High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats

High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats

The decrease in brain derived neurotrophic factor (BDNF) expression and number of hippocampal neurons are two indicators in the decrease of memory function, cognitive, and learning function. The present study aimed to determine BDNF expression and the number of hippocampal neurons on moderate and hi...

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Main Authors: Adi Pranoto, -, E. Wahyudi, -, RE Prasetya, -, Shifa Fauziyah, -, Rias Gesang Kinanti, -, Sugiharto, -, Purwo Sri Rejeki, -
Format: Article PeerReviewed
Language:English
English
English
English
Published: Wageningen Academic Publishers 2020
Subjects:
R Medicine (General)
RA Public aspects of medicine
Online Access:https://repository.unair.ac.id/103460/1/Artikel%20High%20Intensity.pdf
https://repository.unair.ac.id/103460/2/High%20intensity.pdf
https://repository.unair.ac.id/103460/3/High%20Intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf
https://repository.unair.ac.id/103460/5/High%20intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf
https://repository.unair.ac.id/103460/
https://www.wageningenacademic.com/doi/abs/10.3920/CEP190063
https://doi.org/10.3920/CEP190063
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spelling id-langga.1034602021-11-02T08:00:16Z https://repository.unair.ac.id/103460/ High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats Adi Pranoto, - E. Wahyudi, - RE Prasetya, - Shifa Fauziyah, - Rias Gesang Kinanti, - Sugiharto, - Purwo Sri Rejeki, - R Medicine (General) RA Public aspects of medicine The decrease in brain derived neurotrophic factor (BDNF) expression and number of hippocampal neurons are two indicators in the decrease of memory function, cognitive, and learning function. The present study aimed to determine BDNF expression and the number of hippocampal neurons on moderate and high intensity exercise by listening to music. Design of the present study was a randomised control group post-test only design. A total of 33 male rats, Rattus norvegicus strain Wistar, aged eight weeks, with body weight 160±20 g were randomly divided into three groups: Group 1 (G1) (n=11, control group without intervention), Group 2 (G2) (n=11, performed moderate intensity exercise, treadmill 14-16 m/min for 30 min by listening to pop music with fast tempo of 160 beats/min) and Group 3 (G3) (n=11, high intensity exercise, treadmill 22-25 m/min for 20 min by listening to pop music with fast tempo of 160 beats/min). The intervention was performed between 17:00-21:00 pm, three times per week for 12 weeks. Blood and brain samples were obtained and evaluated 12 h after the end of the last exercise. BDNF serum was measured using ELISA and hippocampal neurons were stained by haematoxylin-eosin and counted using OlyVIA software. Study results showed a BDNF for G1 of 1,098.14±135.31 pg/ml, G2 of 1,113.72±65.87 pg/ml, and G3 of 1,331.56±105.35 pg/ml (P=0.001). The total number of hippocampal neurons for G1 was 54.75±6.83 cells, for G2 59.87±7.68 cells, and G3 80.58±9.79 cells (P=0.001). According to the study it can be concluded that high intensity exercise combined by listening to music with a fast tempo of 160 beats/min increases BDNF expression and the number of hippocampal neurons. Wageningen Academic Publishers 2020 Article PeerReviewed text en https://repository.unair.ac.id/103460/1/Artikel%20High%20Intensity.pdf text en https://repository.unair.ac.id/103460/2/High%20intensity.pdf text en https://repository.unair.ac.id/103460/3/High%20Intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf text en https://repository.unair.ac.id/103460/5/High%20intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf Adi Pranoto, - and E. Wahyudi, - and RE Prasetya, - and Shifa Fauziyah, - and Rias Gesang Kinanti, - and Sugiharto, - and Purwo Sri Rejeki, - (2020) High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats. Comparative Exercise Physiology, 16 (4). pp. 325-332. ISSN 17552540 https://www.wageningenacademic.com/doi/abs/10.3920/CEP190063 https://doi.org/10.3920/CEP190063
institution Universitas Airlangga
building Universitas Airlangga Library
continent Asia
country Indonesia
Indonesia
content_provider Universitas Airlangga Library
collection UNAIR Repository
language English
English
English
English
topic R Medicine (General)
RA Public aspects of medicine
spellingShingle R Medicine (General)
RA Public aspects of medicine
Adi Pranoto, -
E. Wahyudi, -
RE Prasetya, -
Shifa Fauziyah, -
Rias Gesang Kinanti, -
Sugiharto, -
Purwo Sri Rejeki, -
High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
description The decrease in brain derived neurotrophic factor (BDNF) expression and number of hippocampal neurons are two indicators in the decrease of memory function, cognitive, and learning function. The present study aimed to determine BDNF expression and the number of hippocampal neurons on moderate and high intensity exercise by listening to music. Design of the present study was a randomised control group post-test only design. A total of 33 male rats, Rattus norvegicus strain Wistar, aged eight weeks, with body weight 160±20 g were randomly divided into three groups: Group 1 (G1) (n=11, control group without intervention), Group 2 (G2) (n=11, performed moderate intensity exercise, treadmill 14-16 m/min for 30 min by listening to pop music with fast tempo of 160 beats/min) and Group 3 (G3) (n=11, high intensity exercise, treadmill 22-25 m/min for 20 min by listening to pop music with fast tempo of 160 beats/min). The intervention was performed between 17:00-21:00 pm, three times per week for 12 weeks. Blood and brain samples were obtained and evaluated 12 h after the end of the last exercise. BDNF serum was measured using ELISA and hippocampal neurons were stained by haematoxylin-eosin and counted using OlyVIA software. Study results showed a BDNF for G1 of 1,098.14±135.31 pg/ml, G2 of 1,113.72±65.87 pg/ml, and G3 of 1,331.56±105.35 pg/ml (P=0.001). The total number of hippocampal neurons for G1 was 54.75±6.83 cells, for G2 59.87±7.68 cells, and G3 80.58±9.79 cells (P=0.001). According to the study it can be concluded that high intensity exercise combined by listening to music with a fast tempo of 160 beats/min increases BDNF expression and the number of hippocampal neurons.
format Article
PeerReviewed
author Adi Pranoto, -
E. Wahyudi, -
RE Prasetya, -
Shifa Fauziyah, -
Rias Gesang Kinanti, -
Sugiharto, -
Purwo Sri Rejeki, -
author_facet Adi Pranoto, -
E. Wahyudi, -
RE Prasetya, -
Shifa Fauziyah, -
Rias Gesang Kinanti, -
Sugiharto, -
Purwo Sri Rejeki, -
author_sort Adi Pranoto, -
title High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
title_short High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
title_full High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
title_fullStr High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
title_full_unstemmed High intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
title_sort high intensity exercise increases brain derived neurotrophic factor expression and number of hippocampal neurons in rats
publisher Wageningen Academic Publishers
publishDate 2020
url https://repository.unair.ac.id/103460/1/Artikel%20High%20Intensity.pdf
https://repository.unair.ac.id/103460/2/High%20intensity.pdf
https://repository.unair.ac.id/103460/3/High%20Intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf
https://repository.unair.ac.id/103460/5/High%20intensity%20exercise%20increases%20brain%20derived%20neurotrophic%20factor%20expression%20and%20number%20of%20hippocampal%20neurons%20in%20rats.pdf
https://repository.unair.ac.id/103460/
https://www.wageningenacademic.com/doi/abs/10.3920/CEP190063
https://doi.org/10.3920/CEP190063
_version_ 1718370004306493440

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