weak penetration of blue light and low water dispersion of PpIX in water.
Author: Homa Homayoni
Publisher:
ISBN:
Category : Afterglow (Physics)
Languages : en
Pages : 122
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Book Description
In Photodynamic therapy (PDT) PDT, cancer destruction relies on applying a photosensitizing drug (PS) followed by light. Absorbed light can activate the PS to transfer energy to existing molecules and substrates or to oxygen to generate singlet oxygen which are highly toxic to cells. Protophorphyrin IX (PpIX) is a photosensitizers (PSs) which has FDA approval and an absorbance near the Soret band which is 10 times stronger than the absorbance in Q-band (600nm). Our goal was to design a modality to eliminate of external blue light in addition to increasing the drug's water dispersion which finally may result in enhancing PDT efficiency. The hypothesis of this study proposes an enhanced PDT efficiency through the delivery of synthesized afterglow nanoparticles (AG NPs), which may be excited by both X-ray and UV and emit blue light for a long time, even after removing the energy source; Folic acid-PpIX-conjugated NPs could also improve the water dispersion of PpIX. Afterglow alkaline earth silicates (Sr3MgSi2O8) nanoparticles doped with rear earth elements (Eu, Dy) were synthesized through this study; the best parameters to achieve a successful synthesis were investigated. the silanol groups oriented outside of the AG NPs caused a net negative surface charge (- 38.52 mV). Alkaline wet grinding decreased the NP size from 809 ± 40.9 nm to 399.5 ± 117.5 nm. The surface silanization of synthesized AG NPs was induced to introduce an NH2 functional group on the surface of AG NPs for further drug and FA conjugation. After APTES coating, the surface charge changed to -4.28 mV because NH2 oriented out of the NPs surface. Adding a new layer caused size increments to 458 ± 136.8 nm. Calculations of Conjugation efficiency (CE) proved that 100 [microgram]/ml of APTES-coated AG NPs was containing of 43.043 ± 6.42 [microgram]/ml of APTES. Protonated PpIX dicholoride with high reactive COOH groups were successfully conjugated to the surface of APTES-AG NPs which led to better water dispersion of PpIX-AG NPs and caused 20 times enhancement of the red emission intensity of PpIX- AG NPs for the concentration equal to 6.25 [microgram]/ml of free PpIX compared to the same concentration of PpIX in water; in addition, 4 times concentration decrement of drug was observed to get most intense red emission. The results of the spectrofluorophotometer confirmed that FRET had happened between APTES-AG NPs and PpIX which corresponds to the successful conjugation of PpIX and NPs. The size decreased to 232 ± 1.3 nm. Raman spectroscopy results confirmed not only PpIX but also FA were successfully conjugated to APTES-AG NPs. Ultimate NPs (FA-PpIX-APTES-AG NPs) could improve the generation of singlet oxygen 2.4% more than free PpIX for concentration of 1.5 [microgram]/ml of free PpIX. Conjugation efficiency (CE) calculation showed that in 100 [microgram]/ml PpIX-APTES-AG NPs, there was a 2.050±0.207 [microgram]/ml of conjugated PpIX and 100 [microgram]/ml PpIX-APTES-AG NPs was containing 26.87±2.998 [microgram]/ml of FA. Exposed PC3 cells to ultimate NPs (equal to 5 [microgram]/ml of free PpIX) demonstrated 30% less dark toxicity and almost 15% more toxicity after exposure to UV for 5 min compared to that of free PpIX. All mentioned results proved that the fabrication of FA-PpIX-conjugated AG NPs may introduce an acceptable solution to current challenges of PDT including weak penetration of blue light and low water dispersion of PpIX in water.
Author: Cheng Jin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Nilesh M. Mahajan
Publisher: Elsevier
ISBN: 0323885683
Category : Medical
Languages : en
Pages : 478
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Book Description
Photophysics and Nanophysics in Therapeutics explores the latest advances and applications of phototherapy and nanotherapy, covering the application of light, radiation, and nanotechnology in therapeutics, along with the fundamental principles of physics in these areas. Consisting of two parts, the book first features a range of chapters covering phototherapeutics, from the fundamentals of photodynamic therapy (PDT) to applications such as cancer treatment and advances in radiotherapy, applied physics in cancer radiotherapy treatment, and the role of carbon ion beam therapy. Other sections cover nanotherapeutics, potential applications and challenges, and nanotherapy for drug delivery to the brain. Final chapters delve into nanotechnology in the diagnosis and treatment of cancers, the role of nanocarriers for HIV treatment, nanoparticles for rheumatoid arthritis treatment, peptide functionalized nanomaterials as microbial sensors, and theranostic nanoagents. - Evaluates the latest developments in the fields of phototherapy and nanotherapy - Investigates the fundamental physics behind these technologies - Explores therapeutic applications across a range of diseases, such as skin disorders, cancer, and neurological conditions - Includes case studies that illustrate research in practice - Considers challenges and future perspectives
Author: Ravindra K Pandey
Publisher: World Scientific
ISBN: 9814719668
Category : Science
Languages : en
Pages : 563
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Book Description
The main objective of this book is to present the recent applications of photodynamic therapy (PDT) in treating cancer and other diseases. The limitations associated with current PDT agents, and the synthetic designs that have been used in various laboratories are also discussed. The utility of certain tumor-avid agent for cancer imaging (fluorescence, PET, MRI) is also summarized. The book also includes the use of delivery vehicles, including nanoparticles in improving the tumor-specificity of the desired agents. The book is basically focused on the translational approach of drug development. By providing certain specific examples, a clear concept of moving a 'product' from the bench to bed-side is also discussed.To have a clear concept of drug development the book is divided in three parts — Medicinal Chemistry, Mechanistic and Clinical studies. Each part includes the contributions from the leading scientists with extensive experience in the respective field. The handbook is assembled by renowned scientists Dr Dougherty, known as the father of PDT, Dr Kessel, well known for his contributions on mechanism of PDT and Dr Pandey for his inventions in developing improved agents for PDT and cancer-imaging.
Author: Jose Ricardo Aguilar Cosme
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Zhong Feng Gao
Publisher: Frontiers Media SA
ISBN: 2889747042
Category : Science
Languages : en
Pages : 123
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Book Description
Author: Prashant Kesharwani
Publisher: Woodhead Publishing
ISBN: 0323903541
Category : Technology & Engineering
Languages : en
Pages : 570
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Book Description
Nanomaterials for Photodynamic Therapy takes a unique approach to this area, with a key focus on the use of nanomaterials and nanocarriers for photodynamic therapy (PDT). The book introduces the history and mechanism of action behind PDT, covering the variety of sensitizers currently available. Subsequent chapters review existing and emerging nanomaterials for PDT, including hydrogel nanocomposites, fullerenes, quantum dots, polymeric micelles, and more. Challenges and translational aspects of PDT are also discussed, touching on the issues and hindrances of drug resistant cancers.The book bridges the gap between the physics and clinical aspects of PDT, offering a unique nanomaterials-focused perspective. This book will prove useful for materials scientists, biomedical engineers, electrical and optical engineers, and pharmaceutical scientists interested in cancer treatment. - Reviews a broad range of nanomaterials for PDT, such as graphene oxide, dendrimers, solid lipid nanoparticles, and more - Provides a helpful introduction to the history and mechanism of action behind PDT - Discusses challenges in clinical translational, particularly in drug-resistant cancers
Author: Clare Louise Conway
Publisher:
ISBN:
Category :
Languages : en
Pages : 398
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Book Description
Author: Sougata Jana
Publisher: Springer Nature
ISBN: 9811653747
Category : Medical
Languages : en
Pages : 397
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Book Description
This book provides updated information on marine-based biomedical carriers and their therapeutic potential. Marine biomaterials and bio-based carriers show wide application in pharmaceutical and biomedical fields to deliver small and large molecules. Biomaterial-based composites, scaffolds, or matrix systems are sound systems for controlled and prolonged drug release in target sites and control the premature release of drugs or bioactive compounds. This book discusses essential topics such as the therapeutic potential of marine collagen, management of bone disorders, gene delivery, natural marine compounds in immunomodulation, theranostic applications, tissue engineering, and regeneration. It also describes the use of marine biopolymers in cancer therapy. Different chapters describe the tissue engineering techniques to develop these carriers. Marine biomaterial-based systems are popular for tissue engineering and biomedical imaging. This book is ideal for industry experts, students, and researchers in pharmaceutical sciences and pharmacology.
Author: Se-Kwon Kim
Publisher: John Wiley & Sons
ISBN: 1119143799
Category : Science
Languages : en
Pages : 3632
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Book Description
A keystone reference that presents both up-to-date research and the far-reaching applications of marine biotechnology Featuring contributions from 100 international experts in the field, this five-volume encyclopedia provides comprehensive coverage of topics in marine biotechnology. It starts with the history of the field and delivers a complete overview of marine biotechnology. It then offers information on marine organisms, bioprocess techniques, marine natural products, biomaterials, bioenergy, and algal biotechnology. The encyclopedia also covers marine food and biotechnology applications in areas such as pharmaceuticals, cosmeceuticals, and nutraceuticals. Each topic in Encyclopedia of Marine Biotechnology is followed by 10-30 subtopics. The reference looks at algae cosmetics, drugs, and fertilizers; biodiversity; chitins and chitosans; aeroplysinin-1, toluquinol, astaxanthin, and fucoxanthin; and algal and fish genomics. It examines neuro-protective compounds from marine microorganisms; potential uses and medical management of neurotoxic phycotoxins; and the role of metagenomics in exploring marine microbiomes. Other sections fully explore marine microbiology, pharmaceutical development, seafood science, and the new biotechnology tools that are being used in the field today. One of the first encyclopedic books to cater to experts in marine biotechnology Brings together a diverse range of research on marine biotechnology to bridge the gap between scientific research and the industrial arena Offers clear explanations accompanied by color illustrations of the techniques and applications discussed Contains studies of the applications of marine biotechnology in the field of biomedical sciences Edited by an experienced author with contributions from internationally recognized experts from around the globe Encyclopedia of Marine Biotechnology is a must-have resource for researchers, scientists, and marine biologists in the industry, as well as for students at the postgraduate and graduate level. It will also benefit companies focusing on marine biotechnology, pharmaceutical and biotechnology, and bioenergy.
