Detail publikace

Fractal Dimension of In-vivo and Ex-vivo Rabbit HRV Series

Originální název

Fractal Dimension of In-vivo and Ex-vivo Rabbit HRV Series

Anglický název

Fractal Dimension of In-vivo and Ex-vivo Rabbit HRV Series

Jazyk

en

Originální abstrakt

Fractal dimensions of beat-to-beat series have been estimated by box-count algorithm in five New Zealand white rabbits and five isolated New Zealand rabbit hearts. In-vivo hearts beat-to-beat series have fractal dimension value equal to 1.49+/-0.03, whereas fractal dimension for ex-vivo hearts series is equal to 1.45+/-0.14. The fractal dimension of in-vivo hearts beat-to-beat series does not statistically differ (a = 0.05) from those of the isolated hearts, indicating that fractal features of heart rate variability are probably predominantly affected by intrinsic behaviour of the heart.

Anglický abstrakt

Fractal dimensions of beat-to-beat series have been estimated by box-count algorithm in five New Zealand white rabbits and five isolated New Zealand rabbit hearts. In-vivo hearts beat-to-beat series have fractal dimension value equal to 1.49+/-0.03, whereas fractal dimension for ex-vivo hearts series is equal to 1.45+/-0.14. The fractal dimension of in-vivo hearts beat-to-beat series does not statistically differ (a = 0.05) from those of the isolated hearts, indicating that fractal features of heart rate variability are probably predominantly affected by intrinsic behaviour of the heart.

BibTex


@inproceedings{BUT107918,
  author="Oto {Janoušek} and Marina {Ronzhina} and Jana {Kolářová} and Ivo {Provazník} and Tibor {Stračina} and Veronika {Olejníčková} and Marie {Nováková}",
  title="Fractal Dimension of In-vivo and Ex-vivo Rabbit HRV Series",
  annote="Fractal dimensions of beat-to-beat series have been estimated by box-count algorithm in five New Zealand white rabbits and five isolated New Zealand rabbit hearts. In-vivo hearts beat-to-beat series have fractal dimension value equal to 1.49+/-0.03, whereas fractal dimension for ex-vivo hearts series is equal to 1.45+/-0.14. The fractal dimension of in-vivo hearts beat-to-beat series does not statistically differ (a = 0.05) from those of the isolated hearts, indicating that fractal features of heart rate variability are probably predominantly affected by intrinsic behaviour of the heart.",
  address="Slovak Academy of Science",
  booktitle="Proceedings of the 41th International Congress on Electrocardiology",
  chapter="107918",
  howpublished="print",
  institution="Slovak Academy of Science",
  year="2014",
  month="june",
  pages="25--28",
  publisher="Slovak Academy of Science",
  type="conference paper"
}