Health Risk Implications of High Background Radiation Dose Rate in Kampung Sungai Durian, Kinta District, Perak, Malaysia

Telomere length and stability is a biomarker of aging, stress, and cancer. Shortening of telomeres and high level of DNA damages are known to be associated with aging. Telomere shortening normally occurs during cell division in most cells and when telomeres reach a critically short length, DNA damage signaling and cellular senescence can be triggered. The induction of an adaptive response by space radiation was first documented in 2003. Telomere length alterations are among the most fascinating observations in astronauts and residents of high background radiation areas. While study of the chronic exposure to high levels of background ionizing radiation in Kerala, India failed to show a significant influence on telomere length, limited data about the NASA astronaut Scott Kelly show that exposure to space radiation can induce telomeres to regain length. Interestingly, his telomeres shortened again only a couple of days after returning to Earth. The difference between these situations may be due to the differences in radiation dose, dose-rate, and/or type of radiation. Moreover, Scott Kelly’s spacewalks (EVA) could have significantly increased his cumulative radiation dose. It is worth noting that the spacewalks not only confer a higher dose activity but are also characterized by a different radiation spectrum than inside the space craft since the primary particles would not interact with the vehicle shell to generate secondary radiation. Generally, these differences can possibly indicate the necessity of a minimum dose/dose-rate for induction of adaptive response (the so called Window effect).

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ASSESSMENT OF RADIATION DOSE LEVEL AT KABBA COLLEGE OF AGRICULTURE, DIVISION OF AGRICULTURAL COLLEGES, AHMADU BELLO UNIVERSITY, ZARIA

FUDMA Journal of Sciences ◽

10.33003/fjs-2021-0501-599 ◽

2021 ◽

Vol 5 (1) ◽

pp. 524-528

Author(s):

I. A. Bello ◽

O. O. Ige ◽

N. Kure ◽

A. H. Momoh

Keyword(s):

Radiation Dose ◽

Effective Dose ◽

Dose Rate ◽

Background Radiation ◽

Annual Effective Dose ◽

Academic Staff ◽

College Of Agriculture ◽

Radiation Dose Rate ◽

Radiation Level ◽

Materials Used

Background radiation involves the measure of the level of ionizing radiation present in the environment at a particular location. This research seek to generate data of the natural background radiation level of some selected Sections at Kabba College of Agriculture, using RadEye G20 survey meter. A total of 15 sections of the College were randomly selected and the background radiation dose rate of the sections were measured. The indoor dose rate ranged from (0.09 – 0.13) 𝜇Sv/yr, while the outdoor dose rate ranged from (0.07 - 0.10) 𝜇Sv/yr. The indoor annual effective dose were observed to be greater than the outdoor annual effective dose in all the College Sections measured. The lowest total annual effective dose 0.75 𝑚𝑆𝑣/𝑦𝑟 was found at the Academic staff block. The highest total annual effective dose of 1.09 𝑚𝑆𝑣/𝑦𝑟 was found at the livestock building, this might be due to the high-altitude nature of the area and the rocky materials used in the construction of the building. The highest total annual effective dose of the study area was slightly above the recommended limit of 1.0 𝑚𝑆𝑣/𝑦𝑟. The result obtained from this research may not constitute immediate health risk to the staff and student of the college

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Natural background radiation dose rate levels and incidences of reproductive abnormalities in high radiation area in Abeokuta, Southwestern Nigeria

Natural Science ◽

10.4236/ns.2013.511141 ◽

2013 ◽

Vol 05 (11) ◽

pp. 1145-1153 ◽

Cited By ~ 1

Author(s):

Nnamdi Norbert Jibiri ◽

John Bamidele Famodimu

Keyword(s):

Radiation Dose ◽

Dose Rate ◽

Background Radiation ◽

Natural Background ◽

High Radiation ◽

Radiation Dose Rate ◽

Southwestern Nigeria ◽

Natural Background Radiation ◽

Radiation Area

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Investigation of Background Radiation Level Within X-ray Machine Environment

NIGERIAN ANNALS OF PURE AND APPLIED SCIENCES ◽

10.46912/napas.20 ◽

2015 ◽

Vol 6 ◽

pp. 145-149

Author(s):

F Gbaorun ◽

D Terver

Keyword(s):

Radiation Dose ◽

Dose Rate ◽

Background Radiation ◽

Background Level ◽

Maximum Level ◽

Radiation Dose Rate ◽

Radiation Level ◽

X Ray ◽

Dose Rates ◽

Machine Room

In this study, a Geiger Muller ionization counter has been used to investigate the variation of background radiation dose level with time in a typical x-ray machine room and its environment. This is to monitor the effect of x-ray exposure on the background ionizing radiation level. The results showed that within a period of 3 hours, the cumulative background radiation dose in the x-ray room grew from s s Gy to around 84 . 90 ́ 10 - 10 - an initial level of 38 . 78 ́ Gy compared with nearby rooms where the s cumulative radiation grew from almost zero to a maximum value of about 46 . 9 ́ Gy within the 10 - same period. It was observed that after a radiation exposure from the machine, the background s radiation dose rate took about 25 minutes to decay from a maximum level of around 45 ́ Gy/hr to 10 - - s 17 . 47 ́ 10 the background level about Gy/hr which was found to be higher than the background dose rates in other nearby locations. While the dose rate in the x-ray machine room was higher than the s 10 - maximum dose limit of 12 ́ Gy/hr recommended for members of the public by the International Committee for Radiation Protection (ICRP), the dose rates in the other locations studied in the neighbourhood of the x-ray machine were within the limit.

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