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S. A. Syurin, MD, DrMedSci. 

Kola Research Laboratory for Occupational Health, Kirovsk, Russia

Risks for occupational pathology in workers engaged in nickel and copper production in the Kola North

 

Introduction. At all stages of the process of nickel and copper production, that is, from the extraction of copper-nickel ores and to the release of commercial products, industry workers are exposed to hazardous occupational factors that create an increased risk of occupational diseases [2, 3]. Despite general similarities, each technology section of the copper-nickel production has its own characteristic features in the spectrum and mechanism of harmful factors action [1]. Currently, however, the literature does not present the results of the comparative evaluation of the risk of health problems on exposure to harmful factors of the different sections of copper and nickel production.

The aim of the study was to examine the levels of risk of occupational diseases upon exposure to harmful factors at the different sections of the copper-nickel production in the Kola North.

Materials and Methods. An analysis of occupational morbidity of copper-nickel industry workers was based on the archival data accumulated in Kola Research Laboratory for Occupational Health (Kirovsk, Murmansk region). Archival materials included all cases of occupational diseases  registered in the Murmansk region for the period from 1975 to 2010.  Assessment of working conditions was conducted in accordance with the results of job place attestation (Guidelines 2.2.2006-05). MicroSoft Excel 2007 and the program Epi Info, v. 6.04d were applied for statistical analysis of the collected data with determination of Student's t-criterion,  criterion of consent χ2,  relative risk (RR) and its 95% confidence interval (CI). Numerical data are presented as mean and standard error (M ± m). Differences are considered reliable when p is less then 0.05.

The results. In the archival materials there was information on 1103 cases of newly diagnosed occupational diseases among 708 employees of Kola Mining and Metallurgical Company. Of those 283 workers were occupied in underground and open extraction of nickel-copper ore. Three hundred and sixty-two and 58 workers were employed in different types of nickel and copper production, respectively. From anong the 362 nickel production employees,  178 people worked in pyrometallurgical, 144 people - in  hydrometallurgical and 40 people - in carbonyl shops of the metallurgical plant. Fifty-two and 6 people were employed in  pyrometallurgical and electrolytic copper production,  respectively. Occupational diseases (OD) were also detected in 6 auxiliary shop workers, who were only periodically exposed to harmful factors while performing production tasks in the main metallurgical shops. The prevalence of OD in this group of employees was taken as the level of control.

Working conditions in the mines and main metallurgical shops meet requirements of hazard class 3.1-3.4. For miners,  such factors as exposure to vibration, the intensity of labor and unfavorable microclimate parameters in underground and opencast mines are of  major  hygienic importance. Water-insoluble aerosols of nickel compounds and sulfur dioxide are the leading hazards  in pyrometallurgical processing of nickel and copper. Water-soluble nickel compounds and nickel  tetrakarbonil are the main hazards in  hydrometallurgical and carbonyl productions of nickel, respectively. The largest number of jobs with the most dangerous working conditions (class 3.3-3.4) were found in the nickel carbonyl shop, and the smallest - in the copper electrolysis shop. Working conditions of auxiliary shop employees corresponded to the class 2 (admissible) in the main workplace and to the classes 3.1-3.2 while carrying out temporary tasks in the metallurgical shops.

At the time of OD detection there were  no significant differences among seven groups of employees with regard to the age and length of service in the company. The mean age ranged from 48.1 ± 0.9 to 49.9 ± 0.5 years (p> 0,05) and the experience - from 19.7 ± 1.2 to 23.0 ± 3.2 years (p > 0.5). The structure of the OD in the groups of miners and metallurgists was fundamentally different (Table). In the first group it was dominated by pathology of the musculoskeletal and nervous systems including vibration disease (78.4%), while in the second group it was predominantly represented by respiratory diseases (94.9%).

                                                                                                                      Table

                       Pattern  and prevalence of occupational diseases (cases and %)

Diseases

Production of copper-nickel ore

 (n=431)

Production of nickel

(n=587)

Production of copper

(n=78)

Vibration disease

150 (34,8%)

-

-

Musculoskeletal system

119 (27,6%)

46 (7,8%)

4 (5,1

Ear and mastoid

70 (16,2%)

32 (5,5%)

-

Nervous systems,

69 (16,0%)

47 (8,0%)

-

Respiratory system

15 (3,5%)

425 (72,4%)

74 (94,9%)

 Eye and adnexa apparatus

8 (1,9%)

-

-

 Neoplasms

-

21 (3,6%)

1 (1,3%)

 Skin and its appendages

-

8 (1,4%)

-

 Circulatory system

-

6 (1,0%)

-

 Digestive tract

-

2 (0,3%)

-

 

         Of the respiratory diseases (figure) chronic bronchitis was the most frequently diagnosed ill-health condition (79.1%). Toxic  pneumosclerosis, exogenous fibrosing alveolitis and asthma   were  significantly less prevalent. There were substantial differences in the structure of the respiratory diseases in different groups of workers. The high prevalence of asthma was characteristic of nickel electrolysis  production employees (11.6%) and the high prevalence of toxic pneumosclerosis  was typical of nickel carbonyl production workers (37.0%)

 

Figure. Pattern of occupational respiratory diseases.

 

The risk of OD in each of the selected occupational groups was calculated taking into account the reference level of OD prevalence rate and the average annual number of employees. The lowest risk of developing OD was in the group of copper electrolysis workers which did not exceed the reference level (RR = 1.38; CI 0.43-4.49; χ2 = 0.29; p = 0.5888234). In the other groups of workers the risk of OD was significantly higher than both in auxiliary and copper electrolysis shop workers. In relation to the control level, an increase in the risk of OD was noted in the following order of production shops: pyrometallurgical processing of copper (RR = 5.52; CI 2.38-12.77; χ2 = 20.65; p = 0.0000055), pyrometallurgical processing of nickel (RR= 5.66; CI 2.52 -12.70; χ2 = 23.38; p = 0.0000013), extraction of copper-nickel ores (RR=6.67; CI 2.99-14.91; χ2 = 30,11; p = 0.0000001), electrolysis nickel production (RR=6.78; CI 3.01-15.27; χ2 = 30.03; p = 0.0000001), nickel carbonyl production (RR =8.24; CI 3.52-19.29; χ2 = 34.64; p = 0.0000001).

Of the pyrometallurgical production employees OD were most often identified in smelters (32.0% of all cases), of the electrolysis production employees - in elelectrolysis bath operators (38.9%), of the carbonyl production employees – in  operators of the production equipment of all specialties (35.0%). Tunnelers  and drilling rig operators were most prone to the formation of  OD among the miners:  45.6% and 16.6% of all cases, respectively. The risk of developing OD in nickel production smelters was 1.98 (CI 1.51-2.59; χ2 = 22.73; p = 0.0000019) and in copper production smelters - 2.94 (CI 1.75-4.96; χ2 = 16.54; p = 0.0000512) as compared with workers in other professions.

  The risk of  OD among electrolysis bath operators was ignificantly higher than that of other specialties workers engaged in electrolysis nickel production (RR = 1.60; CI 1.16-2.20; χ2 = 8,03; p = 0.0045905). Frequent detection of OD in equipment operators of the carbonyl nickel production was related to their size, rather than an increased risk of occupational etiology of health problems (RR=0.80; CI 0.44-1.44; χ2 = 0/57; p = 0. 4484601).

Discussion. The study showed that the greatest risk of occupational pathology is observed in nickel carbonyl production workers and it is equally high in technicians for all major trades. This fact can be associated with exposure to aerosols of nickel tetrakarbonil at all technological stages of production. Less harmful working conditions for workers of pyrometallurgical production of copper and nickel, as well as nickel electrolysis production can explain  lower risk of developing OD in these groups of employees as compared with nickel carbonyl production. However, it was significantly higher then the level of risk observed among workers of auxiliary facilities. The greater exposure to harmful factors in tunnelers and operators of drilling rigs, smelters and elelectrolysis bath operators (class 3.3-3.4) increase the risk of OD formation compared with other professionals of the corresponding types of production.

Conclusion. It is necessary to introduce a set of measures of technical and medical nature to reduce the risk of ill health of professional etiology in copper-nickel industry workers. This problem is particularly relevant for such categories of workers as tunnelers and drilling rig operators in copper-nickel ore mines, smelters in copper and nickel production, nickel elelectrolysis bath operators  and all employees engaged in the nickel carbonyl production.

References

1. Artyunina G. P., Chashchin V. P., Ignat'kova S. A. i dr. Gigiena i sanitariya [Hygiene and Sanitary], 1998, no. 1. pp. 9-13 [in Russian].

2. Nikanov A. N., Chashchin V. P. Ekologiya cheloveka [Human Ecology], 2008, no. 10, pp. 9-14 [in Russian].

3. Profilaktika professional'nykh zabolevanii organov dykhaniya i perifericheskoi nervnoi sistemy u rabotnikov nikelevoi promyshlennosti Severa Rossii: posobie dlya vrachei [Prevention of occupational diseases of respiratory and peripheral nervous systems nickel industry workers in the Russian North]. Sankt-Peterburg, 2010. 33 p. [in Russian].