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100   $a20111223d2012      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 00$aMagnetic nanoparticles$b[electronic resource] $eproperties, synthesis and applications /$fBeate Acklin and Edon Lautens, editors
210   $aNew York $cNova Science Publishers$dc2012
215   $a1 online resource (336 p.)
225 1 $aNanotechnology science and technology
225  0$aPhysics research and technology
300   $aDescription based upon print version of record.
311   $a1-61942-424-X 
320   $aIncludes bibliographical references and index.
327   $a""MAGNETIC NANOPARTICLES ""; ""MAGNETIC NANOPARTICLES ""; ""CONTENTS""; ""PREFACE ""; ""FORMULATIONS FOR LOCAL,  MAGNETICALLY MEDIATED HYPERTHERMIA  TREATMENT OF SOLID TUMORS ""; ""ABSTRACT ""; ""1. INTRODUCTION: UNDERSTANDING THE  COMPLEXITY OF HYPERTHERMIA ""; ""1.1. Biological and Clinical Rationale for Induced Hyperthermia ""; ""1.1.1. Heat Effects and Toxicity at Cellular Level""; ""Morphostructural Changes Induced by Heat ""; ""Metabolic Effects of Heat ""; ""Heat Cytotoxicity and Thermal Dosimetry ""; ""Molecular Biology of Stress Responses: Heat Shock, Hypoxia and Connections ""
327   $a""1.2.1. Hyperthermia in Oncology """"Hyperthermia Treatment Modalities ""; ""Hyperthermia and Solid Tumor Pathophysiology""; ""Hyperthermic Therapy Combinations, Emphasis on Embolization Procedures ""; ""Hyperthermia and Immunological Considerations ""; ""1.2. Current Technical Status of Induced Hyperthermia ""; ""1.2.1. Physical Modalities for Induced Hyperthermia ""; ""1.2.2. Inductive Modalities ""; ""1.2.3. Magnetic Losses ""; ""Hysteresis Losses ""; ""Losses by Magnetic Relaxations ""; ""2. FORMULATIONS FOR LOCAL HYPERTHERMIA TREATMENT  OF HARD TISSUE TUMORS ""
327   $a""2.1. Magnetic Ceramic, Glass and Glass-Ceramic Materials """"2.2. Glass/Ceramic Particles and Microspheres""; ""2.3. Magnetic Materials for Cementoplasty""; ""3. FORMULATIONS AND MINIMALLY INVASIVE PROCEDURES FOR MAGNETICALLY MEDIATED LOCAL HYPERTHERMIA TREATMENT OF SOFT TISSUE TUMORS  ""; ""3.1. Arterial Injections and Arterial Embolization Hyperthermia (AEH) ""; ""3.1.1. Microparticles ""; ""3.1.2. Formulation Forming-Depot ""; ""3.2. Intratumoral Direct Injection Hyperthermia (DIH)""; ""3.2.1. Formulation Forming Depot ""; ""3.2.2. Formulations Forming Implants In Situ ""
327   $a""4. MAGNETIC LIPOSOMES AND LOCAL HYPERTHERMIA  TREATMENT OF TUMORS """"4.1. General Characteristics of Liposomes ""; ""4.2. Magnetoliposomes and Magnetically Induced Local  Hyperthermia of Tumor""; ""4.3. Immunoconjugated Magnetoliposomes for the Systemic Approach of Magnetically Mediated Hyperthermia of  Solid Tumors ""; ""4.3.1. Magnetoliposomes Conjugated with Anti CA9 (Human MN) Antigen Antibodies ""; ""4.3.2. Magnetoliposomes Coupled with Anti-HER2 Antibodies ""; ""Anti-HER2 Immunoconjugated Magnetoliposomes and Pharmaceutical Considerations Associated with Anti-HER2 Antibodies""
327   $a""Anti-HER2 Immunoconjugated Magnetoliposomes and Micropharmacology Considerations Associated with Non Magnetic Anti-HER2 Immunoliposomes""""4.4. Cationic Magnetoliposomes in Bone Metastasis of Prostate Cancer Model ""; ""4.5. Neutral Magnetoliposomes: Targeting Draining Lymphatic Nodes for Magnetic Hyperthermia ""; ""CONCLUSION ""; ""ACKNOWLEDGMENTS ""; ""6. LIST OF ABBREVIATIONS, UNITS, NOTATIONS AND SYMBOLS""; ""REFERENCES ""; ""ORGANIC BASED MAGNETIC NANOPARTICLES-POLYMERS AND VARIOUS CALIXARENE BASED MAGNETIC NANOPARTICLES ""; ""ABSTRACT ""; ""INTRODUCTION""
327   $a""1. MAGNETIC NANOPARTICLE- POLYMERS  ""
410  0$aNanotechnology science and technology series.
606   $aNanoparticles$xMagnetic properties
606   $aNanostructures$xMagnetic properties
608   $aElectronic books.
615  0$aNanoparticles$xMagnetic properties.
615  0$aNanostructures$xMagnetic properties.
676   $a620.1/15
701   $aAcklin$b Beate$0903214
701   $aLautens$b Edon$0903215
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910452675503321
996   $aMagnetic nanoparticles$92019047
997   $aUNINA