Magnetic nanoparticles for medical diagnostics /

Magnetic Nanoparticles for Medical Diagnostics was written to encourage members of the medical profession to join experts from other research fields in exploring the unique physical properties of magnetic nanoparticles for medical applications. It demonstrates the evolution from small groups of scie...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Sandhu, Adarsh (Editor ), Handa, H. (Hiroshi), 1946- (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]
Colección:IOP (Series). Release 5.
IOP expanding physics.
Series in physics and engineering in medicine and biology.
Temas:
Nanostructures > Magnetic properties.
Nanomedicine.
Diagnostic imaging.
Magnetite Nanoparticles > therapeutic use.
Drug Carriers > therapeutic use.
Diagnostic Imaging.
Nanotechnology.
SCIENCE / Nanoscience.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Portable magnetic probe for detecting magnetic nanoparticles inside the body
  • 1.1. Sentinel lymph node biopsy
  • 1.2. Use of magnetic nanoparticles for sentinel lymph node biopsy
  • 1.3. Pharmacokinetics of magnetic nanoparticles in the lymphatic system
  • 1.4. Techniques for detecting magnetic nanoparticles
  • 1.5. Portable magnetic probe using a permanent magnet
  • 1.6. Clinical applications
  • 1.7. Conclusions and future prospects
  • 2. Magnetic separation of organelles using magnetic beads
  • 2.1. Introduction
  • 2.2. Magnetic separation of endosomes
  • 2.3. Magnetic separation of exosomes
  • 2.4. Magnetic separation of mitochondria
  • 2.5. Magnetic separation of autophagosomes
  • 2.6. Conclusions and future outlook
  • 3. Development of a new affinity nanobead technology and target isolation of bioactive compounds
  • 3.1. Introduction
  • 3.2. Preparation of SG beads
  • 3.3. Immobilization of DNA to SG beads
  • 3.4. Purification of a transcriptional regulatory factor bound to a specific DNA sequence
  • 3.5. Purification from crude cell extract with SG-DNA beads
  • 3.6. Development of FG beads
  • 3.7. Identification of the direct targets of internal bioactive compounds
  • 3.8. Identification of the direct targets of natural products
  • 3.9. Identification of the direct targets of pharmaceutical drugs
  • 3.10. Identification of a direct target of thalidomide using FG beads
  • 3.11. Functions of CRBN, the common direct primary target of IMiDs and other glutarimide-containing compounds
  • 3.12. Development of a new type of CRBN-based drug
  • 3.13. Conclusions
  • 4. Fluorescent magnetic beads for medical diagnostics
  • 4.1. Introduction
  • 4.2. Production of novel fluorescent magnetic beads (fluorescent ferrite beads; FF beads)
  • 4.3. Functionalization of FF beads
  • 4.4. Fast DNA hybridization using magnetic collection of FF beads
  • 4.5. Rapid sandwich immunoassay introducing magnetic collection of FF beads : fast detection of the heart failure biomarker BNP
  • 4.6. Rapid sandwich immunoassay introducing magnetic collection of FFbeads : fast detection of the prostate cancer biomarker PSA
  • 4.7. Rapid immunostaining introducing magnetic collection of FF beads
  • 4.8. Conclusion
  • 5. Development of surface-modified magnetic nanoparticles for medical applications
  • 5.1. Medical uses of magnetic materials
  • 5.2. Preparation of magnetic nanoparticles
  • 5.3. Virus capsid proteins
  • 5.4. Scientific and medical applications of virus capsid protein
  • 5.5. Technologies that modify the surface of viral capsids
  • 5.6. Technologies used to encapsulate materials within the virus capsid
  • 5.7. Development of functional viral capsid-coated artificial beads, including magnetic nanoparticles
  • 5.8. Medical applications of functional viral capsid-coated artificial beads, including magnetic nanoparticles
  • 5.9. Conclusion
  • 6. Magnetic hyperthermia treatment
  • 6.1. Introduction to magnetic hyperthermia
  • 6.2. Principle of magnetic hyperthermia
  • 6.3. Measurement of specific loss power (SLP)
  • 6.4. Iron oxide based heating mediators
  • 6.5. In vivo studies
  • 6.6. Implant-type heating mediators
  • 6.7. Alternating magnetic field applicator
  • 6.8. Prospects
  • 7. Synthesis, dispersion and application of stable magnetic colloids
  • 7.1. Introduction
  • 7.2. History of magnetic fluid
  • 7.3. Synthesis of magnetic nanoparticles
  • 7.4. Stability of magnetic fluid
  • 7.5. Preparation of magnetic fluid
  • 7.6. Magnetic fluid based applications
  • 7.7. Summary
  • 8. Optical and magnetic detection of magnetic beads for medical diagnostics for point of care testing
  • 8.1. Introduction
  • 8.2. Review of magnetic particle detection methods
  • 8.3. Non-specific interaction of magnetic particles
  • 8.4. Design of micro-coils
  • 8.5. Experimental evaluation
  • 8.6. Quantitative detection of biotin
  • 8.7. Digital image processing
  • 8.8. Conclusion and future work.

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