The Synthesis and Characterisation of Dendritic Macromolecules for Drug Delivery Application PDF Download
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Author: Shamsudin
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Author: Shamsudin
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Author: Suriani Shamsudin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Today, drugs used in treating disease are almost all hydrophobic, which makes them unattractive for applying to patients. To overcome this problem, an amphiphilic macromolecule was designed which can deliver drugs to the specific targeted area. Therefore, this study focuses on the synthesis of water soluble hyperbranched polymers and their application in drug delivery systems. The first part of the thesis describes the synthesis of water soluble hyperbranched polymers by the anionic-polymerisation technique, with p-nitrophenol as the core and glycidol as the monomer. The core is important to control the molecular weight of the hyperbranched polymer. We then produced five different molecular weights by varying the core to monomer ratio, which produced hyperbranched polymers with molecular weights of 4000 Da, 8000 Da, 12500 Da, 27000 Da and 50000 Da, and four different concentrations of each molecular weight, 1.00 x 10-4 M, 2.00 x 10-4 M, 4.00 x 10-4 M and 6.00 x 10-4 M. To investigate the performance of the hyperbranched polymers, four different hydrophobic molecules were studied. The molecules were naphthalene, ibuprofen, tetracarboxyphenyl porphyrin (TCPP) and anti-prion drug. Encapsulation studies showed the concentration of each molecule increased with an increase in molecular weight and concentration of the hyperbranched polymer The functionalisation of folic acid on the surface of the hyperbranched polymer would enhance the effectiveness of the polymer as a drug delivery agent for targeting in cancer treatment. The above macromolecule was synthesised by conjugation with folic acid through poly (ethylene glycol) as spacer. The final chapter of this work describes the encapsulation of two hydrophobic molecules, ibuprofen and tetracarboxyphenyl porphyrin with water soluble PAMAM dendrimers. PAMAM dendrimers from G0.5 to G2.5 were synthesised. The results showed that more drug solubilised, the concentration of both molecules increased with an increase in dendrimer concentration. Then a comparison was made between encapsulation with water soluble hyperbranched polymers and water soluble PAMAM dendrimers. Similar molecular weight was used for both polymers of 4000 Da. For both polymers, the result demonstrated that the concentration of drug rose at 2.00 x 10-4 M and plateaued at a polymer concentration of 6.00 x 10-4 M. It was suggested the above trend was due to the aggregation of polymer. The above studies make a valuable contribution to the development of good drug delivery systems.
Author: Mingjun Liu
Publisher:
ISBN:
Category :
Languages : en
Pages : 358
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Author: Jean M. J. Fréchet
Publisher: John Wiley & Sons
ISBN:
Category : Science
Languages : en
Pages : 696
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With contributions from many of the world's leading scientists in the field of dendritic research and development, Dendrimers and Other Dendritic Polymers provides a comprehensive review of this rapidly expanding and exciting new field of polymer science. Of interest to academia and industry alike, this book covers the synthesis, characterization, unique properties, potential for novel applications and technical challenges associated with these polymers. * Detailed coverage of all known subclasses of dendritic polymers, including their properties and synthesis * Insight into the potential commercial applications of dendritic polymers, including drug delivery, cancer therapy, coatings and adhesives * Identification of the key trends and perspectives in dendrimer research * Essential reference for polymer chemists, materials scientists and plastics engineers working in academia and industry alike
Author: Nathanael R. Luman
Publisher:
ISBN:
Category :
Languages : en
Pages : 400
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Abstract: Research concerning dendritic polymers continues to expand as further advances in synthetic methodology and characterization techniques translate to additional applications. Dendritic polymers composed of natural metabolites such as glycerol, succinic acid, myristic acid, glycine, and cholesterol are synthesized, functionalized, and evaluated as new medical materials. The design and synthesis of p[barbelow]oly(gl ycerol-s[barbelow]uccinic a[barbelow]cid) (PGLSA) dendrimers and dendrons are discussed, including comparing and contrasting the convergent versus the divergent methodologies for preparing such macromolecules. Specifically, the high yielding convergent synthesis of PGLSA dendrimers and dendrons is presented that facilitates the preparation of particularly interesting and complex polymers. For example, amphiphilic surface-block dendrimers which display aqueous self-assembly properties are described. Such amphiphilic dendrimers can preferentially solubilize hydrophibic molecules within spontaneously formed supramolecular aggregates in aqueous solution and may be useful for drug delivery applications. Photocrosslinkable dendritic macromolecules are prepared possessing methacrylate groups at the dendritic periphery. These polymers form three-dimensional hydrogels when irradiated with light and have desirable physical properties for wound sealing procedures. Additionally, quaternized amines are incorporated into amphiphilic surface-block dendrimers and these macromolecules display DNA binding capabilities. Such molecules are of interest for gene transfection applications. A cholesterol derivative is described which displays unique physical properties such as thermal transition temperature and critical aggregation concentration. Finally, layered dendrimers are designed and prepared that have distinct 1 H NMR chemical shifts in different generations. These dendrimers encapsulate Reichardt's dye and provide new insight into dendritic host/guest interactions. Overall, the family of dendritic PGLSA polymers presented provide methods of manipulating many key physical properties necessary for the development of new and improved patient treatments. Furthermore, the synthetic methods described herein can be utilized to prepare an entire host of functionalized macromolecules with degrees of precision highly unusual for macromolecular systems.
Author: Michael Malkoch
Publisher: Royal Society of Chemistry
ISBN: 1788011325
Category : Science
Languages : en
Pages : 327
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Book Description
An overview of the latest advances in the synthesis, characterization and applications of dendrimers and other complex dendritic architectures.
Author: G.R. Newkome
Publisher: Elsevier
ISBN: 0080552668
Category : Science
Languages : en
Pages : 215
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Book Description
The series Advances in Dendritic Macromolecules aims to cover the synthesis and supramolecular chemistry of dendritic or cascade super-molecules as well as their less perfect hyperbranched cousins.In Volume 3, Chapter 1 describes the synthesis and characterization of dendrimers and hyperbranched polyesters, both based on 2,2-bis(hydroxymethyl)propionic acid, as the AB2-monomer. Chapter 2, discusses the advantages and drawbacks of dendritic molecular architectures necessary to create polymeric organic magnetic materials. In Chapter 3, Balzani and colleagues delineate their contributions to the field of polynuclear transition metal complexes in the design and construction of dendritic nanostructures; these luminesence and redox-active complexes suggest their role as photochemical molecular devices operating by photoinduced energy and electron transfer processes. Chapter 4, reviews the overall progress on redox-active dendrimers, especially as redox catalysts, organic conductors, modified electrodes, and models for electron transfer proteins. Chapter 5, summarizes the pioneering research in organometallic dendritic macromolecules and then delineates the redox properties of a series of silicon-based ferrocenyl-containing dendrimers.
Author: Lu Tian
Publisher:
ISBN:
Category :
Languages : en
Pages : 364
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Author: Yiyun Cheng
Publisher: John Wiley & Sons
ISBN: 0470460059
Category : Medical
Languages : en
Pages : 542
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Book Description
The opportunities and challenges of using dendrimers to improve drug delivery Among pharmaceutical and biomedical researchers, the use of dendrimers in drug delivery systems has attracted increasing interest. In particular, researchers have noted that the volume of a dendrimer increases when it has a positive charge. If this property can be applied effectively, dendrimers have enormous potential in drug delivery systems, directly supplying medication to targeted human organs. With contributions from an international team of pioneers and experts in dendrimer research, this book provides a comprehensive overview of the latest research efforts in designing and optimizing dendrimer-based drug delivery systems. The book analyzes key issues, demonstrating the critical connections that link fundamental concepts, design, synthesis, analytical methodology, and biological assessment to the practical use of dendrimers in drug delivery applications. Topics covered include: Dendrimer history Synthesis Physicochemical properties Principles of drug delivery Applications in diverse biomedical fields Dendrimer-Based Drug Delivery Systems reflects the authors' thorough review and analysis of the current literature as well as their own firsthand experience in the lab. Readers will not only discover the current state of the science, but also gain valuable insights into fruitful directions for future research. References at the end of each chapter serve as a gateway to the growing body of literature in the field, enabling readers to explore each individual topic in greater depth. Pharmaceutical and biomedical researchers will find this book a unique and essential guide to the opportunities, issues, and challenges involved in fully exploiting the potential of dendrimers to improve drug delivery.
Author: Lovorka Degoricija
Publisher:
ISBN:
Category :
Languages : en
Pages : 424
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Abstract: Dendrimers are well defined, highly branched macromolecules that consist of a core, internal branching units and a multitude of peripheral groups. Dendrimers possess low viscosities, high solubilities, single molecular weights, and a globular shape in solution. As a result, the architecture and physiochemical properties of dendrimers offer specific advantages over linear polymers. Currently, millions of people in the Unites States seek treatment for the repair of corneal wounds. The standard of care for repairing these wounds involves using sutures, which do not actively participate in healing of the surgical procedure. Another common medical problem involves the degradation of cartilage due to osteoarthritis or trauma. Since cartilage has a limited capacity for self-repair, the current methods of treatment involve the use of non-surgical and/or surgical techniques to reduce pain while maintaining joint function. Consequently, there is interest in synthesizing dendritic macromolecules specifically for these biomedical applications. Fourth generation, bola-type dendritic macromolecules were synthesized by the divergent method in an iterative process of monomer unit coupling, followed by deprotection. The design of these dendritic macromolecules was based on an ABA triblock architecture, wherein two dendritic arms, or A blocks, flanked a linear linker, or B block, via ester linkages. The dendritic arms consisted of biocompatible materials, while the linear linker was a non-immunogenic poly(ethylene glycol) of three different molecular weights. Degradation of these macromolecules leads to natural metabolites, such as succinic acid and glycerol, thus they are termed biodendritic macromolecules. The same synthetic strategy was used to prepare biodendritic macromolecules containing carbamate linkages, in addition to previous ester linkages, to obtain materials with a different set of physical properties. Further functionalization of these macromolecules was needed to prepare photocrosslinkable systems for the formation of hydrated networks, or hydrogels. Forming hydrogel networks from highly branched biodendritic macromers offers advantages in preparing hydrogels at low polymer concentration, varying mechanical properties, and developing in situ polymerizing systems for delivery to an irregularly shaped wound site. Consequently, hydrogels based on macromolecules possessing ester linkages were explored as sealants for corneal wounds, while scaffolds for cartilage repair were prepared from macromolecules containing carbamate linkages.
