Pengaruh Paparan Radiasi Gelombang Elektromagnetik Wi-Fi 4G terhadap Berat Epididimis dan Morfologi Sperma Tikus Jantan Wistar

  • Meily Nirnasari Program Studi Ners, STIKES Hang Tuah Tanjung Pinang

Abstract

The purpose of this study was to determine how the effect of Wi-Fi4G electromagnetic radiation exposure on epidedemic testis weight and sperm quality in Wistar male rats (Rattus Norvegicus). The research method used in the study is an experimental research method with posttest control group design. The results of data analysis were performed with the One Way Anova test, after being given exposure to 4G Wi-Fi electromagnetic radiation radiation showed significantly different mean, reduced epididymal weight, sperm morphology value (p = 0,000) with alpha value of 0.05 (p <α) compared with the control group. Conclusion, exposure to Wi-Fi4G electromagnetic wave radiation can reduce the epididymic weight and sperm morphology in male wistar rats.

 

Keywords: Epididymis, Sperm Morphology, 4G Wi-Fi

References

Al-Haija, R. W. (2011). Main Causes of Infertility Among Men Treated at Razan Centers in West Bank: Retrospective Study. Tesis, An-Najah National University Faculty Graduate Studies

Amiruddin. (2012). Pengaruh Merokok terhadap Kualitas Sperma pada Pria dengan Masalah Infertilitas Studi Kasus Kontrol di Jakarta Tahun 2012. Tesis. Universitas Indonesia

Ashafahani, E. D., Wiratmi, N. I., & Sukmaningsih, A. A. S. A. (2010). Motilitas dan Viabilitas Spermatozoa Mancit (Mus Musculus) Setelah Pemberian Ekstrak Temu Putih (Curnuma Zedoaria) Roscoe. Jurnal Biologi, 14(1), 20-24

Chatur, V. C. M. (2014). 2,45 GHz Microwave Irradiation Adversely Affects Reproductive Function in Male Mouse, Mus Musculus by in Cluding Oxidative and Nitrosative Stsress. Free Radical Researc ch, 48(5), 511-525

Conrado. A. (2012). Use of Laptop Computers Connected to Internet Through Wi-Fi Decreases Human Sperm Motility and Increases Sperm DNA Fragmentation. Argentina. Journal Andrology, 97(1), 39-41

Dahlan & Sopiyudin. (2011). Statistik untuk Kedokteran dan Kesehatan Edisi 5. Jakarta: Salemba Medika

Dasdag, S. (2015). Effect of Long Term Exposure of 2,45 GHz Radio Frequency Radiation Emitted from Wi-Fi Equipment on Testes Functions. Turkey: Jurnal Biology and Medicine,34(1), 37-42

Ermiza. (2012). Pengaruh Paparan Suhu terhadap Kualitas Spermatozoa Mencit Jantan (Mus Musculus) Strain Jepang. Jurnal Sainttis,1(2), 1-28

Foster, K. R. (2013). Wi-Fi and Healty: REVIEW of Current Status of Research. Healty Physiologi,2, 561-572

Ghanbari, M., Mortazavi, S. B., Khavanin, A., Khazaei, M. (2013). The Effects of Cell Phone Waves (900 MHz-GSM Band) on Sperm Parameters and Total Antioxidants Capacity in Rats. Int Jour Fert and Ste, 7(1), 21-8

Gilbert, A & Oni. (2011). Effects of Radio Frequency Radiation From Wi-Fi Devices on Human Ejaculated Semen (2011). Journal IJRRAR,9(2), 292-294

Guyton, A. C & Hall, J. E. (2008). Buku Ajar Biologi Kedokteran Edisi II

Halil, l. (2012). Immunohistopathologic Demonstration of Deleterious Effects on Growing Rat Testes of Radiofrequency Waves Emitted from Conventional Wi-Fi Devices. Jurnal Pediatric Urology, 9(2), 223-229

Hamada, A. J., Singh, A., Agarwal, A. (2011). Cell Phones and Their Impact on Male Fertility: Fact or Fiction. The Open Reproductive Science Journal, (5), 125-37

Kosar, P. A. (2014). Protective Effect of Melatonin Against Okidative Injury in Rat Testis Incuced by Wireless (2.45 Ghz) Devices. Jurnal Andrologi 2014

Kumar, S. (2013). Influence of Elektromagnetik FielDS on Reproductive Sytem of Male Rats: Internasional Jurnal Radiat Biologi

Ladiges, W. (2010). A Mitochondrial View of Aging Reactive Oxygen Species and Metastatic Cancer. Aging Cell, 9, 462-465

Permadi. (2008). Mengatasi Infertilitas. Bandung: PT Grafindo

Purwantara., Ariffiantini & Sukmawati, E. (2014). Daya Tahan Spermatozoa terhadap Proses Pembekuan pada Berbagai Jenis Sap Pejantan Unggul. JITV, 9(3)

Qin F, Zhang J, Cao H, Guo W, Chen L, Shen O. (2014). Circardian Alterations of Reproductive Functional Markers in Male Rats Ecposed to 1800 MHz Radiofrequency Field. Chronobiol Int, 31(1), 123-33

Roupa, Z., Polikandrioti, M., Sotiropoulou, P., Faros, E., Koulouri, A., Wozniak, G. (2009). Causes of Infertility in Women at Reproductive Age. 3(2), 80-7

Samal, S., Dhadwe, K & Gupta, U. (2012). Epidemiologigical Study of Male Infertility. Indian Medical Gazette

Saraswati, A. (2015). Artikel Review Infertility. Majority, 4(5)

Satriyasa, B. K. (2007). Fraksi Heksan dan Fraksi Methanol Ekstra Biji Papaya Muda Menghambat Spermatogonia Mencit (Mus Musculus) Jantan. Jurnal Vetenier Denpasar Bali

Shokri, S. (2014). Effects of Wi-Fi (2.45 GHz) Exposure on Apoptosis, Sperm Parameters and Testicular Histomorphometry in Rats: A Time Course Study: Cell Journal,17(2), 322-331

Soleimani. (2015). Effects of Microwave Electromagnetic Radiations Emitted from Common Wi-Fi Routers on Rats Sperm Count and Motility. Internasional Jo urnal of Radiation Research, 13(4), 364-368

Suarni, N. M. R & Ermayati, N. G. A. M. (2010). Kualitas Sperma Mancit (Mus Musculus L) Setelah Perlakuan Infus Kayu Amargo (Quassia amara Linn) dan Pemulihannya. Jurnal Biologi, 14, 45-49

Suwandi, T. J. (2012). Pemberian Ekstrak Kelopak Bunga Rosella Menurunkan Melondialdehid pada Tikus Rattus Norvegicus yang di Beri Minyak Jantan: Tesis Universitas Udayana

Swardik, A. (2009). Pengaruh Radiasi Gelombang Elektromagnetik terhadap Kesehatan Manusia. Jurnal Elektro, 8(1), 106-109

WHO. (2010). Laboratory Manual for the Examination and Processing of Human Semen. Fifth Edition Cambriage University Press Cambridge
Published
2018-11-08
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