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Design and Evaluation of Plasmonic/Magnetic Au-MFe2O4 (M-Fe/Co/Mn) Core-Shell Nanoparticles Functionalized with Doxorubicin for Cancer Therapeutics

2017-10-30 Technology & Engineering
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Release : 2017-10-30
Genre : Technology & Engineering
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Book Rating : 091/5 ( reviews)

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Book Synopsis Design and Evaluation of Plasmonic/Magnetic Au-MFe2O4 (M-Fe/Co/Mn) Core-Shell Nanoparticles Functionalized with Doxorubicin for Cancer Therapeutics by : Ravichandran Manisekaran

Download or read book Design and Evaluation of Plasmonic/Magnetic Au-MFe2O4 (M-Fe/Co/Mn) Core-Shell Nanoparticles Functionalized with Doxorubicin for Cancer Therapeutics written by Ravichandran Manisekaran. This book was released on 2017-10-30. Available in PDF, EPUB and Kindle. Book excerpt: This thesis documents the development of a multifunctional nanoparticle system to enhance the chemotherapeutic efficiency of anti-cancer drugs, and contributes to research that helps decrease the side-effects in cancer patients while simultaneously increasing their survival rates. The work begins with an introduction to nanomedicine and cancer therapy, and contains a literature review on magnetic, gold, and core-shell nanoparticles. It also covers synthesis techniques, properties, various surface modifications, and the importance of magnetic and gold nanoparticles. The author dedicates a chapter to characterization techniques, experimental setup, and cell cultivation techniques for in-vitro studies. Further chapters describe the background, characterizations, and applications of multifunctional magnetite coated gold core-shell nanoparticles, and the doping of cobalt to magnetite and manganese to magnetite nanoparticles. The important highlight of this research was the control of the size, shape, composition, and surface chemistry of nanoparticles.

Cancer Nanotheranostics

2021-10-05 Medical
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Release : 2021-10-05
Genre : Medical
Kind : eBook
Book Rating : 637/5 ( reviews)

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Book Synopsis Cancer Nanotheranostics by : Muthupandian Saravanan

Download or read book Cancer Nanotheranostics written by Muthupandian Saravanan. This book was released on 2021-10-05. Available in PDF, EPUB and Kindle. Book excerpt: 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.

Design of Functionalized Nanoparticles as Imaging Agents for Cancer

2012
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Release : 2012
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Book Synopsis Design of Functionalized Nanoparticles as Imaging Agents for Cancer by : José Alejandro Barreto Solano

Download or read book Design of Functionalized Nanoparticles as Imaging Agents for Cancer written by José Alejandro Barreto Solano. This book was released on 2012. Available in PDF, EPUB and Kindle. Book excerpt: This thesis describes the synthesis and characterization of three different generations of iron oxide magnetic nanoparticles derivatized with macrocyclic ligands for application as bi-modal imaging agents in the detection of cancer tumors by Magnetic Resonance Imaging (MRI) and Positron Emission Tomography (PET). The nanoparticles have been modified with polyethyleneglycol (PEG) in order to avoid uptake by the Reticuloendothelial System (RES), whilst the macrocyclic ligands have been introduced for chelation of the radionuclide 64Cu2+, which is detectable by PET. Apart from being a platform for the transport of the radionuclide complexes, the magnetic nanoparticles themselves act as MRI contrast agents and can be used for hyperthermia treatment of cancer due to their super paramagnetic nature. Synthesis of the first generation nanoparticles involved co precipitation of the core nanoparticles from a solution of iron(II) and iron(III) salts through addition of base. The macrocycles 1,4-bis(2-pyridylmethyl)-1,4,7-triazacyclononane (dmptacn), 1,4,7,10-tetraazacyclododecane (cyclen) and 1,4,8,11-tetraazacyclotetradecane (cyclam) were reacted with glycidyloxypropyltriethoxysilane (GPTES) to form the corresponding siloxane derivatives, which were then hydrolyzed over the surface of the nanoparticles to form a stable coating. Macrocycle loadings of the order of 0.2 mmol/g were achieved using this methodology, and the mean diameter of the nanoparticles was found to be ca. 7 nm, respective of the ligand used. Light scattering measurements showed that the particles form aggregates in solution, with a hydrodynamic size of 150-200 nm. The nanoparticles could be rapidly radiolabeled with 64Cu2+. Challenge experiments performed with an excess of cyclam indicated that the nanoparticles derivatized with dmptacn were the most resistant to 64Cu2+ leaching. These particles were also found to be the most stable in rat plasma. A second generation of nanoparticles was synthesized in order to diminish the aggregation of the nanoparticles. This involved synthesis of the core nanoparticles by co precipitation, followed by surface coating with oleic acid, which provided enhanced stability (reduced aggregation) in organic media. Displacement of the oleic acid chains with polyethylene glycol silane (PEG-silane) derivatives was used to produce a stable coating on the nanoparticles and to render them water soluble. Two different PEG-silane molecules, with different PEG chain lengths (Mn 250 and 600), were used to modified the nanoparticles. It was found that the nanoparticles coated with the longer PEG chains (PEG600) were less susceptible to aggregation in aqueous media. The nanoparticles were also functionalized with different macrocycles through amide coupling to the terminal carboxylic acid groups of the PEG chains. The nanoparticles were found to bind 64Cu2+both specifically (via the macrocycles) and nonspecifically, however the weakly boundions could be removed by addition of cyclam. In addition to MRI and PET, these second generation nanoparticles would be suitable for use in hyperthermia treatment as they possess a good specific absorption rate. The third generation nanoparticles consisted of iron oxide particles synthesized by thermal decomposition of iron oleate in the presence of oleic acid. Substitution of the surface oleate molecules by ligand exchange reaction with a PEG 600-silane derivative produced water dispersible nanoparticles with narrower size distribution and smaller hydrodynamic size than the first two generations of nanoparticles. The nanoparticles were found to accumulate in the liver after injection, as revealed by in vivo imaging studies performed on rats. The particles were further functionalized with the 64Cu2+ complex of a new dmptacn derivative, via the free carboxyl groups of the PEG chains, to produce an agent suitable for dual modal MRI-PET imaging.

Clinical Applications of Magnetic Nanoparticles

2018 Diagnostic imaging
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Release : 2018
Genre : Diagnostic imaging
Kind : eBook
Book Rating : 553/5 ( reviews)

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Book Synopsis Clinical Applications of Magnetic Nanoparticles by : Nguyen Tk Thanh

Download or read book Clinical Applications of Magnetic Nanoparticles written by Nguyen Tk Thanh. This book was released on 2018. Available in PDF, EPUB and Kindle. Book excerpt: Controlling the size and the shape of uniform magnetic iron oxide nanoparticles for biomedical applications / Helena Gavilán, María Eugenia Fortes Brollo, Lucía Gutiérrez, Sabino Veintemillas-Verdaguer and María del Puerto Morales -- Magnetic nanochains : properties, syntheses and prospects / Irena Milosevic, Vincent Russier, Marie-Louise Saboungi, Laurence Motte -- Carbon coated magnetic metal nanoparticles for clinical applications / Martin Zeltner and Robert N. Grass -- Bio-inspired magnetic nanoparticles for biomedical applications / Changqian Cao, Yongxin Pan -- Main challenges in surface biofunctionalization of magnetic nanoparticles for in vivo targeting / Laurent Adumeau, Marie-Hélène Delville and Stéphane Mornet -- Experimental considerations for scalable magnetic nanoparticle synthesis and surface functionalization for clinical applications / Alec P. LaGrow, Maximilian O. Besenhard, Roxanne Hachani and Nguyen T.H. Kim Thanh -- Magnetic polymersomes for MRI and theranostic applications / Adeline Hannecart, Dimitri Stanicki, Luce Vander Elst, Robert N. Muller, Sophie Laurent -- Ultra-small iron oxide nanoparticles stabilized with multidentate polymers for applications in MRI / Jung Kwon (John) Oh and Marc-André Fortin -- Encapsulation and release of drugs from magnetic silica nanocomposites / Damien Mertz and Sylvie Bégin-Colin -- Current progress in magnetic separation-aided biomedical diagnosis technology / Sim Siong Leong, Swee Pin Yeap, Siew Chun Low, Rohimah Mohamud and JitKang Lim -- Magnetic separation in integrated micro analytical systems / Kazunori Hoshino -- Magnetic nanoparticles for organelle separation / Mari Takahashi & Shinya Maenosono -- Magnetic nanoparticle based biosensing / Kai Wu, Diqing Su, Yinglong Feng, and Jian-Ping Wang -- Immunotoxicity and safety considerations for iron oxide nanoparticles / Gary Hannon, Melissa Anne Tutty, Adriele Prina-Mello -- Impact of core and functionalized magnetic nanoparticles on human health / Bella B. Manshian, Uwe Himmelreich, Stefaan J. Soenen -- Magnetic nanoparticles for cancer treatment using magnetic hyperthermia / Laura Asin, Grazyna Stepien, Maria Moros, Raluca M. Fratila, and Jesus M. de la Fuente -- Nanoparticles for nanorobotic agents dedicated to cancer therapy / Mahmood Mohammadi [and 6 others] -- Smart nanoparticles and the effects in magnetic hyperthermia in vivo / Ingrid Hilger -- Non-invasive guidance scheme of magnetic nanoparticles for drug delivery in Alzheimer's disease / Ali Kafash Hoshiar [and 5 others] -- Design, fabrication, and characterization of magnetic porous PDMS as an on-demand drug delivery device / Ali Shademani, Hongbin Zhang, Mu Chiao -- Magnetic particle transport in complex media / Lamar O. Mair [and 7 others] -- Magnetic nanoparticles for neural engineering / Gerardo F. Goya, Vittoria Raffa -- Radionuclide labeling and imaging of magnetic nanoparticles / Benjamin P. Burke, Christopher Cawthorne and Stephen J. Archibald -- Red blood cells constructs to prolong the life span of iron-based magnetic resonance imaging/magnetic particle imaging contrast agents in vivo / Antonella Antonelli, Mauro Magnani -- Stimuli-regulated cancer theranostics based on magnetic nanoparticles / Yanmin Ju, Shiyan Tong, and Yanglong Hou -- Good manufacturing practices (GMP) of magnetic nanoparticles / Emre Tuereli and Nazende Guenday Tuereli

Superparamagnetic Core/Shell Silica Nanoparticles for Stimuli-Responsive Drug Delivery, Therapeutics, and Diagnostics

2021
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Release : 2021
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Book Synopsis Superparamagnetic Core/Shell Silica Nanoparticles for Stimuli-Responsive Drug Delivery, Therapeutics, and Diagnostics by : fang-chu lin

Download or read book Superparamagnetic Core/Shell Silica Nanoparticles for Stimuli-Responsive Drug Delivery, Therapeutics, and Diagnostics written by fang-chu lin. This book was released on 2021. Available in PDF, EPUB and Kindle. Book excerpt: There is currently a high unmet medical need for chemotherapy and early diagnostics for cancer. Conventional direct administration of chemotherapeutic agents shows several major drawbacks, including restricted cellular penetration, low therapeutic indices, and low specificity to tumor cells thus consequently off-target toxicity in healthy cells. Nanoparticles with enhanced permeability and retention (EPR) effect provide both delivery and diagnostic modalities and show promise for addressing these challenges in cancer therapy. Superparamagnetic iron oxide nanoparticles (SPIONs) that respond to external magnetic fields can generate heat in the presence of an alternating magnetic field (AMF). Owing to this unique property, SPIONs are being used in clinics as magnetic resonance imaging T2 contrast agents and as AMF-induced therapeutic agents to treat cancers. Mesoporous silica nanoparticles embedded with SPIONs (SPION@MSNs) possess the advantageous features of both the SPION core and the shell, i.e., localized magnetic heating and a high payload of various cargo molecules such as anticancer drugs. A part of this dissertation focuses on the development of SPION@MSNs as a heat-activated drug delivery platform in which the precise drug release can be directly controlled by using AMF. To expand our knowledge base in this application, we first studied the local heating mechanism of SPIONs in suspension and in MSNs. We carried out this investigation by using fluorescence depolarization based on detecting the mobility-dependent polarization anisotropy of two luminescence emission bands corresponding to the luminescent SPION core and the shell of the SPION@MSNs. Utilizing magnetic heating, we designed magnetically activated and enzyme-responsive SPION@MSNs with extra-large pores for in vivo delivery and release of anticancer peptides on-demand. In addition, we introduced the design of MSNs-based delivery vehicles with a supramolecular capping system that traps the cargos in the pores of nanoparticles and only releases the cargos in response to ultrasound. Finally, by employing surface functionalization of silica, we developed new fluorinated ferrofluids that can be encapsulated in a microdroplet for measuring microenvironment stiffness, which has been shown to relate to tumor progression. Altogether, these works show the full potential of SPION core/shell nanoparticles for advancing cancer therapy and diagnostic.

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