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دانلود کتاب Nanozymes in Medicine
دانلود کتاب نانوزیم ها در پزشکی
مشخصات کتاب
Nanozymes in Medicine
ویرایش: نویسندگان: Hemant Kumar Daima, Navya PN, Eric Lichtfouse سری: Environmental Chemistry for a Sustainable World, 72 ISBN (شابک) : 3031205804, 9783031205804 ناشر: Springer سال نشر: 2023 تعداد صفحات: 221 [222] زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 8 Mb
قیمت کتاب (تومان) : 34,000
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توجه داشته باشید کتاب نانوزیم ها در پزشکی نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب نانوزیم ها در پزشکی
این کتاب آخرین پیشرفتها و کاربردهای زیستپزشکی نانوزیمها را بررسی میکند، که نانومواد مصنوعی هستند که خواص آنزیمی مشابه آنزیمهای طبیعی، اما با محدودیتهای کمتر نسبت به آنزیمهای طبیعی دارند. نانوزیمها مزایایی مانند سنتز آسان، اصلاح سطح آسان، پایداری بهبود یافته، قدرت کاتالیزوری بالاتر و اتصال ویژه هدف را نشان میدهند. نانوزیمهای حاوی فلزات، اکسیدهای فلزی، کربن و سولفید فلز در واقع برای درمان سرطان، سنجش بیومولکولها، تصویربرداری زیستی، تشخیص بیماری و مدیریت دیابت استفاده میشوند. این کتاب مکانیسمها، مفاهیم، روندهای اخیر، محدودیتها و چشماندازهای نانوپزشکی با استفاده از نانوزیمها را افشا میکند.
توضیحاتی درمورد کتاب به خارجی
This book reviews the latest advances and biomedical applications of nanozymes, which are artificial nanomaterials exhibiting enzymatic properties similar to natural enzymes, but with less limitations than natural enzymes. Nanozymes display advantages such as facile synthesis, easy surface modification, improved stability, higher catalytic power, and target-specific binding. Nanozymes containing metals, metal oxides, carbon, and metal sulfide are actually used for cancer therapy, biomolecules sensing, bioimaging, disease diagnostics and diabetes management. The book discloses underlying mechanisms, concepts, recent trends, constraints, and prospects for nanomedicine using nanozymes.
فهرست مطالب
Preface Contents About the Editors Chapter 1: Nanocerium Oxide in Medicine, Agriculture and the Industry 1.1 Introduction 1.2 Unique Chemico-Structural Features of Nano Cerium Oxide that Enable It to Offer Such Diverse Array of Applications 1.3 Nano Cerium Oxide as an Emerging Nano Medicine 1.3.1 Radioprotection and Anticancer Activity 1.3.2 Neonatal-Adult Photoreceptor Survival and Anti-Apoptotic Activity 1.3.3 Neuro-Protection, Treatment of Spinal Cord Injuries, Neurodegenerative Diseases of Spinal Cord, and Maintaining Mitochondrial Membrane Potential 1.3.4 Safeguarding Cardiac Muscle 1.3.5 Altering Skeletal Muscle Physiology and Subsequent Application in Sports Medicine 1.3.6 High Altitude Medicine Against Hypobaric-Hypoxia 1.3.7 Virucidal and Anti-microbial Activity 1.3.8 UV Shielding Property, Skin Protection and Skin Tissue Engineering 1.3.9 Diabetes, Islet of Langerhans Cells of Pancreas and Gestational Diabetes 1.3.10 Female Reproductive Health 1.3.11 Wound Healing and Sepsis 1.3.12 Endothelial Cell Healing and Cardiovascular Diseases 1.3.13 Bone Development, Regeneration and Bone Tissue Engineering 1.3.14 Magnetic Resonance Imaging Contrasting Agent 1.3.15 Inorganic Antioxidant Enzyme 1.4 Nano Cerium Oxide as a Nano Bio-sensor 1.4.1 Hydrogen Peroxide Sensor 1.4.2 Lactate Biosensor 1.4.3 Dopamine Sensing 1.4.4 Detecting Chronic Inflammation Via Optical and Magnetic Resonance Imaging 1.5 Nano Cerium Oxide as a Promising Bio-electrode Material for Wearable Electronics 1.6 Nano Cerium Oxide as a Photocatalytic Agent and as Oxidase in Destroying Organic Dyes of Environmental Concern 1.7 Nano Cerium Oxide in Agriculture 1.7.1 Soil, Foliar Application, Transport and Transformation 1.7.2 UV Protection to Crops 1.7.3 Nano Cerium Oxide in Plant Disease 1.7.4 Effect on Antioxidant Defence System of Plants 1.7.5 Effect on the Quality of the Fruit, Grain and Next Generation of Seeds and Germination 1.7.5.1 Low Starch Rice 1.7.5.2 Reduced Sugar and Mineral Content in Tomato Fruits 1.7.5.3 Effect on Seed Germination 1.8 Conclusions References Chapter 2: Synthesis and Sensing Applications of Peroxidase-Mimic Nanozymes 2.1 Introduction 2.2 Synthesis of Peroxidase Mimic Nanomaterial 2.2.1 Copper Oxide Based Nanomaterials 2.2.2 Cerium Oxide Based Nanomaterials 2.2.3 Iron Oxide Nanoparticles Based Nanomaterials 2.2.4 Vanadium Based Nanomaterials 2.3 Biomolecule Sensing 2.3.1 Glucose Sensor 2.3.2 Cholesterol Sensor 2.3.3 Disease Biomarker Detection 2.3.4 Hydrogen Peroxide Sensor 2.4 Conclusion 2.5 Future Prospects References Chapter 3: Nanozymes for Glucose Sensing and Diabetes Management 3.1 Introduction 3.2 Nanozymes in Glucose Sensing and Diabetes Management 3.2.1 Metal-Based Nanozymes 3.2.2 Metal Oxide-Based Nanozymes 3.2.3 Carbon-Based Nanozymes 3.2.4 Metal Sulfide-Based Nanozyme 3.3 Challenges, and Perspectives References Chapter 4: Nanozymes for Bioimaging and Disease Diagnostics 4.1 Introduction 4.2 Natural Enzymes Versus Nanozymes 4.3 How Are Nanozymes Significant in Bio-Imaging and Disease Diagnostics? 4.3.1 Role of Nanozymes in Bio-Imaging 4.3.1.1 Peroxidase Like Nanozymes 4.3.1.2 Superoxide Dismutase Like Nanozymes 4.3.1.3 Catalase Like Nanozymes 4.3.2 Nanozymes for Pathological Disease Diagnosis 4.3.2.1 Peroxidase Mimics 4.3.2.2 Catalase Mimics 4.3.2.3 Oxidase Mimics 4.3.2.4 Multi-enzyme-Mimicking Nanozymes 4.3.3 Applications of Nanozymes in Detection of COVID-19 4.4 Limitations of Nanozymes 4.5 Conclusion References Chapter 5: Nanozymes for Improving Anticancer Therapy 5.1 Introduction 5.2 History, Classification and Role of Nanozymes 5.3 Nanozyme-Based Cancer Diagnosis 5.3.1 Nanozymes for Cancer Genes Detection 5.3.2 Nanozymes for Tumor Marker Molecules Detection 5.3.3 Nanozymes for Tumor Cells Detection 5.3.4 Nanozymes for Tumor Tissues Detection 5.4 Nanozyme Based Cancer Imaging Strategies 5.5 Nanozyme Based Cancer Therapeutics 5.5.1 Nanozymes in Tumor Catalytic Therapy 5.5.2 Nanozymes for Improving Chemotherapy Efficiency 5.5.3 Nanozymes for Improving Radiotherapy Efficiency 5.5.4 Nanozymes for Improving Photodynamic Therapy Efficiency 5.5.5 Nanozymes for Improving Sonodynamic Therapy Efficiency 5.5.6 Nanozymes for Improving Combination Therapy Efficiency 5.6 Limitations & Future Prospects 5.6.1 Diagnosis Strategies 5.6.2 Imaging Strategies 5.6.3 Therapeutic Strategies 5.7 Conclusion References Chapter 6: Enzyme-Based Nanomedicine for Cancer Therapy 6.1 Introduction 6.2 Enzyme Functionalized Nanoparticles Against Cancer 6.2.1 Colon Cancer 6.2.2 Breast Cancer 6.2.3 Lung and Bone Cancer 6.2.4 Prostate Cancer 6.3 Enzyme Conjugated Nanoparticles for Prodrug Activation 6.4 Nanozymes Against Cancer 6.5 Enzyme Triggered Nanomedicine 6.6 Challenges 6.7 Future Perspectives 6.8 Conclusions References Chapter 7: Synthesis of Two-Dimensional Metal, Metal Oxide and Metal Hydroxide Nanomaterials for Biosensing 7.1 Introduction 7.2 General Synthetic Methods 7.2.1 Bottom-Up Approach 7.2.2 Top-Down Approach 7.3 Synthesis of 2D Materials- in Perspective to Metal, Metal Oxides and Metal Hydroxides 7.3.1 Metal-Enes (2D Xenes) 7.3.2 2D Metal-Oxides 7.3.3 2D Metal Hydroxides 7.4 2D Materials – Next-Generation Biosensors 7.4.1 2D Metal-Enes Based Biosensors 7.4.2 2D Metal Oxide Based Biosensors 7.4.3 2D Metal Hydroxide Based Biosensors 7.5 Conclusion References Chapter 8: Biological Applications of Nanozymes 8.1 Introduction 8.2 Types of Nanozymes 8.2.1 Metal-Based Nanozymes 8.2.2 Metal Oxide Based Nanozymes 8.2.3 Carbon Based Nanozymes 8.3 Catalytic Mechanism and Kinetics of Nanozymes 8.3.1 Superoxide Dismutase 8.3.2 Peroxidase 8.4 Biological Applications of Nanozymes 8.4.1 Immunological Assays 8.4.2 Biosensors 8.4.3 Disease Imaging and Therapy 8.5 Challenges 8.6 Future Directions 8.7 Conclusions References
