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. 2020 Sep 20;12(1):74–95. doi: 10.1016/j.shaw.2020.09.005

Reconstruction of the Korean Asbestos Job Exposure Matrix

Dongmug Kang 1,2,3, Saemi Jung 1,, Yun-Ji Kim 2, Juyoung Kim 4, Sangjun Choi 5, Se Yeong Kim 1, Youngki Kim 1
PMCID: PMC7940145  PMID: 33732532

Abstract

Background

A job-exposure matrix (JEM) is an important surrogate indicator to evaluate past exposure levels. Although a Korean asbestos JEM has been constructed previously, this JEM includes only a few industrial and occupational groups. This study aimed to reconstruct the JEM by integrating the latest organized data to improve its utility.

Methods

We used recent Korean standard industry and occupation codes and extracted 36 articles from a systematic literature review to initiate the reconstruction of the previous Korean asbestos JEM. The resulting data consisted of 141 combinations of industrial and occupational groups. Data from the Netherlands's JEM were also reviewed and categorized into 70 industrial and 117 occupational groups by matching with the Korean data. We also utilized Germany's data, which consisted of 10 industrial and 14 occupational groups.

Results

The reconstructed Korean asbestos JEM had 141 combinations of industries and occupations. The time periods are from the 1980s to the 2000s in 10-year intervals. Most of the data were distributed between the 1990s and the 2000s. Occupations with high exposure to asbestos included knitting and weaving machine operators, automobile mechanics or assemblers, ship mechanics or assemblers, mineral ore and stone products processing mechanics, and metal casting machine operators or mold makers.

Conclusions

The reconstructed Korean asbestos JEM has expanded the type and duration of the occupational groups of the previous JEM and can serve as an important reference tool for evaluating asbestos exposure and designing compensation and prevention policies in Korea.

Keywords: asbestos, job-exposure matrix, occupational exposure, Korea

1. Introduction

Asbestos is a group of natural fibrous silicate minerals that are resistant to heat, fire, corrosion, and electricity. Because of these properties, it has been globally used in industry. As asbestos continues to be used for decades, there have been growing concerns about its health effects, and studies on occupational and environmental exposure to the compound have been conducted. Asbestos is known to cause asbestos-related diseases (ARDs), such as malignant mesothelioma, lung cancer, laryngeal cancer, ovarian cancer, asbestosis, and pleural disease (pleural plaque and pleural thickening) [1]. Asbestosis was first recognized in the 1930s, lung cancer in the 1950s, and malignant mesothelioma in the 1960s [2]. The International Agency for Research on Cancer classified asbestos as a group 1 carcinogen [3]. ARDs have a dose–response relationship, with a long latency between exposure and disease. ARDs, including asbestosis and cancers, have a minimum latency period of 10 years. Therefore, the estimation of past exposure before the onset of the disease is important to clarify the association between the exposure and the disease [4]. However, direct exposure assessment has limitations due to time, technical, and spatial constraints [5]. As a countermeasure, a job-exposure matrix (JEM) can be used as a tool for assessing past exposure levels.

A JEM is designed to link information on occupation and exposure to specific workplace hazards [6]. It was first introduced in 1941 [7] and has been used extensively in occupational epidemiological studies since the 1980s [8]. The advantage of using a JEM is that it reduces a differential information bias using standardized industry/job titles in certain circumstances such as case–control studies between cases and controls [9].

In Korea, asbestos imports have increased since the 1970s and began to be used in various occupations as industrialization started. The Saemaeul movement was one of the national programs of industrialization. As a new town program of the movement, the thatched roofs in rural area were replaced with slate roofs made by asbestos. As the exposure to asbestos increased and the asbestos-related health problem had been emerged, studies began to be performed after the 1980s, leading to the first compensation case for ARDs in 1993. Data on asbestos exposure at the time were limited, and this led to the construction of the Korean asbestos JEM [10]. Other countries such as the Netherlands and Germany also developed their own JEM. However, the Korean asbestos JEM remained limited in terms of data. This study aims to reconstruct the previous Korean asbestos JEM by integrating recent Korean data and data from the Netherlands' and Germany's JEM to improve the utility of the tool.

2. Materials and methods

To reconstruct the previous asbestos JEM, we combined the previous asbestos general population JEM (GPJEM), a systematic literature review, and extracted the Netherlands' and Germany's JEM data and showed it to the reconstructed Korean asbestos JEM for comparison (Fig. 1). Finally, the reconstructed asbestos JEM was composed of 141 combinations of industrial and occupational groups.

Fig. 1.

Fig. 1

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Composition of data for new construction of the asbestos JEM.

2.1. Korean measurement data

We referred to the most recently published GPJEM. The data resource of the GPJEM is composed of the Korean literature from 1984 to 1996, the Graduate School of Public Health Seoul National University database, which contains the exposure information between 1995 and 2006, and the Korean Occupational Safety and Health Agency database between 2005 and 2008 [10].

2.2. The systematic literature review

In addition, a systematic literature review of Korean and international databases was performed.

2.2.1. Inclusion criteria

  • -

    Any literature about asbestos exposure levels in the workplace, including abstracts, journal articles, books, conference papers, related publications, and related conferences

  • -

    The search terms were “asbestos” and “Korea” for until 2017 in Korea.

  • -

    Any literature or abstract published in Korean or English

2.2.2. Search databases

2.2.3. Review process

An information retrieval strategy was used, and duplicate articles were excluded. The final selection was performed in two steps: exclusion of the article after reviewing the title and abstract and exclusion of the article after reading the full text.

2.2.4. Data extraction

Among 76 articles selected in the systematic literature review, 26 were excluded because of overlap between the measured data and other data, and 14 were excluded because of absence of information on the time period. Finally, we analyzed 36 articles and used the obtained data of the weighted arithmetic mean for the reconstruction of the previous Korean asbestos JEM. A flow chart of the literature inclusion process is shown in Fig. 2.

Fig. 2.

Fig. 2

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Flow of the systemic literature review and data extraction.

2.3. The asbestos JEM of other countries

2.3.1. The Netherlands' data

We gathered data from the Netherlands' JEM based on the study of Swuste et al [12] to reconstruct the Korean asbestos JEM. The data consisted of 70 industries, 309 occupations, and a total exposure period of 50 years, from 1945 to 1994, divided into five-year intervals. We converted these data into 70 industries and 91 occupations with the same periods by matching the Standard Industry Codes and Standard Classification of Occupations codes based on International Standard Classification of Occupation 88 (ISCO-88) with Korean codes based on ISCO-88. We used the website http://www.asbestkaart.nl by the Asbestos Victims Institute, which offers raw data of asbestos exposure [13], and finally classified the Netherlands' industrial and occupational categories into 70 industrial and 117 occupational groups and an additional seven subcategories. For these matched data, we assigned the Netherlands' ID by arranging the codes based on the 10th Korea Standard Industry Code (KSIC) and the 7th Korean Standard Classification of Occupations (KSOC). The exposure level was divided into seven codes: “0,” no exposure; “a,” 0–0.5 fibers/cm3; “b,” 0.5–1 fibers/cm3; “c,” 1–2 fibers/cm3; “d,” 2–5 fibers/cm3; “e,” 5–10 fibers/cm3; and “f,” ≥10 fibers/cm3.

2.3.2. Germany's data

For data from Germany's JEM, we referred to the BK-Report 1/2013 Faserjahre [14] and converted German Standard Industry Codes and Standard Classification of Occupations codes into Korean codes. After translating German to Korean, we matched the German JEM data with appropriate KSIC and KSOC categories. Exposure levels were included in the reconstructed JEM.

2.3.3. Listing of the Netherlands and German JEM in the Korean asbestos JEM table

We extracted 84 combinations of the Netherlands' JEM data and 11 combinations of Germany's JEM data. Among them, we represented the matched 49 Netherlands' data and six Germany's JEM data with the most similar combination of Korean JEM data.

3. Results

For Korean data, we designated the exposure level into four categories: E1, ≥1 fibers/cm3; E2, ≥0.1 fibers/cm3; E3, 0.01–0.1 fibers/cm3; and E4, <0.01 fibers/cm3. The number of industrial and occupational combinations (IOCs) was 14 in the 1980s, which increased to 54 in the 1990s and 117 in the 2000s. The number of occupational groups with a highly exposed level (E1) was six (42.9%) in 1980s, five (9.3%) in 1990s, and six (5.1%) in 2000s. (Table 1). The proportions of over 0.1 f/cc that was the current occupational exposure limit of Korea were the highest as 92.9% in the 1980s, then decreased to 22.3% in the 1990s, and was 31.6% in 2000s.

Table 1.

The number of exposure groups of occupations by year N (%)

Exposure groups 1980 1990 2000
E1 6(42.9) 5(9.3) 6(5.1)
E2 7(50.0) 7(13.0) 31(26.5)
E3 0(0.0) 28(51.9) 34(29.1)
E4 1(7.1) 14(25.9) 46(39.3)
Total 14(100) 54(100) 117(100)
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E1: ≥1 fibers/cm3, E2: 0.1–1 fibers/cm3, E3: 0.01–0.1 fibers/cm3, and E4: <0.01 fibers/cm3.

A newly constructed asbestos JEM table for 141 IOCs was established (Table 2). There were the industrial code and name (the 10th KSIC) of 2017, which was relevant to ISCO-88 and the occupational code and name (the 7th KSOC) of 2017. The concentrations of asbestos were represented for three periods, the 1980s, 1990s, and 2000s. There were three IOCs which contains concentration data in 2010s, and they were added in the 2000s tab. It also contains estimated exposure values and levels to compare data from the Netherlands' and Germany's JEM. Netherlands' data and Germany's data were added to the most relevant combination of industry and occupation for comparison.

Table 2.

The newly constructed asbestos JEM.

IOC numbers Industry (KSIC, 10th)
 Occupation (KSOC, 7th)
 Exposure or sampling description Concentration (f/cc)
 References
 The Netherlands (NL), Germany (DE) data
Code Name Code Name 1980s 1990s 2000s
1 07290 Mining of Other Non-metal Ores n.e.c. 91002 Mining Laborers Asbestos mining 0.235 Moon, 1979 [21]
2 07290 Mining of Other Non-metal Ores n.e.c. 83121 Chemical Material Grinding and Mixing Machine Operators Asbestos grinding mill 2.94 Moon, 1979 [21] 07290(Mining of Other Non-metal Ores n.e.c.) and 792(Plumber): 1–2 (1945–1974) (NL) (nonasbestos mines: working with asbestos insulation, using asbestos mats and mattresses/installation and repair and maintenance of boilers and turbines [heating])
3 07290 Mining of Other Non-metal Ores n.e.c. 78412 Quarrymen 0.006 Yoon, 2011 [38] 07290(Mining of Other Non-metal Ores n.e.c.) and 784(Mining and Civil Engineering Related Technical Workers): 0–0.5 (1945–1974) (NL) non asbestos mine: exposed by lifts Railway vehicles (such as brake linings) in mines
4 10301 Processing and Preserving of Fruit and Vegetables, Pickled Food 71052 Side Dish Makers 0.013 Choi, 2006 [32] 1072(Manufacture of Sugar) and 2321(Chemical Engineers and Researchers): sugar production, asbestos insulation, indirect exposure to ropes and friction materials 1–2 (1945–1979), 0–0.5 (1980–1994) (NL)
5 13102 Spinning of wool 8211 Textile Processing Machine Operators Handling talc containing asbestos 0.74 KOSHA DB
6 13213 Weaving of Man-Made Fiber Fabrics 82211 Weaving Machine Operators 1.52 SNU DB
7 13993 Manufacture of Special Yarns and Tire Cord Fabrics 8211 Textile Processing Machine Operators 0.073 SNU DB
8 15219 Manufacture of Other Footwear 721 Textile and Leather Related Workers Area sampling in factory building construction with asbestos-containing material 0.026 KOSHA DB
9 17129 Manufacture of Other Paper and Paperboard 89132 Paper Machine Operators Handling talc-containing asbestos 0.810 0.009 0.005 SNU DB 17(Manufacture of Pulp, Paper and Paper Products) and 8913(Pulp and Paper Machine Operators): 0–0.5 (1945–1979) (NL)
10 17129 Manufacture of Other Paper and Paperboard 8914 Paper products production machine operators Handling talc-containing asbestos 1.61 KOSHA DB
11 17221 Manufacture of Paper Sacks and Paper Bags 84219 Painting Machine Operators n.e.c. 0.113 KOSHA DB
12 17222 Manufacture of Paperboard Boxes and Containers 89141 Box and Envelope Making Machine Operators 0.452 KOSHA DB
13 17222 Manufacture of Paperboard Boxes and Containers 84219 Painting Machine Operators n.e.c. Handling talc-containing asbestos 1.51 KOSHA DB
14 17902 Manufacture of Sanitary Paper Products 89144 Sanitary Paper Products Machine Operators 0.116 KOSHA DB
15 17909 Manufacture of Other Articles of Paper and Paperboard n.e.c. 89190 Wood and Paper Related Machine Operators n.e.c. 3.544 SNU DB
16 20111 Manufacture of Basic Organic Petrochemicals 83219 Chemical Products Production Machine Operators n.e.c. 0.010 0.010 SNU DB 19(Manufacture of Coke, hard-coal and lignite fuel briquettes and Refined Petroleum Products) and 21332(Chemistry Technicians): 0–0.5 (1945–1984) (NL)
17 424 Interior and Building Completion 7824 Constructi0on Carpenters 0.012 KOSHA DB 311(Building of Ships and Boats) and 7824(Construction Carpenters): production of asbestos plaster, sealant production 1–2 (1945–1974), 0.5–1 (1975–1979), 0–0.5 (1980–1994) (NL)
18 2030 Manufacture of Synthetic Rubber and of Plastics in Primary Forms 8312 Chemical Material Processing Machine Operators Manufacturing of synthetic resin 0.113 KOSHA DB
19 20302 Manufacture of Synthetic Resin and Other Plastic Materials 83121 Chemical Material Grinding and Mixing Machine Operators Handling talc-containing asbestos 1.06 KOSHA DB
20 20302 Manufacture of Synthetic Resin and Other Plastic Materials 83124 Chemical Material Distiller and Reactor Operators Handling talc-containing asbestos 0.73 KOSHA DB
21 20302 Manufacture of Synthetic Resin and Other Plastic Materials 84219 Painting Machine Operators n.e.c. Handling talc-containing asbestos 0.690 KOSHA DB
22 20302 Manufacture of Synthetic Resin and Other Plastic Materials 83239 Plastic Products Production Machine Operators n.e.c. Mixing of epoxy resin 0.861 0.043 0.043 SNU DB
23 20421 Manufacture of General Paints and Similar Products 83121 Chemical Material Grinding and Mixing Machine Operators Manufacturing of paint 0.619 KOSHA DB
24 20431 Manufacture of Surface-Active Agents 83213 Detergents Production Machine Operators Handling talc-containing asbestos 2.45 KOSHA DB
25 20493 Manufacture of Adhesives and Gelatin 83121 Chemical Material Grinding and Mixing Machine Operators Handling talc-containing asbestos 0.055 KOSHA DB
26 20499 (20111) Manufacture of All Other Chemical Products n.e.c. 83219 Painting Machine Operators n.e.c. 0.010 SNU DB
27 21300 Manufacture of PharmaceuticalGoods Other Than Medicaments 83211 Pharmaceutical Products Production Machine Operators 0.016 SNU DB
28 221 Manufacture of Rubber Products 83239 Plastic Products Production Machine Operators n.e.c. 0.110 KOSHA DB
29 22111 Manufacture of Tires and Tubes 83221 Tire Production Machine Operators Handling talc-containing asbestos 0.658 KOSHA DB
30 22191 Manufacture of Industrial Un-vulcanized Rubber Products 83229 Tire and Rubber Products Production Machine Operators n.e.c. Handling talc-containing asbestos 0.961 KOSHA DB
31 22199 Manufacture of Other Rubber Products n.e.c. 83222 Rubber Products Production Machine Operators 0.012 0.012 SNU DB
32 20301 Manufacture of Synthetic Rubber 83222 Rubber Products Production Machine Operators Handling talc-containing asbestos 0.468 KOSHA DB
33 22232 Manufacture of Packaging Plastics and Shipping Containers 83231 Plastic Catapulting Machine Operators 0.008 SNU DB
34 22250 Manufacture of Foamed Plastic Products 83239 Plastic Products Production Machine Operators 5.12 SNU DB
35 22299 Manufacture of Other Plastic Products n.e.c. 83239 Plastic Products Production Machine Operators n.e.c. 0.012 0.012 SNU DB 2229(Manufacture of Other Plastic Products): asbestos gaskets, electric isolation. 1–2 (1945–1969), 0.5–1 (1970–1974), 0–0.5 (1975–1994) (NL)
36 20302 Manufacture of synthetic resin and other plastic materials 83239 Plastic Products Production Machine Operators n.e.c. Manufacturing of brake lining 0.043 0.043 SNU DB
37 23199 Manufacture of All Other Glass and its Products n.e.c. 84319 Glass and Glass Products Machine Operators n.e.c. Working around mercury filling and air vent machines 0.007 KOSHA DB 231(Manufacture of Plastic Sacks, Bags and Similar Products) and 8431(Glass Fabricating and Processing Machine Operators): 0.5–1 (1945–1979), 0–0.5 (1980–1989) (NL)
38 23211 Manufacture of Pottery and Ceramic Household or Ornamental Ware 84321 Pottery and Porcelain Products Production Machine Operators 0.006 KOSHA DB
23229 Manufacture of Other Refractory Ceramic Products 84319 Glass and Glass Products Machine Operators n.e.c. 0.064 Choi, 2006 [32]
39 23229 Manufacture of Other Refractory Ceramic Products 84322 Brick and tile molding machine operators 0.0642 SNU DB
23229 Manufacture of Other Refractory Ceramic Products 84399 Nonmetal Products Related Production Machine Operators n.e.c. 0.069 0.069 SNU DB
40 23239 Manufacture of Other Structural Non-refractory Clay and Ceramic Products 8432 Clay Products Production Machine Operators 0.004 Choi, 2006 [32]
41 23324 Manufacture of Cellulose Fiber Cement Products 84331 Cement and Lime Production Related Machine Operators Extruding molding of cement 0.013 KOSHA DB
42 23325 Manufacture of Concrete Roofing Tiles, Bricks and Blocks 84322 Brick and Tile Production Machine Operators 0.059 Choi, 2006 [32]
43 2391 Cutting, Shaping and Finishing of Stone 78230 Construction Stonemasons Handling talc-containing asbestos 1.18 KOSHA DB 311(Building of Ships and Boats) and 7824(Construction Carpenters): Production of asbestos plaster, sealant production. 12(1945–1974), 0.5–1(1975–1979), 0–0.5(1980–1994) (NL)
44 23911 Manufacture of Stone Products for Construction 84341 Mineral Ore and Stone Processing Machine Operators Manufacturing of asbestos slates 0.46 0.74 0.145 Paik, 1989 [23]
Paik, 1991 [24]
Oh, 1993 [25]
Park, 1995 [27]
Choi, 1998 [29]		 23911(Manufacture of Stone Products for Construction) and 93001(Packing Laborers): 2–5 (1945–1969), 1–2 (1970–1974), 0.5–1 (1975–1979), 0–0.5 (1980–1994) (NL)
23911(Manufacture of Stone Products for Construction) and 141(Construction, Electricity and Production Related Managers): 1–2(1945–1974), 0–0.5(1975–1994), (NL)
45 23919 Manufacture of Other Stone Products 78230 Construction Stonemasons 0.400 Choi, 2006 [32]
46 23992 Manufacture of Abrasive Articles 84392 Brightener Production Machine Operators 0.807 0.56 Choi, 2006 [32]
SNU DB
47 7121 Quarrying of Monumental and Building Stone 84341 Mineral Ore and Stone Processing Machine Operators 0.912 Yoon, 1993 [41]
48 23994 Manufacture of Asbestos, Mineral Wools and Other Similar Products 821, 8221 Textile Production and Processing Machine Operators Manufacturing of asbestos textile, knitting and waving machine operators 7.48 2.55 0.14 Choi, 2006 [32]
Lim, 1999 [42]
KOSHA DB		 13213(Weaving of Man-Made Fiber Fabrics) and 8211(Textile Processing Machine Operators): 5–10 (1945–1969), 2–5 (1970–1974), 0.5–1 (1975–1984), 0–0.5 (1985–1994) (NL)
13213(Weaving of Man-Made Fiber Fabrics) and 8221(Knitting and Weaving Machine Operators): 5–10 (1945–1969), 2–5 (1970–1974), 0.5–1 (1975–1984), 0–0.5 (1985–1994) (NL)
49 23994 Manufacture of Asbestos, Mineral Wools and Other Similar Products 83121 Chemical Material Grinding and Mixing Machine Operators 0.06 Jung, 1994 [26]
50 23994 Manufacture of Asbestos, Mineral Wools and Other Similar Products 84159 Metal Processing Machine Operators n.e.c. 0.025 Jung, 1994 [26] 13993(Manufacture of Special Yarns and Tire Cord Fabrics) and Administrative and management support managers, n.e.c.: Asbestos textile industry, other production activities, asbestos insulation pipeline production/office management/indirect exposure pollution 1–2(1945–1974)
0.5–1 (1975–1979), 0–0.5 (1980–1994) (NL)
51 23994 Manufacture of Asbestos, Mineral Wools and Other Similar Products 84322 Brick and Tile Production Machine Operators 0.03 SNU DB
52 23994 Manufacture of Asbestos, Mineral Wools and Other Similar Products 8433 Cement and Mineral Products Production Machine Operators Manufacturing of asbestos gaskets 1.7 0.78 0.018 Choi, 2017 [10]
KOSHA DB		 23994(Manufacture of Asbestos, Mineral Wools and Other Similar Products) and 84331(Cement and Lime Production Related Machine Operators): 5–10 (1945–1954), 2–5 (1955–1964), 0.5–1 (1965–1974), 0–0.5 (1975–1994) (NL)
53 23999 Manufacture of Other Unclassified Non-metallic Minerals n. e. c. 84399 Nonmetal Products Related Production Machine Operators n.e.c. 0.069 0.069 SNU DB
54 24119 (24111) Manufacture of Other Basic Iron and Steel (Manufacture of Basic Iron) 84141 Ore and Metal Furnace Operators 0.008 0.008 SNU DB
55 24121 Manufacture of Hot Rolled, Drawn and Extruded Iron or Steel Products 84151 Rolling Mill Operators 0.04 0.04 SNU DB
56 2431 Cast of Iron and Steel 84110 Metal Casting Machine Operators Welding with asbestos cloth 1.54 Paik, 1989 [23]
57 25119 Manufacture of Other Structural Metal Products 84213 Metal Product Painting Machine Operators 0.211 KOSHA DB
58 25911 (25999) Manufacture of Powder Metallurgic Products 84159 Metal Processing Machine Operators n.e.c. Melting of metal powders 0.003 KOSHA DB Lock manufacturing and 7534(Refrigerating System, Freezer, and Ventilating System Fitters and Mechanics): 1.62 (1955–1961), 0.6 (1955–1961) (DE)
20121(Manufacture of Industrial Gases) and 899(Other Machine Operators): 0–0.5(1970–1984) (NL)
59 25912 (24) Forging of Metal/Manufacture of Basic Metal Products 74130 Forge Hammer smiths and Forging Press Workers 0.008 KOSHA DB 25(Manufacture of Fabricated Metal Products, Except Machinery and Furniture) and 741(Die and Mold Makers, Metal Casting Workers and Forge Hammer smiths): 0–0.5 (1945–1984) (NL)
25(Manufacture of Fabricated Metal Products, Except Machinery and Furniture) and blacksmith: 2–5 (1945–1974), 1–2 (1975–1984), 0.5–1 (1985–1994) (NL)
60 25913 Manufacture of Metal Pressed and Stamped Products 84151 Rolling Mill Operators 0.007 SNU DB
61 25921 Heat Treatment of Metals 84155 Metal Heat Treatment Furnace Operators Operation of furnace heat treatment 0.034 KOSHA DB
62 25923 Coating and Similar Treatment of Metals 84229 Plating and Metal Spraying Machine Operators n.e.c. 0.117 KOSHA DB Asbestos paint industry and paint mixer: 2–5 (1945–1974), 0.5–1 (1975–1979), 0–0.5 (1980–1994) (NL)
63 25934 Manufacture of Saws, Saw Blades and Interchangeable Tools 74110 Die and Mold Makers 0.009 0.009 SNU DB 2592(Treatment and Coating of Metals) and 7411(Mold maker): 0–0.5 (1945–1984) (NL)
64 26299 Manufacture of Other Electronic Valves, Tubes and Electronic Components n.e.c. 86321 Electronic Parts Production Equipment Operators 0.011 0.011 SNU DB
65 2642 Manufacture of Broadcasting and Wireless Telecommunication Apparatuses 86409 Electrical, Electronic Parts and Products Assembler n.e.c. 0.028 SNU DB
66 26529 Manufacture of Other Sound Equipment 86402 Audio-Visual Equipment Assemblers 0.022 SNU DB
67 27216 Manufacture of Industrial Process Control Equipment 76224 Electrical Control Unit Fitters and Mechanics 0.001 KOSHA DB
68 27216 Manufacture of Industrial Process Control Equipment 85101 Lathe Machine Operators Operation of milling machines for electromagnetic clutches 0.002 KOSHA DB
69 28111 Manufacture of Electric Motors and Generators 86401 Electrical Equipment Assemblers 0.014 0.072 Choi, 2006
SNU DB
70 28119 Manufacture of Other Electric Motors, Generators and Transformers 85109 Metal Work Machinery Operators n.e.c. 0.065 0.075 Lee, 2013 [40]
71 28119 Manufacture of Other Electric Motors, Generators and Transformers 8610, 86311 Power Generation and Distribution Equipment Operators, Electrical Parts Production Equipment Operators Manufacturing of rotary machine parts 0.004 Choi, 2006 [32]
KOSHA DB		 2811 (Manufacture of Electric Motors, Generators and Transformers) and thermal power plant operators: 3.33, 3.55, 8.88, 1.11 (1956–1974) (DE)
72 28302 Manufacture of Other Insulated Wire and Cable 86402 Audio-Visual Equipment Assemblers 0.358 KOSHA DB 28302(Manufacture of Other Insulated Wire and Cable) and 141(Construction, Electricity and Production Related Managers): 1–2 (1945–1974), 0–0.5 (1975–1994) (NL)
73 28303 Manufacture of Insulated Codes Sets and Other Conductors for Electricity 86401 Electrical Equipment Assemblers Extrusion of electric cables 0.125 KOSHA DB 4231(Electrical Works) and 862 (Electrical and Electronic Equipment Operators): exposed in boiler, furnace, turbine, pump maintenance repairs, and electric installation 1–2 (1945–1974), 0–0.5 (1980–1994) (NL)
74 28410 Manufacture of Electric Lamps and Electric Bulbs 86312 Electrical Products Production Equipment Operators Manufacturing lamps for cars 0.203 KOSHA DB
75 28422 Manufacture of General Electric Lighting Fixture 86401 Electrical Equipment Assemblers Manufacturing of general lamps 0.020 KOSHA DB
76 28519 Manufacture of Other Domestic Electric Appliances 86312 Electrical Products Production Equipment Operators 0.005 SNU DB
77 29132 Manufacture of Pumps and Compressors 89904 Air Compressor Operators 0.005 SNU DB
78 29133 Manufacture of Taps, Valves and Similar Products 8510 Metal Work Machinery Operators 0.556 KOSHA DB
79 29169 Manufacture of Other Work trucks, Lifting and Handling Equipment 8544 General Machinery Assemblers 0.009 0.009 SNU DB
80 29210 Manufacture of Agricultural and Forestry Machinery 83239 Plastic Products Production Machine Operators n.e.c. Manufacturing of agricultural machines 0.003 KOSHA DB Fertilizer industry and 862(Electrical and Electronic Equipment Operators): 1–2 (1945–1979), 0–0.5 (1980–1994) (NL)
81 29210 Manufacture of Agricultural and Forestry Machinery 85442 Agricultural Machinery Assemblers 0.046 SNU DB Farmer: Farm machinery maintenance
Exposure to asbestos cement on roof and wall materials: 0–0.5 (1955–1994) (NL)
82 29250 Manufacture of Machinery for Food, Beverage and Tobacco Processing 811 Food Processing Related Machine Operators 0.008 SNU DB
83 29299 Manufacture of Other Special Purpose Machinery, n.e.c. 85441 Industry Machinery Assemblers 0.113 KOSHA DB
84 30121 Manufacture of Passenger Motor Vehicles 85410 Automobile Assemblers 0.023 0.023 SNU DB
85 303 Manufacture of Parts and Accessories for Motor Vehicles and Engines 74130 Forge Hammersmiths and Forging Press Workers 0.001 KOSHA DB
86 30310 Manufacture of Parts and Accessories for Motor Engines 85421 Automobile Engine Assemblers Cutting with press machines 0.07 0.002 SNU DB
KOSHADB
87 30399 Manufacture of Other Parts and Accessories for Motor Vehicles n. e. c. 75105 Automobile Paint Mechanics Handling talc-containing asbestos 1.05 KOSHA DB
88 303 Manufacture of Other Parts and Accessories for Motor Vehicles n. e. c. 85429 Automobile Parts Assemblers n.e.c. 0.18 0.18 SNU DB
89 30399 Manufacture of Other Parts and Accessories for Motor Vehicles n. e. c. 85429 Automobile Parts Assemblers n.e.c. Manufacturing of brake lining 0.42 0.42 0.033 KOSHA DB
Paik, 1989 [24]
Oh, 1993 [25]
Choi, 1998 [29]
90 31111 Building of steel ships 75220 Ship Mechanics Shipbuilding 0.13 0.13 SNU DB 311(Building of Ships and Boats) and 7522(Ship Mechanics): 1–2 (1945–1974), 0–0.5 (1975–1989) (NL)
91 31114 Manufacture of Sections for Ships 85432 Ship Assemblers Ship machine processing 1.23 0.057 0.035 Choi, 2017 [10]
Paik, 1995 [28]		 311(Building of Ships and Boats): Working in asbestos insulated pipelines/working spray processing places 1–2 (1945–1989), 0.5–1 (1990–1994) (NL)
92 31322 Manufacture of Aircraft Parts and Accessories 85433 Aircraft Assemblers 0.010 SNU DB 313(Manufacture of Aircraft, Spacecraft and its Parts) and 7521(Aircraft Mechanics): 0.5–1 (1945–1979), 0–0.5 (1980–1984) (NL)
93 3320 Manufacture of Musical Instruments 73031 Musical Instrument Makers and Repairers 0.019 0.022 Lee, 2013 [40]
94 33999 Other Manufacturing n.e.c. 83124 Chemical Material Distiller and Reactor Operators Melting and molding 0.836 Choi, 2006 [32]
95 3511 Electric Power Generation 8610 Power Generation and Distribution Equipment Operators Maintenance workers in power plants 0.004 KOSHA DB Power Plant Machinery Manufacturing and Thermal Power Plant Operators: 1–2 (1945–1979), 0.5–1 (1980–1989), 0–0.5 (1990–1994) (NL)
3.33, 3.55, 8.88, 1.11 (1956–1974) (DE)
Maintenance and asbestos insulation and friction materials/maintenance (heating) plants and machinery/installation and repair of boilers and turbines, maintenance (heating) plants and machinery
96 3511 Electric Power Generation 23519 Machine Engineers and Researchers n.e.c. 0.004 Choi, 2006 [32]
97 36010 Collection, Purification and Distribution of Water to Household 8810 Water Treatment Plant Operators 0.066 Choi, 2006 [32] 36(Water Supply) and 792(Plumber): 1–2 (1945–1979), 0.5–1 (1980–1984), 0–0.5 (1990–1994) (NL)
98 38120 Hazardous Waste Collection 8820 Recycling Machine and Incinerator Operators Waste treatment 0.003 Choi, 2006 [32] 0–0.5 (1945–1994) (NL)
99 38120 Hazardous Waste Collection 91001 Construction Laborers Sampling after dismantling asbestos 0.005 KOSHA DB 742(Cleaning and Pest Control Services of Building and Industrial Facilities) and 941(Cleaners and Sanitation Workers): Asbestos water way cleaning 0–0.5 (1945–1994) (NL)
100 382 Waste Treatment Services 8820 Recycling Machine and Incinerator Operators 0.016 KOSHA DB
101 38220 Disposal of Hazardous Waste 88209 Recycling Machine and Incinerator Operator n.e.c. Crushing waste-containing asbestos 0.013 KOSHA DB
102 41224 Installation of Environmental Hygiene Treatment Appliances 88209 Recycling Machine and Incinerator Operator n.e.c. 0.002 KOSHA DB
103 41112 Apartment Building Construction 772 Broadcasting and Telecommunications Equipment Related Fitters and Repairers 0.039 0.039 SNU DB 41(General Construction) and 7831(plasterer): 0–0.5 (1945–1994) (NL)
104 41229 Other Civil Engineering Construction 23123 Building Construction Engineers 0.004 Choi, 2006 [32] 7829(Roof repair and Other Civil Engineering Construction): 0.34, 0.03, 1.5,0.47, 0.28 (1966–1970), 1.38, 0.34, 2.75, 1.72, 1.03, 0.14 (1972–1985) (DE)
105 42110 Wrecking and Demolition of Buildings and Other Structures 78293 Building Demolition Workers 0.042 0.004 Choi, 2006 [32] Asbestos removal/asbestos demolition/ship part dismantle/asbestos insulation (strip) elimination/dismantle, >10 (1945–1979), 5–10 (1980–1989), 1–2 (1990–1994) (NL)
106 42121 Excavating and earthmoving 78499 Mining and Civil Engineering Related Workers n.e.c. 0.001 Choi, 2006 [32]
107 42132 Steel Reinforcing and Reinforced Concrete Works 7822 Concrete Placers and Assemblers 0.001 Choi, 2006 [32] Boiler-heater and bricklayer: 0.67(1972), 0.5(1984)
(DE)
108 42134 Pavement Works 7836 Construction Painters 0.001 Choi, 2006 [32] 41221(Construction of Highways, Streets and Roads) and 87505(Road Paving and Roller Drivers): Asbestos-containing asphalt work 0–0.5(1975–1984) (NL)
109 42137 Scaffolding and Frame Works 78291 Scaffolders 0.021 Choi, 2006 [32]
110 4521 Sale of Motor Vehicle New Parts and Accessories 52129 Store Salespersons n.e.c. Handling of auto-vehicle brake for selling 1.42 Paik, 1989 [23] 46692(Wholesale of Wallpaper and Floor Coverings) and 72199 (Textile and Leather Related Workers n.e.c.): Sales of retail textiles, flooring, asbestos paper, felt 0–0.5(1970–1989) (NL)
111 471 Retail Sale in Non-Specialized Stores 5211 Owners and Supervisors of Small Stores 0.0002 0.003 Kim, 2002 [43] 466(Wholesale of Construction Materials, Hardware and Heating and Air Conditioning Equipment) and Construction Materials Salesperson: 2–5(1945–1969), 1–2(1970–1979), 0–0.5(1980–1994) (NL)
112 47119 Retail Sale in Other Non-Specialized Large Stores 5211 Owners and Supervisors of Small Stores 0.0053 Lee, 2010 [36]
113 501 Sea and Coastal Water Transport 8760 Ship Workers and Related Workers NL 501(Sea and Coastal Water Transport) and 8760(Ship Workers and Related Workers): 0.5–1(1945–1974), 0–0.5(1975–1984) (NL)
501(Sea and Coastal Water Transport) and 86104(Power Generation Turbine Operators): Turbine adjusters, asbestos pipes and pump insulation exposed in ship engine room
2–5(1945–1974), 1–2(1975–1979), 0.5–1(1980–1984), 0–0.5(1990–1994) (NL)
114 50122 Coastal freight water transport 92101 Freight Loading and Lifting Laborers DE/NL 50203(Harbour Passenger Transport) and 92101(Freight Loading and Lifting Laborers): 13.87(1965–1967), 26.61(1973–1976), 8.4(1977–1983) (DE)
5294(Cargo Handling) and 92101(Freight Loading and Lifting Laborers): 2–5(1945–1969), 1–2(1970–1979), 0–0.5(1980–1994) (NL)
115 52911 Supporting, Railway Transport Activities 31262 Railway Transport Clerks Sampling in the station office 0.008 0.003 Byeon, 2003 [30]
Lee, 2013 [40]
116 79211 (52911) Supporting, Railway Transport Activities 7523 Locomotive and Electric Train Mechanics Maintenance of locomotive and electric trains 0.002 KOSHA DB 491(Inter urban Rail Transportation) and 75319(Industrial Machinery Fitters and Mechanics n.e.c.): 0–0.5(1945–1984) (NL)
117 52911 Supporting, Railway Transport Activities 75232 Railroad train mechanics 0.037 SNU DB 0–0.5 (1945–1984) (NL)
118 52915 Operation of Vehicle Parking Facilities 52132 Passenger Ticket Salespersons 0.004 (2010‘: 0.001) Lee, 2010 [36]
119 59141 Motion Picture Exhibition 28399 Drama, Film and Video Related Workers n.e.c. 0.006 Choi, 2011 [37]
120 6022 Broadcasting via Cable, Satellite and Other Broadcasting 2250 Telecommunication and Broadcast Transmissions Equipment Technicians 0.005 0.005 SNU DB 8432 (Defence Activities) and 22501(Telecommunication and Broadcast Transmissions Equipment Technicians): 0.5–1(1945–1974), 0–0.5(1975–1984) (DE)
121 68211 Residential Property Management 85201 Cooler and Heater Related Machine Operators Management of boiler rooms in apartments 0.002 Choi, 2017 [10] 42201(Heating, Air Conditioning and Plumbing Related Works) and 852(Cooler and Heater Related Machine Operators): 1–2(1945–1979), 0–0.5(1980–1994) (NL)
122 95119 Other Maintenance and Repair Services of General Machinery 75351 Building Boiler Fitters and Mechanics 0.006 Shim, 2008 [33] 351(Production, Collection and Distribution of Electricity) and 7535(Boiler Fitters and Mechanics): 2–5(1945–1974), 1–2(1975–1984), 0.5–1(1985–1994) (NL)
123 70129 Research and Experimental Development On Other Engineering 13114 Engineering Research Managers Sampling in the laboratory 0.112 KOSHA DB
124 72122 Environmental Consulting and Related Engineering Services 15301 Environmental Service Related Managers 0.001 Choi, 2006 [32]
125 74100 Business Facilities Support Management Services 12090 Public and Business Administration Managers 0.0015 Choi, 2006 [32]
126 75290 Other Tourist Assistance and Reservation Services 52132 Passenger Ticket Salespersons 0.01 Lee, 2004 [31]
127 84213 Regulation of Activities of Environment Affairs 21125 Astronomy and Space Science Researchers 0.4705 Choi, 2006 [32]
128 85 Education 252 School Teachers 0.00036 0.003 0.004 Park, 2009 [34]
Park, 2010 [35]
129 85501 General Subject Educational Institute 25419 Liberal Arts and Language Instructors n.e.c. 0.007 Choi, 2011 [37]
130 8610
86101
86103		 Hospital Activities
General Hospitals
 24302
24		 General Nurses
Health, Social Welfare and Religion Related Occupations		 Sampling in dental hospital 0.0049(2010’: 0.002) Choi, 2017 [10]
Lee, 2004 [31]		 86103(Dental Hospitals) and 24530(Dental Hygienist): 0–0.5(1955–1984) (NL)
131 87210
85110		 Child Day Care Services 24720 Child Care Teachers 0.007 (2010’: 0.001) Lee, 2010 [36]
Park, 2012 [39]
132 90211 Library and Archives Activities 28221 Librarians 0.002 Park, 2012 [39]
OG133 90221 Museum Operation 28211 Curators 0.001 Park, 2012 [39]
OG134 91131 Other Complex Sports Facility Operation 28691 Sports Instructors and Trainers 0.006 Choi, 2011 [37]
135 95119 (50130) Other Maintenance and Repair Services of General Machinery 75220 Ship Mechanics Repair of ships 0.23 0.006 0.138 Paik, 1989 [23]
SNUDB (2000’: 1.423 Yoon, 2004 [44])		 311(Building of Ships and Boats) and 7522(Ship Mechanics): 1–2(1945–1974), 0–0.5(1975–1989) (NL)
501(Sea and Coastal Water Transport) and 8760(Ship deck crew and related personnel): 0.5–1(1945–1974), 0–0.5(1975–1984) (NL)
136 95119 (50130) Other Maintenance and Repair Services of General Machinery 79222 Ship Plumbers 0.488 Shim, 2008 [33] 311(Building of Ships and Boats) and 792(Plumber): 1–2(1945–1979), 0.5–1(1980–1984), 0–0.5(1985–1994) (NL)
137 95119 Other Maintenance and Repair Services of General Machinery 75220 Ship Mechanics 0.062 Shim, 2008 [33]
138 95211 General Repair Services of Motor Vehicles 75105 Automobile Paint Mechanics Repair of auto-vehicle brake lining and handling talc-containing asbestos 0.88 KOSHA DB
139 95212 Repair Services of Motor Vehicles Specializing in Parts 7510 Automobile Mechanics 0.93 1.05 0.08 Paik, 1989 [23]
Paik, 1991 [24]		 952(Maintenance and Repair Services of Motor Vehicles and Motorcycles) and 75291(Motorcycle Repairers): 0–0.5(1945–1989) (NL)
140 96121 Saunas 42234 Bathing Attendants 0.007 (2010‘: 0.002) Lee, 2010 [36]
Park, 2012 [39]		 9691(Washing and Dry Cleaning Services) and 8230(Laundry Related Machine Operators): Laundry iron and table made of asbestos fibers
0–0.5(1945–1989) (NL)
141 96991 Wedding Chapel Services 42320 Wedding Ceremony Workers 0.004 Choi, 2011 [37]
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DB, database; IOC, Industrial and Occupational Combination; KOSHA, Korea Occupational Safety and Health Agency; KSIC, Korea Standard Industry Code; KSOC, Korean Standard Classification of Occupations; JEM, job-exposure matrix; SNU, Seoul National University; n.e.c, not elsewhere classified.

DBs were referred from Choi, 2017 [10].

The list of IOCs with the highest exposure level (E1) by years is provided in Table 2. In the 1980s, they were grinding and mixing machine operators of the asbestos mining industry (IOC 2), textile production and processing machine operators of the asbestos textile industry (IOC 48), machine operators of the asbestos (cement) industry (IOC 52), metal casting machine operators of the iron and steel industry (IOC 56), ship assemblers of the ship industry (IOC 91), and store salespersons of motor vehicle parts and accessories (IOC 110). In the 1990s, highly exposed groups were weaving machine operators of fiber fabrics (IOC 6), machine operators of wood and paper (IOC 15), plastic products (IOC 34), the asbestos textile industry (IOC 48), and automobile mechanics of repair services of motor vehicles (IOC 139). In the 2000s, highly exposed groups were paper products machine operators (IOC 10), painting machine operators of manufacture of paperboard boxes and containers (IOC 13), grinding and mixing machine operators of synthetic resin and other plastic materials (IOC 19), machine operators of surface-active agents (IOC 24), construction stonemasons (IOC 43), and automobile paint mechanics (IOC 87). All E1 occupations in the 2000s were jobs handling talc-containing asbestos. Asbestos textile processing operation (IOC 48) had the highest exposure level, 7.48 f/cc in the 1980s and in Netherlands' with a peak of 5–10 f/cc from the 1940s to 1960s.

4. Discussion

This study aimed to construct a new Korean asbestos JEM by comparing data from the Netherlands' and Germany's JEM, which led to the expansion of the previous JEM to 141 combinations of industries and occupations. As it includes data of longer periods, more diverse industries, and occupations, it reflects the exposure estimate of asbestos in Korea more accurately.

4.1. Trends of asbestos consumption and exposure levels in Korea

The occupation groups with high asbestos exposure levels include knitting and weaving machine operators, automobile mechanics or assemblers, ship mechanics or assemblers, mineral ore and stone products processing mechanics, and metal casting machine operators or mold makers. This result is consistent with the national industrialized characteristics of Korea. In Korea, the asbestos textile weaving and brake lining production began to increase in the 1970s. With the acceleration of industrialization since the 1980s, asbestos imports increased, and asbestos use peaked in the 1990s [15]. In asbestos textile factories, the use of asbestos increased when the operations of J Chemical, Asia's largest textile factory located in Busan, was transferred from Tatsuta of Nichias in Japan and Rex in Germany to Korea in 1971 and 1981, respectively [16]. In 2000s, the portion of occupational groups over 0.1f/cc exposure increased compared with that in 1990s. We found the reason that the data in the Korean Occupational Safety and Health Agency database were measured in talc-containing occupations; therefore, the highly exposed occupational groups were included making a biased trend in the proportion.

4.2. Cause of the time lag of periods with high exposure levels between Europe and Korea

As mentioned before, different sets of data cover asbestos exposure from the 1980s to the 2000s in Korea, 1945 to 1994 in the Netherlands, and the 1960s to the 2000s in Germany. While asbestos exposure levels peaked in the 1990s in Korea, most of the data from the Netherlands and Germany showed peak exposure levels from the 1950s to the 1970s. This finding could be due to the difference in asbestos usage patterns between Europe and Asia. One study estimated the proportion of asbestos use in Asia to be 14% in 1920–1970, 33% in 1971–2000, and 64% in 2000–2007, and these periods are later than those in Europe [17]. In a comparative analysis of asbestos use and exposure data for Germany and Korea, the asbestos exposure level in Korea in 1981 was comparable with that of Germany in 1974 [16,18]. Regarding categories of exposure levels, the highest level in Korea was classified as E1 (≥1 fibers/cm3); however, in the Netherlands, the highest exposure level was “f” (>10 fibers/cm3) and the lowest was “a” (0–0.5 fibers/cm3), which is higher than the highest level (E1) in Korea. Therefore, a quantitative comparison of exposure levels between Korea and the Netherlands is less meaningful; however, it can be used to identify trends associated with increasing or decreasing asbestos exposure levels.

4.3. Comparison with other JEMs (Finland, Australia, etc.)

There have also been trials to construct a systematic JEM for occupational asbestos exposure in other countries. Finnish National Job-Exposure Matrix, one of the most widely used JEMs, was constructed in the 1990s and contains 74 chemical, physical, biological, ergonomic, and socio-psychological factors, covering 311 occupational categories for the period 1945–1997. In Australia, an asbestos JEM was used for assessing occupational asbestos exposure and contains 537 combinations from 224 occupational categories and 60 industrialized categories and 4 time periods (1943–1966, 1967–1986, 1987–2003, and ≥2004) [19], which is called SYN-JEM, and the quantitative SYN-JEM for five carcinogens including asbestos was developed by modeling of personal measurements in previous JEM data, for the periods between 1971 and 2009 [20]. We could have used the asbestos JEM of Australia for this study as they have a large number of combinations; however, we could not access their raw data. However, compared with these foreign JEMs, the reconstructed asbestos JEM in this study estimated the exposure levels for 141 combinations by period and combined the Netherlands' and Germany's data as references for estimating asbestos exposure. As asbestos production and usage periods in Korea are different from those in Europe, we were not able to perform a direct comparison. Nevertheless, the reconstructed Korean asbestos JEM is a large-scale JEM that can represent asbestos exposure in Korea and other Asian countries.

4.4. Advantages and limitations

The reconstructed Korean asbestos JEM expands the previous 112 combinations to 141 combinations. The strength of this study is that we can estimate asbestos exposure during periods that are not covered by Korean data by referring to the Netherlands' and Germany's data. However, caution is required when interpreting estimates with a small data sample size, and it should be noted that asbestos exposure in Korea is different from those in countries of other continents. The narrow period of overlap between the Korean data and the Netherlands' or Germany's data is also a major cause of inaccurate estimates.

4.5. Further study

Analyzing the asbestos exposure using the reconstructed Korean JEM showed the highest exposure level in most occupations in the 1980s, which gradually decreased until the 2010s; however, some occupations emerged as highly exposed groups in the 2000s. Further research on these new asbestos occupational groups and a close follow-up study are necessary. A diverse approach for data on past exposure levels before the 1980s is also needed.

5. Conclusions

The reconstructed Korean asbestos JEM has expanded the type and duration of the occupational groups to 141 combinations for periods between the 1980s and 2010s. This JEM can serve as an important reference tool for evaluating asbestos exposure in Korean workers and providing basic data for compensation and prevention policies for asbestos-exposed workers.

Author contribution

Jung S wrote the manuscript. Kang DM designed the study and helped in the drafting and critical revision of the manuscript. Choi S performed data collection and extraction. Kim YJ analyzed the data.

Conflicts of interest

All authors have no conflicts of interest to declare.

Acknowledgments

This study was supported by the Korea Occupational Safety and Health Agency and the Ministry of Environment.

Appendix 1. summary of final references selected in the JEM

References Study ID Title Amount of measurement Working environment
[21] Moon YH, 1979 Epidemiological survey of asbestosis in asbestos miners and the inhabitants 0.092316–0.38465 fiber/cm3 inside the mine, 2.267–5.966 fiber/cm3 at the annex factory, and at outside of the office it was 3.882 fiber/cm3 Forty-one workers in asbestos mine and the annex factory in Korea
[22] National Institute of Labor Science Ministry of Labor, 1984 Survey report of working environment at several factories Asbestos textile industry
  • -

    Mixing: 9.71f/cc (0.62–24.80f/cc)

  • -

    Weaving: 8.77f/cc (1.17–30.73f/cc)

  • -

    Carding: 3.46f/cc (0.65–7.85f/cc)

Slate manufacturing: 0.4f/cc (0.12–0.57f/cc)
Brake-lining manufacturing: 1.7f/cc (1.14–1.85f/cc)		 Measured in six asbestos textile plants, one slate manufacturing plants, and one automobile product manufacturing plants between 1984.4.21 and 1984.9.20
[23] Paik NW, 1989 Workers Exposure to Asbestos in Korean Asbestos Industries Slate manufacturing industry:
  • -

    Mixing: 0.49–0.56f/cc

  • -

    Processing: 0.35–1.23f/cc

  • -

    Molding(Wet): 0.13f/cc

  • Asbestos textile industry:

  • -

    Fiberizing, mixing: 0.23–3.67f/cc

  • -

    Carding: 0.08–9.44f/cc

  • -

    Spinning: 0.30–9.73f/cc

  • -

    Twisting: 0.08–14.90f/cc

  • -

    Weaving: 1.34–5.60f/cc

Shipbuilding industry:
  • -

    Without removing asbestos materials: 0.01–0.12f/cc

  • -

    With removing asbestos materials: 0.09–2.45f/cc

  • -

    Automobile maintenance industry: 0.03–4.26f/cc

  • -

    Automobile product manufacturing: 0.16–5.56f/c

  • -

    Asbestos related industry: 0.01–4.30f/cc

 Workers of 11 plants which is asbestos slate manufacturing, asbestos textile, automobile maintenance, automobile product manufacturing, and asbestos-related industries
[24] Paik NW, 1991 Characterization of Worker Exposure to Airborne Asbestos in Asbestos Industry Large variation of asbestos level was found by plants: 0.5 to over 10 f/ccs Eleven plants including asbestos textile, brake-lining manufacturing, slate manufacturing, and automobile maintenance shop
[25] Oh SM, 1993 A study on worker exposure level and variation to asbestos in some asbestos industries

  • Geometric means of airborne asbestos concentration

  • -

    Textile industry: 1.42f/cc (0.07–6.10f/cc)

  • -

    Brake lining manufacturing industry: 0.19 f/cc (<0.01–2.67 f/cc)

  • -

    Slate manufacturing industry: 0.08f/cc (0.025–0.67 f/cc)

 15 plants of brake lining manufacturing industry, seven plants of textile industry, and two plants of slate manufacturing industry
[26] Jung JY, 1994 A case of asbestosis, pleural effusion and lung cancer caused by long-term occupational asbestos exposure Asbestos concentration in workplace: 0.01–0.08/f/cc A case of asbestosis and lung cancer of who were occupationally exposed in asbestos for 11 years.
[27] Park JI, 1995 A study of exposure among asbestos textile workers and estimation of their historical exposures Among 56 samples
  • -

    Average concentration: 1.54f/cc (0.03–11.58f/cc)

  • By processing

  • -

    Weaving: 4.29f/cc (2.61–11.58f/cc)

  • -

    Spinning: 2.22f/cc (0.41–8.93f/cc)

  • -

    Carding: 1.98f/cc (0.23–10.93f/cc)

  • -

    Twisting: 1.65f/cc (0.21–9.83f/cc)

  • -

    Mixing: 0.48f/cc (0.22–1.20f/cc)

 Asbestos exposure level among asbestos textile workers in six plants
[28] Paik DM, 1995 Prevalence of asbestosis in Korean asbestos industry Asbestos textile: 0.2–1.3f/cc
Brake-lining: 0.7–1.0f/cc
Ship repairing: 6.3–7.8f/cc		 139 workers from five asbestos industries: two asbestos textile, one brake-lining, and two ship repairing industry
[29] Choi JK, 1998 The production, the use, the number of workers, and exposure level of asbestos in Korea The record of air-borne asbestos
  • -

    Textile industry: 6.7f/cc (1984), 1.2f/cc (1993)

  • -

    construction materials and asbestos textile: 1.7f/cc (1984), 0.55f/cc (1996)

 Literature review
[30] Byeon SH, 2003 A study on asbestos fibers and the notice of inhabitant in the Bu-Pyung station Six samples (43%) exceeded Environmental Production Agency criteria of 0.01f/cc Bu-pyung basement stores in Korea (sep 25 to Oct 26, 2001)
[31] Lee YG, 2004 A Study on the Actual Condition of Indoor Air Quality in Multi-use Facilities Underground station: 0.17f/cc Underground station (B1 ticket gate, B2 platform)
[33] Shim SH, 2008 A Study on Exposure to Asbestos a Shipbuilding Repair Business Geometric mean: 0.004 f/cc
  • -

    Plumbing repair: 0.0071 f/cc (0.001~0.57 f/cc) while

  • -

    Boiler: 0.0015 f/cc (0.001~0.007 f/cc)

 27 workers who had been exposed to asbestos in shipbuilding repair company
[34] Park JH, 2009 The Concentration of asbestos fiber in Indoor Air according to the School's construction year Geometric mean: < 0.01f/cc
By constructed year:
Before 1969: 0.00028f/cc
1970s: 0.0040f/cc
1980s: 0.0036f/cc
1990s: 0.0030f/cc		 108 sites of elementary, middle, and high school
[35] Park JH, 2010 Characterizations of Airborne Fiber Particle Concentration in Public Facilities and Schools 0.0009±0.0009 counts/mL in public facilities
0.0012±0.0006 counts/mL in schools		 Indoor air concentration of fiber particles in 30 public facilities and 245 schools by PCM
Lee SH, 2010 Concentration and Physical Chemical Properties of Fiber phase Particles in Indoor and Outdoor Air Geometric mean of
  • -

    Elementary school: 0.00108f/cc

  • -

    Middle school: 0.00105f/cc

  • -

    High school: 0.00107f/cc

 735 sites in school, seven sites in hospital, and four sites in kindergarten constructed before 2005
[38] Yoon YS, 2011 Comparison of asbestos exposure and risk assessment according to asbestos mine types in Korea By scenario:
  • -

    Motorcycle: 0.0702f/cc (SD 0.2640)

  • -

    Cultivator: 0.0358f/cc (SD 0.1017)

  • -

    Walk: 0.0730 (SD 2631)

  • -

    Weed control: 0.0941 (SD 0.2901)

  • -

    Digging: 0.1396 (SD 0.4633)

  • -

    Field Sweep: 0.2009 (SD 0.3056)

 Activity-based sampling: 216 samples in three mines
[39] Park HE, 2012 Concentration Characteristics of Indoor and Outdoor Airborne Total Fiber Particles and Identification of Asbestos in Gyeong-Nam Provinces School: 0.0011 ± 0.0007 f/cc
Public facilities: 0.0015 ± 0.0007 f/cc		 748 samples of 748 schools, and 76 samples of 38 public facilities
40 Lee GY, 2013 Airborne Asbestos Fiber Concentration in Korean Asbestos-Related Industry from 1994 to 2006 Asbestos textile: 2.14 f/cc (0.02–15.6 f/cc)
Building-materials: 0.26 f/cc (0.01–1.01 f/cc)
Brake-lining manufacturing: 0.15 f/cc (0.01–0.93 f/cc)
Commutator producing: 0.14 f/cc (0.03–1.36 f/cc)		 Airborne asbestos fiber concentrations in asbestos textile, brake-lining, commutator, and building materials manufacturing industries, and some other asbestos-related industries in Korea
[41] Yoon IJ, 1993 Epidemiological Survey on the Environment and Health Status in Asbestos Factories Average concentration of nine industries:
0.682 f/cc (0.19–2.08 f/cc)
0.208 f/cc (0.09–0.37 f/cc)
3.36 f/cc (2.40–7.15 f/cc)
0.415 f/cc (0.18–1.26 f/cc)
0.157 f/cc (0.06–0.50 f/cc)
0.375 f/cc (0.27–0.75 f/cc)
0.768 f/cc (0.65–1.15 f/cc)
1.48 f/cc (range 0.21–5.04 f/cc)		 378 workers from nine asbestos industries using chrysotile
[42] Lim HS, 1999 A Case of Lung Cancer Occurred among Asbestos Workers in a Steel Manufacturing Factory 0.0007~0.0101 f/cc A case of 39-year-old worker who worked in a steel manufacturing factory for 17 years
[43] Chung HJ, 2002 A Study on Asbestos Concentration of Underground Shops in Daejeon area Summer: 0.0041 f/cc
Spring: 0.0033 f/cc
Winter: 0.0022 f/cc
Fall: 0.0020 f/cc		 In underground shops in Daejeon city
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