Mozart Music Increases The Number Of Glial Cells Compared To Indonesia Pop And Religious Music

Authors

  • Pipit Sri Estuning Rahayu Universitas Airlangga
  • Hermanto Hermanto
  • Widjiati Widjiati

DOI:

https://doi.org/10.22219/sm.Vol15.SMUMM2.10265

Keywords:

Mozart, pop, religious, glial

Abstract

Music stimulation is an important component for prenatal fetal development. Both pop and religious music are easy to listen and widely accepted in Indonesia. This study was to analyze the effect of Mozart, pop, and religious music exposure during pregnancy to the number of glial cells in the brain of Rattus norvegicus offspring. The samples were divided into three groups based on the exposure for each group, namely Mozart, pop, and religious music, duration of 60 minutes with 65dB intensity, initiated on the 10th day of pregnancy for 9 days in the soundproof chamber. Three brains of the offsprings were dissected and prepared for Hematoxylin-Eosin staining counted on 5 fields of view and 400 magnification strength.Different glial cells number of Rattus norvegicus brain between groups were observed. Mozart music (28,29) showed a highest mean and pop music (18,67)  showed the lowest mean. Significant difference of the number of brain glial cells between Mozart music compared to pop and religious music groups were observed, with p value <0,005.The number of brain glial cells of Rattus norvegicus offsprings in the Mozart group were significantly higher than those in pop and religious groups.

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References

Campbell D. (2003). The Mozart Effect for Parents: Unlocking the potential of your child. New York: Penguin publishers.

Chaudhury S., Nag TC., Jain S and Wadhwa S. (2013). Review: Role of Sound Stimulation in Reprogramming Brain Connectivity. J. Biosci. 38(3), 605-614

Ernawati, Hermanto TJ, Widjiati. (2008). Perbandingan Indeks Apoptosis Sel Otak Anak Tikus (Rattus norvegicus) Baru Lahir Antara yang Mendapat Paparan Lagu Mozart Sejak Awal Kebuntingan, Setelah Kebuntingan 10 Hari dan yang Tidak Mendapat Paparan. Surabaya: Universitas Airlangga. Unpublished

Hepper P. (2007). Introduction of Infant Development. Second Edition. Oxford: University Press, P 41-46

Hermanto. (2004). Smart babies through Prenatal University Mission Impossible. Majalah Obstetri dan Ginekologi Indonesia, 28(1):14.

Hermanto. (2013). Bersujud dalam Rahim 2, Mencerdaskan Janin Sejak Dalam Rahim dengan Kombinasi Stimulasi 11-14 Musik Karya Mozart dan Nutrisi. Surabaya: Global Persada Press.

Hill, M.A. (2015). Embryology Neural System - Glial Development. RetrievedApril 10, 2019, from https://embryology.med.unsw.edu.au/embryology/index.php/Neural_System_-_Glial_Development. [Accessed1 Februari 2019].

Houzel SH. (2014). The Glia/Neuron Ratio: How it Varies Uniformly Across Brain Structures and Species and What that Means for Brain Physiology and Evolution. Wiley Periodicals, Inc.

Ismudi H, Hermanto TJ, Widjiati. (2007). Perbandingan Indeks Apoptosis Sel Otak ANAK Tikus yang Mendapat Paparan Musik Mozart 1, Mozart II, Mozart III dan yang tidak mendapat paparan selama kebuntingan. Surabaya: Universitas Airlangga. Unpublished

Kim H, Lee MH, Chang HK and Lee TH. (2006). Influence of prenatal noise and music on the spatial memory and neurogenesis in the hippocampus of developing rats. Brain Dev., 28(2):109-14.

Mustajib, A. (2010). Rahasia Dahsyat Terapi Otak. Jakarta: PT. Wahyu Media.

Sanyal T., Palanisamy P, Nag TC., Roy TS. And Wadhwa S. (2013). Effect of Prenatal Loud Music and Noise on Total Number of Neurons and Glia, Neuronal Nuclear Area Volume of Chick Brainstem Auditory Nuclei, Field L and Hippocampus: A Stereological Investigation. Int. J. Devl Neuroscience 31. 234-244.

Sari NR. (2005). Musik dan Kecerdasan Otak Bayi. Bogor: Penerbit Kharisma Buta Aksara.

Singer E. (2004). Molecular Basis for Mozart Effect Relevealed. New Scientist.

United Nations Development Programme [UNDP]. (2018). Human Development Indices and Indicators 2018 Statistical Update. New York.

Verkhratsky, A. (2010). Physiology of Neuronal-glial Networking. Neurochemistry International, 57. 332-343

Whitwell, Giselle E. 2009. The Importance of Prenatal Sound and Music. The Journal of Prenatal & Perinatal Psychology and Health.

Xing Y, Xia Y, Kendrick K, Liu X, Wang M, Wu D, Yang H, Jing W, Guo D, and Yao D. 2015. Mozart, Mozart Rhythm and Retrograde Mozart Effects: Evidences From Behaviours and Neurobiology Bases. Nature Scientific Reports, 1-11

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Published

2019-12-19