As evidenced from literature, smoking results in accumulation of metals in reproductive organs [5]. Manganese and nickel are toxic substances. Effects of manganese are primarily due to impaired function of the dopaminergic cerebral system. Manganese was classified by WHO as endocrine disruptor [6], and nickel — as metalloestrogen. Binding to oestrogen receptors, it stimulates the action of these hormones, thus, it can affect the mechanism of hormonal regulation. It was shown in experiments that accumulation of nickel in ovaries causes degenerative changes in ovarian granulosa cells resulting in impaired steroidogenesis. Nickel nanoparticles impair blood circulation in ovaries that is accompanied by leukocytic infiltration and inflammation in ovaries [7]. These two trace elements are released in large amounts during smoking.

The next stage of work involved the determination of the ratio of smokers among healthy women and women with PCOS (see Table 2).

Table 2

Ration of smoking women in control group and group with PCOS

As it can be seen from Table 2, smokers are more common in women with PCOS. These results confirm common beliefs that smoking can be included to the risk factors of PCOS.

The next stage of the study was a comparison of duration and intensity of smoking in both groups of women. The evaluation was performed by points depending on smoking duration and a daily number of cigarettes (see Table 3).

Table 3

Comparison of the duration and intensity of smoking

As it can be seen from Table 3, duration of smoking in women of both groups was similar. Women with PCOS smoked by 21.80% cigarettes more compared to the control group, however, differences were not statistically significant.

To date, there is no consensus on the mechanisms by which smoking affects the reproductive system. This is partially associated with impaired insulin resistance [8]. It was shown that in smoking women with PCOS there is an increased sensitivity to ACTH that induces hypersecretion of 17-hydroxyprogesterone [9]. Data are available that smoking reduces sensitivity to gonadotropins since increased need in gonadotropins was registered in the cycles of ovarian stimulation in smoking women. Furthermore, lower peak oestradiol levels and basal blood FSH levels were reported [10].

To find out how smoking affects trace elements in women with PCOS, we conducted a correlation analysis of manganese and nickel with smoking intensity and duration.

Table 4

Parameters of correlation analysis of intensity and duration of smoking and serum manganese and nickel levels in women with PCOS (n = 13)

S – Spearman coefficient, р – significance

The obtained results show that the number of cigarettes smoked per day and duration of this addictive habit do not affect serum manganese levels. The number of cigarettes also did not affect the serum nickel levels. However, a positive correlation was found between serum nickel level and smoking duration.

Humans consume the major amount of manganese with food. It is absorbed in the intestine and passes into the bloodstream. Its major portion is excreted with bile. Relatively low amount of manganese penetrates human body via inhalation. However, manganese toxicity after its inhalation has been known since the 19th century, when mineworkers were presented with signs of damage to the central nervous system [3]. The danger of the inhalation route of exposure is due to the fact that when it penetrates the respiratory tract, it accumulates in the olfactory epithelium and indirectly through the axons of the olfactory pathway reaches the cerebral structures. Its greatest accumulation is found in the pituitary gland. When it is absorbed through the olfactory pathway, manganese does not penetrate blood. Therefore, after inhalation exposure, blood manganese levels do not reflect its accumulation by cerebral structures [11]. The experimental studies on monkeys have shown that after inhalation exposure levels of manganese in the pituitary gland are ten times higher than in the blood. This explains why safe inhalation dose is much lower than oral penetration of manganese [12].

In our studies, we did not find the correlation between serum manganese levels and intensity or duration of smoking. However, we have reason to argue that manganese penetrates cerebral structures, bypassing the circulatory system, through the olfactory pathway. For this reason, we are unable to establish a clear correlation between the studied parameters. However, given the high blood levels of manganese in women with PCOS, it can be assumed that along with inhalation exposure, manganese penetrates the body alimentary.

The results regarding nickel were quite unexpected. When smoking one pack of cigarettes a day, 2–12 μg (up to 23 μg) of nickel penetrates the human body. In the inhalation route, about 50% of nickel is adsorbed. According to WHO, a much higher amount of nickel up to 320 μg penetrates the body alimentary. After adsorption, the values are reduced to 45 μg with food and up to 3 μg with water. Thus, it becomes clear that the number of smoked cigarettes can only partially affect the serum nickel levels [4, 12].

Blood nickel levels are affected by the rate of its elimination from the body, which depends on many factors, including the form of the compound that penetrates the body. The elimination half-life of soluble forms of nickel with urine is 20–60 hours, but these data do not take into account the accumulation of poorly soluble forms [12]. For example, it has been experimentally shown that 60% of nickel oxide is excreted from the body in 90 days and 90% of nickel sulphide — in 35 days [4]. Nickel excretion rate from the body depends on the degree of overloading of the detoxification system, chronic diseases, etc. All this suggests that smoking women with PCOS have elevated serum nickel levels, most likely due to prolonged overloading of the body’s detoxification system. Due to this precise reason, we have found a correlation between serum nickel levels and duration of smoking.

Thus, studies have shown the following: women with PCOS have increased levels of exposure to manganese and nickel. Women with PCOS smoke cigarettes much commonly. The intensity and duration of cigarette smoking in women with PCOS virtually did not differ from the control group. The lack of correlation between the daily number of cigarettes, the duration of smoking and serum manganese was proved. When interpreting these results, one should remember that in the inhalation route of exposure to manganese, only a small part of it is absorbed into the blood. A positive correlation was found between serum nickel level and smoking duration. However, the number of cigarettes did not affect the serum nickel levels.

Conclusion

1. Among women with PCOS smoking is much more common, however, the intensity and duration of smoking does not differ from the control group.

2. Serum manganese levels are associated neither with duration, nor with the intensity of smoking. Serum nickel levels are affected by duration of smoking, rather than by the intensity of smoking.

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