Publication detail

Study of the Colloidal Properties of Phospholipids Microbubbles

PILGROVÁ, T. MRAVEC, F. ORBAN, M. PEKAŘ, M.

Original Title

Study of the Colloidal Properties of Phospholipids Microbubbles

English Title

Study of the Colloidal Properties of Phospholipids Microbubbles

Type

abstract

Language

en

Original Abstract

A new physico-chemical approach to characterization of phospholipid microbubbles was found. Dynamic light scattering method and maximum bubble pressure tensiometry was used for study of colloidal properties of phospholipids aggregates in relation to the microbubble applications. Size distribution and surface activity of SonoVue® contrast agent and analogous phospholipid system were studied for evaluation of an effect of a system composition on final properties and stability of the system.

English abstract

A new physico-chemical approach to characterization of phospholipid microbubbles was found. Dynamic light scattering method and maximum bubble pressure tensiometry was used for study of colloidal properties of phospholipids aggregates in relation to the microbubble applications. Size distribution and surface activity of SonoVue® contrast agent and analogous phospholipid system were studied for evaluation of an effect of a system composition on final properties and stability of the system.

Keywords

microbubbles, tensiometry, dynamic light scattering, phospholipids

Released

21.01.2016

Publisher

The 21 European Symposium on Ultrasound Contrast Imaging, Book of Abstracts

Location

Rotterdam

Pages from

110

Pages to

110

Pages count

1

BibTex


@misc{BUT122162,
  author="Tereza {Pilgrová} and Filip {Mravec} and Marek {Orban} and Miloslav {Pekař}",
  title="Study of the Colloidal Properties of Phospholipids Microbubbles",
  annote="A new physico-chemical approach to characterization of phospholipid microbubbles was found. Dynamic light scattering method and maximum bubble pressure tensiometry was used for study of colloidal properties of phospholipids aggregates in relation to the microbubble applications. Size distribution and surface activity of SonoVue® contrast agent and analogous phospholipid system were studied for evaluation of an effect of a system composition on final properties and stability of the system.",
  address="The 21 European Symposium on Ultrasound Contrast Imaging, Book of Abstracts",
  booktitle="The 21st European Symposium on Ultrasound Contrast Imaging, Abstract book",
  chapter="122162",
  howpublished="print",
  institution="The 21 European Symposium on Ultrasound Contrast Imaging, Book of Abstracts",
  year="2016",
  month="january",
  pages="110",
  publisher="The 21 European Symposium on Ultrasound Contrast Imaging, Book of Abstracts",
  type="abstract"
}