Multimodality Imaging of Silica and Silicon Materials In Vivo

Recent progress in the development of silica‐ and silicon‐based multimodality imaging nanoprobes has advanced their use in image‐guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and sil...

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Published inAdvanced materials (Weinheim) Vol. 30; no. 24; pp. e1703651 - n/a
Main Authors Karaman, Didem Şen, Sarparanta, Mirkka P., Rosenholm, Jessica M., Airaksinen, Anu J.
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 01.06.2018
Subjects
Biocompatibility
Biocompatible Materials
Diagnostic software
Diagnostic systems
Drug Carriers
Drug Delivery Systems
image‐guided drug delivery
Imaging
in vivo imaging
In vivo methods and tests
Materials science
mesoporous silica nanoparticles
Morphology
Multimodal Imaging
Nanoparticles
nanotheranostics
Organic chemistry
Porosity
porous silicon
Silicon
Silicon Dioxide
nanotheranostics
mesoporous silica nanoparticles
image-guided drug delivery
in vivo imaging
porous silicon
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Abstract Recent progress in the development of silica‐ and silicon‐based multimodality imaging nanoprobes has advanced their use in image‐guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and silicon provide excellent platforms with high clinical potential in nanotheranostic and diagnostic probes with well‐defined morphology and surface chemistry, yielding multifunctional properties. In vivo imaging is of great value in the exploration of methods for improving site‐specific nanotherapeutic delivery by silica‐ and silicon‐based drug‐delivery systems. Multimodality approaches are essential for understanding the biological interactions of nanotherapeutics in the physiological environment in vivo. The aim here is to describe recent advances in the development of in vivo imaging tools based on nanostructured silica and silicon, and their applications in single and multimodality imaging. Silica and silicon are excellent material platforms for generating multimodality imaging probes for diagnostic and nanotheranostic applications. Being versatile materials with multifunctional properties, they can be extensively used for the creation of novel drug‐delivery systems for site‐specific nanotherapeutics. When developed into multimodality imaging probes, they are excellent tools for investigating biological interactions of the nanotherapeutics in the physiological environment.
AbstractList Recent progress in the development of silica- and silicon-based multimodality imaging nanoprobes has advanced their use in image-guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and silicon provide excellent platforms with high clinical potential in nanotheranostic and diagnostic probes with well-defined morphology and surface chemistry, yielding multifunctional properties. In vivo imaging is of great value in the exploration of methods for improving site-specific nanotherapeutic delivery by silica- and silicon-based drug-delivery systems. Multimodality approaches are essential for understanding the biological interactions of nanotherapeutics in the physiological environment in vivo. The aim here is to describe recent advances in the development of in vivo imaging tools based on nanostructured silica and silicon, and their applications in single and multimodality imaging.
Recent progress in the development of silica‐ and silicon‐based multimodality imaging nanoprobes has advanced their use in image‐guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and silicon provide excellent platforms with high clinical potential in nanotheranostic and diagnostic probes with well‐defined morphology and surface chemistry, yielding multifunctional properties. In vivo imaging is of great value in the exploration of methods for improving site‐specific nanotherapeutic delivery by silica‐ and silicon‐based drug‐delivery systems. Multimodality approaches are essential for understanding the biological interactions of nanotherapeutics in the physiological environment in vivo. The aim here is to describe recent advances in the development of in vivo imaging tools based on nanostructured silica and silicon, and their applications in single and multimodality imaging. Silica and silicon are excellent material platforms for generating multimodality imaging probes for diagnostic and nanotheranostic applications. Being versatile materials with multifunctional properties, they can be extensively used for the creation of novel drug‐delivery systems for site‐specific nanotherapeutics. When developed into multimodality imaging probes, they are excellent tools for investigating biological interactions of the nanotherapeutics in the physiological environment.
Recent progress in the development of silica- and silicon-based multimodality imaging nanoprobes has advanced their use in image-guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and silicon provide excellent platforms with high clinical potential in nanotheranostic and diagnostic probes with well-defined morphology and surface chemistry, yielding multifunctional properties. In vivo imaging is of great value in the exploration of methods for improving site-specific nanotherapeutic delivery by silica- and silicon-based drug-delivery systems. Multimodality approaches are essential for understanding the biological interactions of nanotherapeutics in the physiological environment in vivo. The aim here is to describe recent advances in the development of in vivo imaging tools based on nanostructured silica and silicon, and their applications in single and multimodality imaging.Recent progress in the development of silica- and silicon-based multimodality imaging nanoprobes has advanced their use in image-guided drug delivery, and the development of novel systems for nanotheranostic and diagnostic applications. As biocompatible and flexibly tunable materials, silica and silicon provide excellent platforms with high clinical potential in nanotheranostic and diagnostic probes with well-defined morphology and surface chemistry, yielding multifunctional properties. In vivo imaging is of great value in the exploration of methods for improving site-specific nanotherapeutic delivery by silica- and silicon-based drug-delivery systems. Multimodality approaches are essential for understanding the biological interactions of nanotherapeutics in the physiological environment in vivo. The aim here is to describe recent advances in the development of in vivo imaging tools based on nanostructured silica and silicon, and their applications in single and multimodality imaging.
Author Karaman, Didem Şen
Rosenholm, Jessica M.
Airaksinen, Anu J.
Sarparanta, Mirkka P.
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  givenname: Mirkka P.
  orcidid: 0000-0002-2956-4366
  surname: Sarparanta
  fullname: Sarparanta, Mirkka P.
  organization: University of Helsinki
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  givenname: Jessica M.
  orcidid: 0000-0001-6085-1112
  surname: Rosenholm
  fullname: Rosenholm, Jessica M.
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  givenname: Anu J.
  orcidid: 0000-0002-5943-3105
  surname: Airaksinen
  fullname: Airaksinen, Anu J.
  email: anu.airaksinen@helsinki.fi
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Issue 24
Keywords nanotheranostics
mesoporous silica nanoparticles
image-guided drug delivery
in vivo imaging
porous silicon
Language English
License http://onlinelibrary.wiley.com/termsAndConditions#vor
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Snippet Recent progress in the development of silica‐ and silicon‐based multimodality imaging nanoprobes has advanced their use in image‐guided drug delivery, and the...
Recent progress in the development of silica- and silicon-based multimodality imaging nanoprobes has advanced their use in image-guided drug delivery, and the...
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SubjectTerms Biocompatibility
Biocompatible Materials
Diagnostic software
Diagnostic systems
Drug Carriers
Drug Delivery Systems
image‐guided drug delivery
Imaging
in vivo imaging
In vivo methods and tests
Materials science
mesoporous silica nanoparticles
Morphology
Multimodal Imaging
Nanoparticles
nanotheranostics
Organic chemistry
Porosity
porous silicon
Silicon
Silicon Dioxide
Title Multimodality Imaging of Silica and Silicon Materials In Vivo
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fadma.201703651
https://www.ncbi.nlm.nih.gov/pubmed/29388264
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https://www.proquest.com/docview/1993387760
Volume 30
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