Puasa Selama Kebuntingan terhadap jumlah sel neuron Cereberum dan Cerebellum Rattus norvegicus Baru Lahir

Ucik Nurul Hidayati, Hermanto Tri Joewono, Muhammad Miftahussurur, Agus Sulistyono, Martono Tri Utomo, Sulistiawati Sulistiawati

Abstract


Fasting by pregnant women causes increasing neurons in the brain. An increasing number of neuron cells will speed up information processing, so it is expected to increasing intelligence. The purpose of this study was to analyze the effect of fasting during pregnancy on the number of new cells of the cerebrum neuron and the newly born Rattus norvegicus cerebellum. The research design was true experimental laboratory posttest only with control group design. Pregnant Rattus norvegicus samples consisted of 3 groups and 1 control group with a total sample of 32 divided by 4; Xo control group without fast treatment, fasting X1 group in 1st trimester (2 days), fasting X2 group in 2nd trimester (2 days), fasting group X3 at TM 3 (2 days). Data analysis using Shapiro – Wilk normality test, followed by ANOVA test and using SPSS for Windows 23 software. The results of statistical analysis showed no significant difference in the number of cerebrum neuron cells in the four groups P = 0.210 (p> 0.05) and there were significant differences in the number of cerebrum neuron cells in the four groups P = 0.032 (p <0.05). The conclusion of this study is there was no difference in the number of neuron cells in cerebrum and cerebellum of Rattus norvegicus newborn in the fasting mother 2 days during trimester I, II dan III of pregnancy. There was a difference in the number of neuron cells in the new cerebellum of Rattus norvegicus fasting for 2 days during trimester III of pregnancy, and there were differences the effect of the number of neuron cell in cerebellum of Rattus norvegicus in all groups.


Keywords


Puasa; Kebuntingan; Sel Neuron

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References


Bastani A, Rajabi S, Kiamimarkani F, 2017. The effect of fasting during ramadhan on the contraception of serotonin, dopamine, Brain derived neurotropic factor and nerve growth factor. Neurol Int. 9(2):

Georgieff MK, Ramel SE, Cusick SE, 2018. Nutritional Influences on Brain Development. Acta Paediatr. 107(8): 1310-1321.

Joosoph J. Abu, J. 2014. A survey of fasting during pregnancy. Singapore; Departemnt of obstetric and gynecologyWomen’s and children

Mohany M, Ashton N, Harrath AH, Nyengaard JR, Alomar SY, Alwasel S, 2018. A New Model for Fetal Programming: Maternal Ramadhan Type Fasting Program Nephrogenesis. Journal of Development Origins of Health and Disease. 9(3): 287-298.

Morgane PJ, Austin-LaFrance R, Bronzino J, Tonkiss J, Diaz-Cintra L et al, 1993. Prenatal Malnutrition and Development of the Brain. Neurosci Biobehav Rev. 17(1): 91-128.

Rees S and Walker D, 2011. Fetal growth and Development in R. Harding and A. Bocking, eds. Nervous and Neuromuscular Systems. Cambridge: Cambridge University Press. pp.154-85.

Rodeck CH and Whittlle MJ, 1999. Fetal Medicine: Basic Science and Clinical Practice. Churchill Livingstone.

Stiles J and Jernigan TL, 2010. The Basics of Brain Development. Neuropsychol Rev. 20(4): 327-348.




DOI: http://dx.doi.org/10.30742/jikw.v9i1.634

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