1. Background
Depression is one of the most important neuro-psychological disorders. The risk of being affected by depression is 17% for every individual and currently 10% of the global population is in need for serious medical services for this disorder. The prevalence of the disease in the United States is estimated 0.4% - 2.5% in adolescents and 4% - 8% in teenagers. The disorder approximately affects 14% of the American population currently aged 15 - 18 years at different degrees during their lifetime. Depression is the most prevalent disorder amongst mental and physical diseases that more affects females within the age range of 15 to 45 years (1) than their male counterparts.
Depression may be treated by pharmacotherapy, psychotherapy, and also shock therapy. However, these methods are ineffective to half of the patients, and do not resolve any of the symptoms. Estimates show that about 23% of the patients show minimal response and many more show no response to the therapeutic methods. Antidepressant drugs are considered as the first line treatment in many mood disorders, especially depression, and shock therapy is only used in patients unresponsive to pharmacotherapy or cannot take medicine. Even though shock therapy was an efficient treatment method, researchers gradually started developing methods that did not require systemic convulsions, but only stimulate focal points in the cortex and thus treat depression (2). The current study aimed at evaluating the effectiveness of transcranial direct current stimulation (TDCS) used to reduce symptoms in patients with major depressive disorders admitted to public, educational, and private hospitals in Ilam, Iran.
2. Methods
2.1. Study Design
Transcranial direct signal stimulation is a non-invasive method in which a direct current of 1 to 4 mA is conducted through the scalp. This procedure causes long-term changes in the polarity of the cerebral cortex by affecting depolarization and hyperpolarisation of neural cells and neural receptors. In other words, in this method focal points of the cortex are subjected to direct current transduction (3). The procedure relies on placing 2 electrodes, 1 positive and the 1 negative, on the scalp using spongy pads soaked in conductive solution. The applied current passes through skin and bone and reaches the cerebral cortex, polarizes cortical neurons, and then, changes the activity and performance of that region. Due to certain complications, these parameters should be defined prior to performing the procedure: amperage, duration and direction of the flow, the location of either of the electrodes, size of the sponge pads, and number of the required sessions (4).
Flow amperage: It has a direct correlation with the density of flow passing through the brain. The increased amperage is followed by increased and much deeper effects. Electricity flows from the positive electrode (anode) to the negative electrode (cathode).
Shape and size of the electrodes: It has an inverted correlation with the flow density. It may be concluded that flow density is considerably more important than flow amperage. Flow density is the flow amperage conducted through 1 cm of surface. The average flow density used in most studies is 0.029 to 0.08 mA/cm2. Therefore, the shape and size of the employed electrodes are important. In most of the performed studies, 25 - 35-cm2 electrodes were employed. In order to provide desired contact between the pads and skin, the pads are soaked in water or saline (required concentration: 15 - 140 mM). Special gels or creams may be used and some manufacturers introduced electrodes that eliminate the need of conductive media between skin and the electrodes.
Placement of electrodes: In accordance with the size of the employed electrodes and the principles of TDCS technology, highly accurate electrode placement cannot be anticipated. However, it can determine the regional effectivities including motor regions in the left or right hemisphere or prefrontal cortex. Research revealed that the anode increases regional neural activity, while the cathode reduces such qualities. Although such effects are reversed in the deeper regions of the cerebrum, it can be concluded that TDCS increases the activity of one region and at the same time reduces that of another. Under such circumstances that only 1 cerebrum- e g, motor cortex of the left cerebrum- is studied, 1 cathode should be placed on the selected region and the other on a different section. By referring to the second electrode as the reference electrode or simply by not acknowledging its presence, the effects of the desired electrode on the selected region can be studied. However, if the reference electrode causes interference by affecting the underneath regions, selecting bigger electrodes and reducing flow density or relocating the reference electrode to a point outside the cranium, such as the neck, may reduce and remove such interferences. In some studies the combined effects of electrodes are analyzed; simultaneous stimulation of the left prefrontal cortex and right prefrontal cortex via anode and cathode, respectively, and studying the combined effects on the behavior of the patient may be an example of such studies.
Duration of electrical current flow: It is evident that increased current flow duration or amperage yields more prominent results in TDCS. However, since increased amperage also increases the size of affected regions and the number of neurons, causing uncontrollable and immeasurable effects and increasing the current flow duration are preferred to increasing flow amperage. When contact is achieved, the effect of a flow limited to mere seconds fades directly subsequent to disconnection. However, if the flow is maintained for about 10 minutes (throughout most studies this duration ranges from 9 to 13 minutes), said effects last for about an hour.
Studies reveal that TDCS is a non-invasive method, which is also devoid of serious complications (5). Other positive properties that increase the clinical potential of this method include: simplicity of employment and movement of equipment (6, 7) appropriate for home use (8), significant results (based on results gathered from clinical trials), rapidly achievable results (mainly up to 1.5 week subsequent to treatment), and painlessness as well as lack of interference with other clinical methods. Due to the mentioned serious side effects, TDCS is considered a safe therapeutic method with minimal side effects and complications. No known complication or side effects are reported yet. Insignificant reported side effects include slight burn around the electrodes locations, lethargy, and insomnia, which are resolved in 72 hours following the procedure. As already mentioned, most patients did not experience any side effects. Some studies in Iran evaluated the possible application of TDCS in cases of brain strokes, verbal memory, aesthetic, and moral judgment (9, 10). However, to the authors’ best knowledge, the effects of TDCS on patients with depression are not assessed. Therefore, the current study aimed at investigating the effectiveness of TDCS on reducing depression.
2.2. Study Population
The current study employed the convenience sampling method. Due to the limited size of the study population, the entire available samples were selected; 40 patients were randomly allocated into 2 groups of 20; one group received 10 sessions of TDCS and the other 20.
Beck depression inventory: Depression has various manifestations, prohibiting its simple diagnosis. This disorder is accompanied by a vast range of symptoms such as headache, constipation, anorexia, backache, or chronic lethargy. The inventory is designed to aid the diagnosis. This questionnaire consists of 21 questions, each containing 4 statements. Each of these statements describes a state which may/may not be observed in the subject. The test is specifically designed for subjects over 16 years old. The interpretation of the obtained scores is as follows: 1 - 10 normal depression; 11 - 16 mild depression; 17 - 20 need for psychiatric consultation; 21 - 30 moderate depression; 31 - 40 heavy depression; and > 40 indicates excessive depression.
TDCS technique: Cerebral stimulation through the cranium using direct currents is an old method recently rediscovered and used in various cerebral disorders. The TDCS treatment device used in the current study was the ActivaDose® Iontophoresis (ActiveTek Inc., Salt Lake City, Utah). The energy source of this device consists of an 8-V battery, which provides a maximum flow, and voltage of 4 mA and 82 V through a direct current.
2.3. Data Collection
Subsequent to obtaining referral letters from Islamic Azad University and permission to use the TDCS device belonging to the Faculty of Medical Sciences, the clinical trial was commenced with the help of technicians as well as a neuropsychologist (the study supervisor). Patients were primarily interviewed and assessed for depression through the Beck depression inventory. TDCS treatment was initiated; one group received 10 sessions and the other 20 sessions of TDCS. Patients` information was confidential and the method used in the study had no side effects on patients and no cost was imposed to them.
2.4. Data Analysis
Descriptive analytical methods such as frequency, percentage of frequency, and standard deviation (SD), as well as inferential tests such as t test, regression, and the Pearson correlation test, were employed in the statistical analysis of attributes of demographic values with SPSS software version 20.
3. Results
Table 1 shows the frequency of participants based on gender, level of education, and age. According to Table 1, the groups were matched by gender.
Table 1.Frequency of Participants Based on Demographic Variables
| Variable | Subcategory | N | Percentage |
|---|---|---|---|
| Gender | Female | 20 | 50 |
| Male | 20 | 50 | |
| Total | 40 | 100 | |
| Age, y | Under 20 | 7 | 17.5 |
| 21 - 25 | 6 | 15 | |
| 26 - 30 | 12 | 30 | |
| 31 - 35 | 7 | 17.5 | |
| 36 - 40 | 4 | 10 | |
| Above 40 | 4 | 10 | |
| Education | Illiterate | 6 | 15 |
| high school student (studying) | 5 | 12.5 | |
| Primary school | 4 | 10 | |
| High school diploma | 8 | 20 | |
| Associate degree | 3 | 7.5 | |
| Bachelor’s degree | 7 | 17.5 | |
| Master’s degree | 1 | 2.5 | |
| Bachelor’s degree (studying) | 5 | 12.5 | |
| Medical student | 1 | 2.5 | |
| Total | 40 | 100 |
Table 1 shows that 30% (majority) of the participants aged 26 - 30 years, while the age range of 10% (minority) was 36 - 40 years.
The participants’ occupational status analysis showed that 22% (majority) of the subjects were unemployed and7.5% (minority) self-employed.
As it is shown in Table 1, 20% of the patients had high school diploma (majority), while 2.5% either had a Master’s degree or were the medical student (minority).
Table 2 presents the mean ± SD of depression before and after receiving the treatment; it is evident that treatment was effective and levels of depression reduced.
Table 2.Mean and Standard Deviation of Depression Before and After the Treatment
| Gender | Dependent Value | SD | Mean |
|---|---|---|---|
| Female | Depression (before treatment) | 1.157 | 23.150 |
| Depression (after treatment) | 1.028 | 23.850 | |
| Male | Depression (before treatment) | 1.157 | 33.150 |
| Depression (after treatment) | 1.028 | 22.00 |
First hypothesis in the Table 3: electrical stimulation of the brain has a significant impact on reducing depression symptoms in patients with depression.
Table 3.The Effect of Electric Current Duration on Depression Levels Before and After the Treatment, Based on Gender
| Gender | Session | Value | Depression (Before Treatment) | Depression (After Treatment) |
|---|---|---|---|---|
| Female | 10 | Mean | 30.96 | 23.38 |
| SD | 3.56802 | 4.99230 | ||
| 20 | Mean | 37.7143 | 24.7143 | |
| SD | 6.42169 | 4.92322 | ||
| Total | Mean | 33.1500 | 23.8500 | |
| SD | 5.73333 | 4.88041 | ||
| Male | 10 | Mean | 29.1429 | 20.2857 |
| SD | 3.33809 | 2.13809 | ||
| 20 | Mean | 35.3077 | 22.9231 | |
| SD | 3.56802 | 4.92378 | ||
| Total | Mean | 33.1500 | 22.0000 | |
| SD | 4.54539 | 4.29198 | ||
| Total | 10 | Mean | 30.1500 | 22.3000 |
| SD | 3.48342 | 4.41409 | ||
| 20 | Mean | 36.1500 | 23.5500 | |
| SD | 4.73814 | 4.87178 | ||
| Total | Mean | 33.1500 | 22.9250 | |
| SD | 5.10681 | 4.63204 |
The results of Table 4 showed a statistically significant relationship between depression and the onset of electrical stimulation, given that significant level achieved between depression score before treatment and the effect of electrical stimulation(P = 0.000) was smaller than the error level (P = 0.05); as a result, a significant statistical relationship was observed. In other words, the effect of electrical stimulation was effective in both applied methods. Also, there was no significant difference in the 2 different periods of depression scores after treatment and the effect of electrical stimulation.
Table 4.The Mean Depression Score of Electrical Stimulationa
| Treatment Duration | No. | Group | Mean | SD | F | T | P Value |
|---|---|---|---|---|---|---|---|
| 10 sessions | 20 | Depression (before treatment) | 30.15 | 3.48 | 3.37 | 4.69 | 0.000 |
| 10 sessions | 20 | Depression (after treatment) | 22.30 | 4.41 | |||
| 20 sessions | 20 | Depression (before treatment) | 36.16 | 4.73 | 0.312 | 9.89 | 0.000 |
| 20 sessions | 20 | Depression (after treatment) | 23.55 | 4.87 |
at test.
Second hypothesis: there was a significant relationship between the duration of electrical stimulation session and reduced depression symptom in patients with depression by gender.
The results of Table 5 showed a correlation between the occurrence of electrical stimulation and decrease of depression symptoms by gender; given that the achieved significance level (P = 0.000) was smaller than the error level (α = 0.05), as a result, there was a statistically significant relationship between the effect of electrical stimulation and reduction of depressive symptoms after the treatment. In other words, the current electrical stimulation in males and females dropped after the application of electrical stimulation and indicated that electrical stimulation was effective on reducing depression symptoms.
Table 5.The Effect of Electrical Stimulation Duration on Depression Symptoms, Based on Gender
| Gender | Duration | Group | Mean | F | T | P Value |
|---|---|---|---|---|---|---|
| Female | 10 Sessions | Depression (before treatment) | 30.69 | 9.13 | -2.67 | 0.028 |
| Depression (after treatment) | 23.38 | |||||
| 20 Sessions | Depression (before treatment) | 37.71 | 0.247 | -0.571 | 0.577 | |
| Depression (after treatment) | 24.71 | |||||
| Male | 10 Sessions | Depression (before treatment) | 19.14 | 0.090 | -3.84 | 0.002 |
| Depression (after treatment) | 20.28 | |||||
| 20 Sessions | Depression (before treatment) | 35.30 | 3.12 | -1.62 | 0.114 | |
| Depression (after treatment) | 22.92 |
Third hypothesis: there is a significant relationship between the duration of electrical stimulation session and reduced depression symptoms.
Electrical stimulation to reduce depression symptoms in terms of the time showed the interaction between the duration of the sessions and decreased depression symptoms. There was no significant difference between the duration of sessions and reduced depression score (P > 0.192).
Fourth hypothesis: there was a significant relationship between depression and age in the study subjects.
The current study results showed a relationship between depression and age; given that the value of r = 0.32, P = 0.778 showed the level of α = 0.05, there was no significant relationship between depression and age.
3.1. Inferential Statistics
According to Table 6, the duration of treatment course had no significant effect on the reduction of depression score (P > 0.05).
Table 6.The Effect of Electrical Stimulation Duration on Depression Symptoms, Based on Gender
| Age | Total | Average | SD | F | P Value | Results |
|---|---|---|---|---|---|---|
| 10 | Under 20 | 27.0000 | 4.94413 | 0.540 | 0.745 | No Difference |
| 21 - 25 | 30.0000 | 2.91548 | ||||
| 26 - 30 | 27.1538 | 6.09434 | ||||
| 31 - 35 | 25.4286 | 4.15761 | ||||
| 36 - 40 | 27.5000 | 9.19239 | ||||
| Above 40 | 24.6667 | 7.50555 | ||||
| Total | 27.0000 | 5.26235 | ||||
| 20 | Under 20 | 32.5000 | 5.97216 | 0.893 | 0.497 | No Difference |
| 21 - 25 | 29.2857 | 10.27480 | ||||
| 26 - 30 | 26.8182 | 9.94805 | ||||
| 31 - 35 | 25.8571 | 5.66947 | ||||
| 36 - 40 | 30.0000 | 7.21110 | ||||
| Above 40 | 34.4000 | 8.26438 | ||||
| Total | 29.0750 | 8.44101 |
4. Discussion and Conclusion
First hypothesis: electrical stimulation of the brain has a significant impact on reducing depression symptoms in patients with depression.
According to Table 6, electrical stimulation can reduce depression in patients with depression. The results of the current study were consistent with those of the other studies. The researchers concluded in their study that stimulation of the left DLPFC anode led to experience more positive emotions in people with depression and it also corresponded to the results of the study by arvel-anandum (11). The study on 73 patients with major depression reported a significant decrease in depression symptoms after the anode stimulation of the left frontal areas. The researchers concluded that anode stimulation of the dorsolateral prefrontal for 23 minutes in 13 sessions significantly decreased depression symptoms (12); these effects lasted up to 4 weeks after the treatment and the results were in agreement with those of the current study showing that the effect of the brain TDCS to treat depression was similar to that of fluoxetine (the increased cognitive function and pain relief is compatible with that of TDCS) (12). Anodic stimulation of the left lateral prefrontal cortex (of the same area triggered to treat depression) indicated that reinforcing the effectiveness of cognitive-behavioral correlation over a number of tasks, take advantage of higher-level cognitive functions, including working memory, verbal influence, and ability to plan. Other studies also showed certain improvement in language learning and reading, after TDCS. Apart from these studies that checked a single period of TDCS, a study referred to successive courses of provocations that may be useful and beneficial to cognitive and motor learning aid, which was consistent with the results of the current study. The primary stimulation in the frontal prescribed to treat depression may also have other clinical effects.
Second hypothesis: There is a significant relationship between the duration of electrical stimulation course and reduced depression symptoms in patients with depression, based on gender.
According to Table 6, there was a significant relationship between the duration of electrical stimulation sessions and reduced depression symptoms in patients with depression, based on gender. And the results of the current study indicated that stimulation was more effective on females than males (13).
Third hypothesis: There is a significant relationship between the duration of electrical stimulation course and reduced depression symptoms in patients with depression.
According to Table 6, there was a significant relationship between the duration of electrical current flow and depression symptoms in patients with depression and it was consistent with the results of the current study (14); the frequency and intensity of stimulation were greater in patients with depression and had similar effects on depression relief.
Fourth hypothesis: There was a significant relationship between depression symptoms and age.
According to Table 6, the duration of electrical current flow in the brain was associated with the reduction of depression symptoms based on age. No study demonstrated compatibility and incompatibility with the hypothesis.
4.1. Limitations
In most TDCS studies, at least 72 hours were considered between the sessions. The current study fixed the minimum time, but failed to control the maximum intervals between meetings in all subjects.
Given that the current study was on people with depression in Ilam, the generalizability of the results to other cities should be done cautiously.
Inappropriate responses of the subjects and limitations of the Likert scale, including the tendency to respond some items, were noted in some studies.
An attitude toward the tests that researchers used honest operation, commitment to their interest, and fully implementation of them in learning were out of the authors` will and control.
The time limit was less than 6 months.
4.2. Suggestions
Future studies should be conducted on the role of some other methods to treat patients with depression.
It was suggested that similar studies with larger sample sizes be conducted to facilitate the generalization of more comprehensive and reliable results.
It was suggested that future studies be conducted in the other cities of Ilam Province and results of different cities compared, and the effect of environmental factors introduced.
It was suggested that the results of the current study be provided to counselling centers, institutes, universities, and other institutions dealing with family affairs for the practical application.
