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Sains Malaysiana 46(9)(2017): 1597–1602
http://dx.doi.org/10.17576/jsm-2017-4609-31
The Effect of Smartphone's Radiation Frequency and Exposure Duration on NADPH Oxidase 5 (NOX5) Level in Sperm Parameters (Kesan
Frekuensi Radiasi Telefon Pintar dan Tempoh Pendedahan ke atas Peringkat NADPH
Oksidase
5 (NOX5) dalam Parameter Sperma)
NORAZURASHIMA JAMALUDIN*, SYAWAL SHAFIE ABDUL RAZAK, FARAH HANAN FATHIHAH JAFFAR, KHAIRUL OSMAN
& SITI FATIMAH IBRAHIM
Department
of Physiology, Faculty of Medicine, Universiti Kebangsaan Malaysia, Jalan
Yaacob Latiff, 56000 Cheras, Kuala Lumpur, Wilayah Persekutuan, Malaysia
Received:
19 December 2016/Accepted: 17 March 2017
ABSTRACT
Health hazard through
smart phone radiation has been associated with male infertility.
The suspected prime mediator is the NOX5 enzyme. When activated, the additional
pathway for free radical production will damage sperm's DNA.
However, conclusive evidence is still lacking. Thus, this study
was conducted to comprehend the detrimental effect of the radiation
towards sperm parameters by using rat as a model. Parameters
measured include sperm concentration, viability, DNA damage status and NOX5
level on sperm. This study consisted of two phases. The first
phase was conducted to determine the optimal radiation frequency
emitted from the smart phone. The radiation frequencies that
were evaluated were 0 MHz
(control), 4200 MHz without multiple connection mode
(minimum frequency) and 9700 MHZ with multiple connection modes
(maximum frequency). Each exposure setting represented one group.
Each group consists of eight rats, which received exposure for
6 h/day for two consecutive weeks. All parameters measured showed
significant differences. Optimum frequency for significant changes
to sperm parameters were identified as the minimum frequency.
Second part of the research involved the determination of optimum
exposure duration. The optimal frequency obtained was used in
combination with exposure duration of 0 h (control), 2, 4 and
6 h. Each group had 8 rats and exposure was conducted for 2
weeks. The results showed a significant difference for all parameters
following 4 h of exposure. Following this, evaluation of DNA damage status through NOX5
activity was done by using the optimum setting where 0 MHz/0
h as a control and 4200 MHz/4 h per day for up to 2 weeks. The
results showed significant differences of NOX5
fluorescent intensity between the two groups. In conclusion,
although smart phone emitted low radiation, it can decrease
sperm concentration, viability and increase DNA damage through ROS production. NOX5
pathway has been proven to be the likely pathway of ROS induced
RF-EMW.
Keywords: DNA damage;
sperm concentration; smart phone; NOX5; viability
ABSTRAK
Bahaya kesihatan
melalui radiasi telefon pintar telah dikaitkan dengan ketidaksuburan lelaki.
Pengantara utama yang terlibat adalah NOX5, enzim yang mungkin
menjadi tapak jalan tambahan dalam pengeluaran radikal bebas yang merosakkan DNA sperma.
Walau bagaimanapun, bukti kukuh masih tidak mencukupi. Oleh itu, kajian ini
dijalankan untuk memahami kesan buruk radiasi terhadap parameter sperma dengan
menggunakan tikus sebagai model. Parameter yang diukur adalah termasuk
kepekatan sperma, viabiliti, status kerosakan DNA dan
aktiviti NOX5 pada spermatozoa. Kajian ini terdiri daripada dua
fasa. Fasa pertama dijalankan untuk menentukan frekuensi optimum yang
dipancarkan daripada telefon pintar. Frekuensi radiasi yang dinilai ialah 0 MHz
(kawalan), 4200 MHz tanpa mod berbilang sambungan
(frekuensi minimum) dan 9700 MHZ dengan mod sambungan
pelbagai (frekuensi maksimum). Setiap frekuensi mewakili satu kumpulan. Setiap
kumpulan terdiri daripada lapan tikus dengan pendedahan dilakukan selama 6
jam/hari selama dua minggu berturut-turut. Semua parameter yang diukur
menunjukkan perbezaan yang signifikan antara kumpulan. Frekuensi optimum yang
diperoleh adalah frekuensi minimum. Fasa kedua bagi kajian ini adalah
menentukan masa pendedahan optimum. Frekuensi optimum yang diperoleh sebelumnya
didedahkan menggunakan sela masa 0 jam (kawalan), 2, 4 dan 6 jam. Setiap
kumpulan mempunyai 8 tikus dan pendedahan telah dilakukan selama 2 minggu.
Hasil menunjukkan terdapat perbezaan yang signifikan bagi semua parameter
selepas pendedahan selama 4 jam. Berikutan itu, penilaian status kerosakan DNA melalui
aktiviti NOX5 telah dilakukan dengan menggunakan frekuensi optimum
dengan 0 MHz/0 jam sebagai kawalan dan 4200 MHz/4
jam setiap hari sehingga 2 minggu. Hasil kajian menunjukkan terdapat perbezaan
aktiviti NOX5 yang signifikan antara kedua-dua kumpulan.
Kesimpulannya, walaupun telefon pintar memancarkan radiasi yang rendah, ia
boleh mengurangkan kepekatan sperma, kebolehhidupan dan meningkatkan kerosakan DNA melalui
penghasilan ROS. Tapak jalan NOX5 terbukti sebagai punca
penghasilan ROS teraruh RF-EMW.
Kata kunci: Kebolehhidupan; kepekatan sperma; kerosakan DNA; NOX5; telefon
pintar
REFERENCES
Agarwal, A., Deepinder, F., Sharma, R.K., Ranga, G. & Li, J.
2008. Effect of cell phone usage on semen analysis in men attending infertility
clinic: An observational study. Fertility and Sterility 89(1): 124-128.
Ahmad, M., Ahmad, N., Riaz, A. & Anzar, M. 2015. Sperm
survival kinetics in different types of bull semen: Progressive motility,
plasma membrane integrity, acrosomal status and reactive oxygen species
generation. Reproduction, Fertility & Development 27(5): 784-793.
Avendano, C., Mata, A., Sanchez Sarmiento, C.A. & Doncel, G.F.
2012. Use of laptop computers connected to internet through wi-fi decreases
human sperm motility and increases sperm DNA fragmentation. Fertility and
Sterility 97(1): 39-45.
De Iuliis, G.N., Newey, R.J., King, B.V. & Aitken, R.J. 2009.
Mobile phone radiation induces reactive oxygen species production and DNA
damage in human spermatozoa in vitro. PLoS One 4(7): e6446.
Dkhil, M.A., Danfour, M.A. & Al-Quraishy, S. 2011. Sperm
function is affected by the electromagnetic radiation emitted by mobile phone. Afr.
J. Microbiol. Res. 5: 4896-4900.
Falzone, N., Huyser, C., Becker, P., Leszczynski, D. &
Franken, D.R. 2011. The effect of pulsed 900-MHz GSM mobile phone radiation on
the acrosome reaction, head morphometry and zona binding of human spermatozoa. International
Journal of Andrology 34(1): 20-26.
Friedman, J., Kraus, S., Hauptman, Y., Schiff, Y. & Seger, R.
2007. Mechanism of short term extracellular-signal-regulated-kinase activation
by electromagnetic field at mobile phone frequencies. Biochem. J. 405(3):
559-568.
Ghani, E., Keshtgar, S., Habibagahi, M., Ghannadi, A. &
Kazeroni, M. 2012. Expression of NOX5 in human teratozoospermia compared to
normozoospermia. Andrologia 45(5): 351-356.
IEEE.
2006. Specific Absorption Rate, or SAR - FCC Cell Phone Radiation Exposure
Limits. Institute of Electrical and Electronics Engineers USA.
https://www.rfsafe.com/
Liu, Q., Si, T., Xu,
X., Liang, F., Wang, L. & Pan, S. 2015. Electromagnetic radiation at 900
Mhz induces sperm apoptosis through Bcl-2, bax and caspase-3 signaling pathways
in rats. Reproductive Health 12(1): 65.
Meo,
S.A., Arif, M., Rashied, S., Khan, M., Vohra, M., Usmani, A., Imran, M. &
Al-Drees, A. 2011. Hypospermatogenesis and spermatozoa maturation arrest in
rats induced by mobile phone radiation. J. Coll. Physicians Surg. Pak. 21(5):
262- 265.
Phillips,
J., Singh, N. & Lai, H. 2009. Electromagnetic fields and DNA damage. Pathophysiology 16(2): 79-88.
Sæther,
T., Tran, T.N., Rootwelt, H., Grav, H.J., Christophersen, B.O. & Haugen,
T.B. 2007. Essential fatty acid deficiency induces fatty acid desaturase
expression in rat epididymis, but not in testis. Reproduction 133(2):
467-477.
Shahin,
S., Mishra, V., Singh, S. & Chaturvedi, C. 2014. 2.45- GHz microwave
irradiation adversely affects reproductive function in male mouse, Mus Musculus by inducing oxidative and nitrosative stress. Free Radical Research 48(5):
511-525.
Shokri,
S., Soltani, A., Kazemi, M., Sardari, D. & Mofrad, F.B. 2015. Effects of
wi-fi (2.45 Ghz) exposure on apoptosis, sperm parameters and testicular
histomorphometry in rats: A time course study. Cell Journal (Yakhteh) 17(2):
322-331.
Veerachari,
S.B. & Vasan, S.S. 2012. Mobile phone electromagnetic waves and its effect
on human ejaculated semen: An in vitro study. International Journal
of Infertility and Fetal Medicine 3(1): 15-21.
Wright,
C., Milne, S. & Leeson, H. 2014. Sperm DNA damage caused by oxidative
stress: Modifiable clinical, lifestyle and nutritional factors in male
infertility. Reproductive Biomedicine Online 28(6): 684-703.
Yan,
J.G., Agresti, M., Bruce, T., Yan, Y.H., Granlund, A. & Matloub, H.S. 2007.
Effects of cellular phone emissions on sperm motility in rats. Fertility and
Sterility 88(4): 957-964.
*Corresponding author; email: amihs_nuc@yahoo.com
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