Imbalance between the production and removal of reactive oxygen species (ROS) has been used for characterizing Oxidative stress. Extra amount of ROS are hazardous and can lead damages to the cells resulting in harsh diseases. For cancer, diabetes, psychological disorders and age-related disorders, latent of ROS in induction of alteration and DNA harm is a critical factor. Regarding these finding, the current research was planned to test the relationship between cognitive neuropsychological state and oxidative markers and genotoxicity in radiology staff. Total Number of 47 radiology staff, working in the radiology center of a referral University Hospital in Shiraz, were invited in the study. The participants were occupationally exposed to low-dose ionizing radiation (x-ray) for more than 2 years. Psychological disorder was analyzed by SCL-90-R. In the plasma, lipid peroxidation, DNA harm, catalase, superoxide dismutase, myeloperoxidase, and glutathione peroxidase activity were calculated. Associations between parameters were measured by using Pearson correlation coefficient and multivariate linear regression analyses. As a result, there was a positive considerable connection between catalase and paranoid ideation, Obsessive-Compulsive, Anxiety and total. Furthermore, the correlation between psychoticism, Interpersonal Sensitivity, Paranoid Ideation and DNA damage was positive. There were positive relationships between superoxide dismutase and psychomotor speed, initiative/energy, selective attention and verbal memory. So, there were significant relationships among interpersonal sensitivity, somatization, depression and gender. But, there were no major relationships among psychological distress, history workers and oxidative stress. In so many words, Oxidative stress and genotoxicity result in psychological disorders in radiology staff. So, radiology staff should have more attention, as they suffered from some psychological disorders.
It would be mentioned that when there is no balance between the production of free radicals and reactive oxygen species (ROS), oxidative stress is created and antioxidant defense system is consisted of antioxidant enzymes like superoxide dismutase of copper, zinc and, manganese, and small molecule antioxidants such as glutathione, vi- tamin E and vitamin C. Some free radicals such as nitrogen reactive species (RNS) and reactive oxygen species (ROS) lead oxidative damage to RNA DNA lipids and proteins [
A lot of studies propose the effect of oxidative stress on people’s health, because it can cause diabetes, cancer, Parkinson’s disease and cardiovascular diseases [
As a matter of fact, utilizing oxygen in people at risk raised to 1.5 times and approximately 2% of the oxygen is changed tore active oxygen species (ROS), this oxygen is used by cells in the procedure of oxidative phos- phorylation [
Through the disturbance in brain’s operation and as a result of reduced antioxidant defense against lipid per oxidation and oxidative stress, improved oxidative stress can cause mental disorders.
Oxidative stress can cause to some diseases and disorders as DSM-IV-TR diagnostic criteria has mentioned: delusional disorders, mental retardation, autistic disorder, attention deficit, hyperactivity, delirium, dementia, disorders related to alcohol, opioid-related disorders, sexual impotence, amphetamines (or amphetamine-like) related disorders, sleep disorders, nicotine dependence disorders, schizophrenia, mood disorders, anxiety dis- orders and eating disorders [
Moreover, in bipolar disorder (BD) due to producing extremes (ROS) such as hydroxyl radicals and by harm- ing DNA structure, oxidative stress has played a major role [
In one study by for Lenza and Miller (2006) reviewed that DNA damage can lead to anxiety disorders [
On the other hand, cognitive dysfunction and reduced antioxidant capacity have good correlation with each other. One of risk factors for cognitive impairment can be antioxidant deficiency or enlarged levels of oxida- tive stress. To be honest, one of main cognitive results of oxidative stress and diminish the cognitive function is Alzheimer’s disease [
After pointing to some researchers in oxidative stress [
The materials which were applied in this research are as follow: Tris base, tetraethoxy propane (MDA), 2-thiobarbituric acid (TBA), trichloroacetic acid (TCA), n-butanol, dithiobis-2-nitrobenzoic acid (DTNB), 2,4,6- tripyridyl-striazine (TPTZ) from Sigma-Aldrich Chemie (Gmbh Munich, Germany), HNO3, H2SO4, HCL, NaCl, PdCl2 from Merck Chemical Co. (Darmstadt, Germany), and ELISA kits for oxidative stress biomarkers and DNA damage from Cayman Chemical Co. (Michigan, USA).
The initial sample of this study consisted of 47 subjects and they were 19 males and 28 females. Before starting the study, all participants gave informed consent and the agreement of the study protocol by the Institute Review Committee. It is worth mentioning that the participants were consisted of 47 Shiraz hospital employees of Radi- ology staff in 2013. The necessary criteria included: there should not any experience in taking drugs, smoking, alcohol, antioxidants. On the other hand; they shouldn’t have special diseases such as cancer, diabetes, cardi- ovascular, thyroid disorder and respiratory disorders.
Another certain situation for participant was that they had more than two years of work experience. So, they informed orally and in written form about the purpose of this test. In this time, they announced their agreement for taking part in this study. During the investigation due to questionnaire, was reveal that any of staff employed in the Department of Radiology had not been occupationally exposed to any other destructive agents except the risk of radiation and in the 12 months prior to the study. Therefore, the result indicated that they had no history of radiation assisted diagnosis and radiation therapy. The percent consumption of alcohol, specific drugs, ciga- rettes and other tobacco products was zero and all of them were healthy. Through Scl90 and Cognitive neurop- sychological impairment which were assessed by SNI questionnaire, psychological distress and psychological symptoms had been analyzed.
By employing nine primary symptom dimensions and three summary scores termed global scores, the SCL-90- R evaluated psychological distress.
Somatization (SOM), Obsessive-Compulsive (OBS), Hostility (HOS), Interpersonal Sensitivity (INT), De- pression (DEP), Psychoticism (PSY) Anxiety (ANX), Phobic Anxiety (PHOB), Paranoid Ideation (PAR), and were labeled as principal symptom.
The Global Severity Index (GSI), the Positive Symptom Distress Index (PSDI), and the Positive Symptom To- tal (PST) were as global measures [
In order to identify high-risk subjects for neurocognitive impairment, the Iranian version of the SNI was used [
As DNA damage and glutathione peroxidase (GPX) were analyzed and searched in our previous study by means of ELISA kits, the activities of superoxide dismutase (SOD), 8-hydroxy-2-deoxy guano sine (8-OH-dG), catalase (CAT) and meyleoperoxidase [MPO]were measured [
For surviving in the association between variables, Pearson coefficient was used. Data were accessible as mean ± SD. p values lower than 0.05 were considered statistically significant. Stats Direct 2.7.9 was used to analyze data.
As indicated in
. The result of demographic data in workers
Age (years) | Sex | Work history (year) | Exposure history (year) | |
---|---|---|---|---|
Workers | 28.57 ± 6.59 | 47 (19 male; 28 female) | 9.77 ± 7.19 | 12.40 ± 10.45 |
Data represent mean ± SD.
. The correlation between oxidative stress markers and psychological distress in radiology staff
Somatization (0.84 ± 0.71) | Obsessive- Compulsive (0.99 ± 0.67) | Interpersonal Sensitivity (0.84 ± 0.71) | Depression (0.86 ± 0.71) | Anxiety (0.77 ± 0.72) | Hostility (0.68 ± 0.61) | Phobic Anxiety (0.63 ± 0.574) | Paranoid Ideation (0.1.1 ±0.77) | Psychoticism (0.61 ± 0.60) | TOTAL (74.85 ± 51.19) | |
---|---|---|---|---|---|---|---|---|---|---|
LPO (6.43 ± 1.81 µM) | R = 0.042 p = 0.780 | R = −0.015 p = 0.920 | R = −0.177 p = 0.234 | R = −0.089 p = 0.554 | R = −0.026 p = 0.861 | R = 0.102 p = 0.493 | R = −0.0306 p = 0.843 | R = −0.016 p = 0.917 | R = 0.060 p = 0.687 | R = −0.032 p = 0.831 |
MPO (7.94 ± 9.36 µM) | R = −0.005 p = 0.971 | R = −0.148 p = 0.322 | R = −0.241 p = 0.102 | R = −0.182 p = 0.221 | R = −0.134 p = 0.367 | R = 0.015 p = 0.921 | R = −0.208 p = 0.161 | R = −0.164 p = 0.271 | R = −0.252 p = 0.087 | R = −0.158 p = 0.289 |
SOD (0.65 ± 0.29 U/mg protein) | R = 0.250 p = 0.091 | R = 0.173 p = 0.245 | R = 0.130 p = 0.383 | R = 0.235 p = 0.111 | R = 0.212 p = 0.153 | R = 0.146 p = 0.328 | R = 0.145 p = 0.330 | R = −0.055 p = 0.711 | R = 0.193 p = 0.194 | R = 0.203 p = 0.172 |
CAT (29.90 ± 17 mol/mg protein) | R = 0.263 p = 0.074 | R = 0.337 p = 0.020* | R = 0.203 p = 0.171 | R = 0.260 p = 0.078 | R = 0.345 p = 0.018* | R = 0.258 p = 0.080 | R = 0.221 p = 0.136 | R = 0.375 p = 0.009* | R = 0.281 p = 0.055 | R = 0.326 p = 0.025* |
8-OH-dG (421.86 ± 59.67 Pg/mL) | R = 0.228 p = 0.123 | R = 0.214 p = 0.148 | R = 0.364 p = 0.012* | R = 0.175 p = 0.239 | R = 0.206 p = 0.164 | R = 0.099 p = 0.509 | R = 0.225 p = 0.128 | R = 0.305 p = 0.037* | R = 0.389 p = 0.007* | R = 0.280 p = 0.056 |
GPx (100.36 ± 23.66 nmol/mg protein) | R = 0.073 0.626 | R = −0.081 p = 0.588 | R = 0.162 p = 0.275 | R = 0.058 p = 0.697 | R = 0.048 p = 0.746 | R = −0.111 p = 0.457 | R = 0.210 p = 0.157 | R = 0.038 p = 0.8 | R = 0.203 p = 0.170 | R = 0.085 0.572 |
Data represent mean ± SD. *p < 0.05.
. The correlation between oxidative stress markers and neurocognitive impairment in radiology staff
PS (28.98 ± 3.49) | IE (40.5 ± 6.28) | SA (36.43 ± 7.05) | DA (16.83 ± 2.24) | NVM (16.35 ± 2.82) | PM (28.63 ± 6.11) | VM (31 ± 5.52) | SF (21.9 ± 3.66) | Sener (76.58 ± 11.63) | TOTAL (297.2 ± 37.32) | |
---|---|---|---|---|---|---|---|---|---|---|
LPO (6.43 ± 1.81 µM) | R = 0.031 P = 0.847 | R = −0.198 p = 0.220 | R = −0.091 p = 0.578 | R = −0.144 p = 0.376 | R = −0.121 p = 0.456 | R = −0.014 P = 0.933 | R = −0.089 p = 0.584 | R = 0.077 p = 0.637 | R = −0.057 p = 0.728 | R = −0.092 p = 0.574 |
MPO (7.94 ± 9.36 µM) | R = 0.230 p = 0.153 | R = 0.096 p = 0.557 | R = 0.226 p = 0.097 | R = 0.022 p = 0.891 | R = 0.123 p = 0.449 | R = 0.050 p = 0.760 | R = 0.157 p = 0.333 | R = 0.252 p = 0.117 | R = 0.108 p = 0.506 | R = 0.188 p = 0.245 |
SOD (0.65 ± 0.29 U/mg protein) | R = 0.544 P = 0.000* | R = 0.434 p = 0.005* | R = 0.397 p = 0.011* | R = 0.073 p = 0.656 | R = 0.199 p = 0.217 | R = 0.276 p = 0.085 | R = 0.502 p = 0.001* | R = 0.032 p = 0.844 | R = 0.287 p = 0.072 | R = 0.403 p = 0.006* |
CAT (29.90 ± 17 mol/mg protein) | R = 0.269 p = 0.093 | R = 0.114 p = 0.484 | R = 0.101 p = 0.536 | R = −0.117 p = 0.473 | R = −0.209 p = 0.196 | R = 0.157 p = 0.333 | R = 0.016 p = 0.924 | R = 0.139 p = 0.393 | R = −0.091 p = 0.577 | R = 0.054 p = 0.740 |
8-OH-dG (421.86 ± 59.67 Pg/mL) | R = −0.031 p = 0.847 | R = 0.046 p = 0.780 | R = −0.043 p = 0.793 | R = 0.062 p = 0.706 | R = −0.007 p = 0.966 | R = −0.042 p = 0.795 | R = −0.070 p = 0.699 | R = 0.075 p = 0.646 | R = 0.005 p = 0.973 | R = −0.008 p = 0.959 |
GPx (100.36 ± 23.66 nmol/mg protein) | R = -0.61 p = 0.70 | R = 0.000 p = 1 | R = 0.028 p = 0.863 | R = 0.131 p = 0.421 | R = 0.103 p = 0.526 | R = 0.238 p = 0.139 | R = 0.140 p = 0.39 | R = 0.289 p = 0.070 | R = 0.136 p = 0.404 | R = 0.146 p = 0.369 |
Data represent mean ± SD. *p < 0.05.
ported a positive correlation between SOD on one side and PS (R = 0.544, p = 0.000), IE (R = 0.434, p = 0.005), SA (R = 0.397, p = 0.011) and VM (R = 0.502, p = 0.001) on the other side. There are not relationship between exposure history and psychological and cognitive state in workers (
Findings of present study vividly showed a salient difference between male and female workers in symptoms of psychological disorders. Also there is positive correlationship between oxidative stress and cognitive neurop- sychological disorders. These results are related to the conclusion of other researches done on the psychological disorders due to oxidative stress, for example, [
In other word, some studies have mentioned that exposure to radiation is as a reason of brain and cognitive disorders.
Animals and humans have a lot of problems because of exposure to radiation such as: neuronal inflammation, apoptosis, reduced oligodendrocytes and myelin sheath, damage to neurons [
. The relationship between exposure history and psychological and cognitive state in workers
Somatization | Obsessive- Compulsive | Interpersonal Sensitivity | Depression | Anxiety | Hostility | Phobic Anxiety | Paranoid Ideation | Psychoticism | TOTAL | |
---|---|---|---|---|---|---|---|---|---|---|
Work History | R = 0.221 p = 0.136 | R = −0.199 p = 0.179 | R = −0.004 p = 0.980 | R = 0.048 p = 0.751 | R = 0.004 p = 0.977 | R = −0.021 p = 0.886 | R = 0.052 p = 0.727 | R = 0.096 p = 0.521 | R = −0.081 p = 0.590 | R = 0.033 p = 0.823 |
PS | IE | SA | DA | NVM | PM | VM | SF | Total | ||
Work History | R = −0.168 p = 0.3 | R = −0.099 p = 0.541 | R = −0.116 p = 0.476 | R = −0.057 p = 0.727 | R = −0.114 p = 0. 485 | R = −0.117 p = 0.470 | R = −0.305 p = 0. 056 | R = −0.211 p = 0.191 | R = −0.188 p = 0.245 |
. The status of psychological distress in male and female staff
Total | Psychoticism | Paranoid Ideation | Phobic Anxiety | Hostility | Anxiety | Depression | Interpersonal Sensitivity | Obsessive- Compulsive | Somatization | Group |
---|---|---|---|---|---|---|---|---|---|---|
55.42 ± 45.25 | 0.41 ± 0.51 | 0.84 ± 0.82 | 0.43 ± 0.46 | 0.65 ± 0.66 | 0.53 ± 0.58 | 0.62 ± 0.57 | 0.53 ± 3.77 | 0.84 ± 0.64 | 0.59 ± 0.64 | Male |
88.04 ± 51.52 | 0.75 ± 0.63 | 1.24 ± 0.70 | 0.77 ± 0.61 | 0.69 ± 0.57 | 0.94 ± 0.77 | 1.03 ± 0.75 | 1.04 ± 0.73 | 1.1 ± 0.73 | 1 ± 0.70 | Female |
0.030* | 0.057 | 0.079 | 0.044* | 0.835 | 0.052 | 0.049* | 0.013* | 0.220 | 0.042* | p Value |
1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | df |
5 | 3.81 | 3.24 | 4.3 | 0.044 | 4 | 4.1 | 6.73 | 1.54 | 4.36 | F |
Data represent mean ± SD. *p < 0.05.
. The status of cognitive function in male and female staff
Total | IE | SF | PM | NVM | VM | DA | SA | PS | Group |
---|---|---|---|---|---|---|---|---|---|
310.76 ± 39.93 | 41.64 ± 7.39 | 22.24 ± 4.94 | 31.29 ± 7.57 | 17.76 ± 2.54 | 33.24 ± 5.17 | 16.76 ± 2.54 | 38.64 ± 7.82 | 29.94 ± 3.98 | Male |
287.17 ± 32.59 | 39.65 ± 5.33 | 21.65 ± 2.40 | 26.65 ± 3.86 | 15.30 ± 2.64 | 29.35 ± 5.29 | 16.87 ± 2.05 | 34.78 ± 6.09 | 28.26 ± 2.97 | Female |
0.047* | 0.327 | 0.624 | 0.015* | 0.005* | 0.026* | 0.886 | 0.087 | 0.134 | p Value |
1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | df |
4.23 | 0.986 | 0.244 | 6.43 | 9 | 5.39 | 0.021 | 3.09 | 2.34 | F |
PS: psychomotor speed; SA: selective attention; DA: divided attention; VM: verbal memory; NVM: nonverbal memory; PM: prospective memory; SF: spatial functioning; I/E: initiative/energy. Data represent mean ± SD. *p < 0.05.
Firstly, the limbic system that has duty for creating and understanding emotion since human consume more oxygen in this part of brain than others. As a result, high oxygen burning up raised the defenselessness to free radicals such as ROS. Secondly, free radicals will impact on neurotransmitters’ in addition to damaging cell structures like mitochondria. Psychological activities can be controlled by most of neurotransmitters straightly. As an example, the chemical activity which produced from improved ROS can reduce serotonin and this may finish in depression. Thirdly the genetic constitution can cause to hurt. For example, if amygdala as a gene HTT-5 that is responsible for controlling the activity of brain has been damaged, it will cause autism signs and social prevention. When symptoms of autism, severe anxiety and social phobia have been found, this presuppo- sition is established.
It is worth mentioning that the subjects have chosen from hospital staff. Thus, the effects of other matters, in- cluding burn-out symptoms are not negligible. Job stress can create exhaustion, so it may make psychological symptoms worse. It can be imagined that the harm produced by oxidative stress accompany with job exhaustion cause mental disorders. Nutrition as one of environmental factors among hospital staff may be associated to oxidative stress and psychological factors. Furthermore, the influence of contextual factors in mental illnesses cannot be ignored.
The researchers noted that a holistic view should be taken into account in future research in order to study the relations of all the factors involved. The stability of these damages during time would be recommended. All in all, finding a moderating factor in the harsh effects of free radical son mental diseases may cause to realizing new interventions to improve patient care.
The researchers would be so thankful to all subjects and authorities of the Namazi hospital in Shiraz for their sincerely support. Authors thank assistance of Iran National Science Foundation (INSF) and support of Mohit Palayesh Arya Scientific Company.