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. While there are numerous types of radiation (visible light, ultraviolet radiation, heat (infra-red) rays and radio-waves), the word «radiation» is most often used to signify «ionizing» radiation.Radiation is defined as «ionizing» due to its capability to cause atom/ molecule ionization (their splitting into negatively and positively charged particles) in a substance.
Electromagnetic ionizing radiation according to ICRP, comprises roentgen rays as well as gamma rays emitted by radioactive elements2
. By nature, radio-waves, visible light and ultraviolet rays are also electromagnetic radiation, though their energy is insufficient for ionization. The rest of ionizing radiation is represented by particles. For instance, beta particles are electrons, alpha particles are helium nucleuses and neutrons are uncharged particles.Penetrability is one of the most important characteristics of various kinds of radiation. The higher the density of the particles’ energy transfer, the quicker the particles lose energy and cease to move. Such particles, for example, alpha rays, cannot penetrate deep into the material. Therefore, a sheet of paper is enough to protect oneself from them. Gamma and roentgen rays are the most penetrative, thus explaining the large number of protective shielding in an X-ray room.
The term «dose» is used to quantify a radiation impact. In assessing the health effects of radiation, a radiation dose is the most important characteristic.
The term «exposure dose» is used for radiation characteristics. Ionizing radiation causes an ionization effect in the air. The exposure dose shows how many ions occur in a certain airborne volume. For many years, a miscellaneous unit, roentgen (R), indicating a number of ions formed in 1 sm3 of the air, has been used for these purposes. Though the unit is presently outside the list of dosimeter indices, in practice it is still widely used.
All types of radiation impact living organisms by transferring their energy to them. The absorbed dose is an ionizing radiation energy transferred to a substance (for instance, the human body). While the absorbed dose is measured in Grays (Gy), a miscellaneous unit rad (1 Gy = 100 rad) is sometimes used. These units show an amount of energy absorbed in a unit of the substance mass.
Various kinds of radiation affect living organisms differently. At one and the same absorbed doses, neutron radiation would have effects 10 times and alpha radiation – 20 times more severe than roentgen radiation. The term «equivalent dose»takes into account the factor. The equivalent dose unit is Sievert (Sv), the former unit being Rem (1 Sv = 100 Rem).
Both scientific and technological progress has created an environment in which both natural and manmade emergencies may occur. Since it is impossible to exclude the potential for radiation accidents completely, awareness of emergency procedures, realistic prediction of probable consequences, and adequate protective measures are critical to preventing or at least mitigating possible damage.
Radiation protection, sometimes known as radiological protection, is the science and practice of protecting people and the environment from the harmful effects of ionizing radiation.
Ionizing radiation is widely used in industry and medicine and can present a significant health hazard. It causes microscopic damage to living tissue, which can result in skin burns and radiation sickness at high exposures, and statistically elevated risks of cancer at low exposures
In government hospitals in Enugu state film badges, thermoluminiscent dosimeters and pocket ionization dosimeters are the recommended radiation measuring devices for use by radiation workers to monitor received radiation dose. Every worker is expected to wear his/her personal dosimeter always while working. The dosimeter readings are kept as records for every staff for the purpose of evaluating their radiation history and possible risks involved. The records help in improving radiation protection practices in clinical settings.
This research study addresses the following problems:
The ineffective shielding of radiation by both government hospitals and private diagnostic centers while using it in medical practice have caused a whole lot of problems. This is due to the fact that the effectiveness in shielding of radiation is dependent on the Stopping power of radiation particles, which varies with the type and energy of radiation and the shielding material used.
Allowing for prolonged exposure by both government and private diagnostic centres has led to a diversity of complications. This is often deleterious to body cells of the people exposed to irradiation. Ineffectiveness in the use of radiation instruments by both government and private diagnostic centres has drastically affected the essence of these instruments. This is due to the fact that these instruments are used in evaluating the effectiveness of protection measures, and in assessing the radiation dose likely to be received by individuals. This also leads to ineffective protection measures in these health centers.
The broad objective of this research study is to comparatively analyse radiation protection measures in government hospitals and private diagnostic centres in Enugu.
The specific objectives include the following:
The following research questions are formulated for the purpose of this research study:
The following hypotheses are formulated for the purpose of this research study:
HYPOTHESIS ONE
HO: Radiation shielding by both government hospitals and private diagnostic centers is not effective.
HI: Radiation shielding by both government hospitals and private diagnostic centers is effective.
HYPOTHESIS TWO
HO: There are no differences and similarities between the radiation protection measures adopted by government hospitals and private diagnostic centers in Enugu.
HI: There are differences and similarities between the radiation protection measures adopted by government hospitals and private diagnostic centers in Enugu.
HYPOTHESIS THREE
HO: Government hospitals and private diagnostic centers do not effectively use radiation protection instruments in their medical practice.
HI: Government hospitals and private diagnostic centers effectively use radiation protection instruments in their medical practice.
This research study will be of immense significance to diverse government hospitals and private diagnostic centers in Enugustate. They will be enlightened on the diverse radiation protection measures adopted in protecting individuals being exposed to radiation. The research study will also go to a great extent in enlightening them on the differences and similarities between the radiation protection measures in government hospitals and private diagnostic centres in Enugu.
This research study will as well benefit students and researchers. They will widen their scope from the information contained in this research study.
This research study on the comparatively analysis between radiation protection measures in government hospitals and private diagnostic centres is focused in Enugu state.
The researcher encountered diverse constraints in the process of carrying out this research study. Irrespective of these constraints, he was still able to successfully carry out this study.
There was difficulty in gathering the necessary information or materials required for the successful completion of this research study. This is due to the fact that most of the respondents were either not on sit or were uncooperative in providing the necessary information as regards to this research study.
Time also posed as a constraint to the successful completion of this research study. The researcher had to combine the time for lectures and carrying out this research study. Though it was not easy but he was still able to carryout the research work.