Abstract
Objective To assess personal exposure to respirable and inhalable dust and its components endotoxin, black carbon and crystalline silica among sugarcane workers in Nicaragua. Methods Individual exposures to respirable (measurements=98) and inhalable (measurements=36) dust were collected in January and March 2020, with the month of March generally being hotter and less humid. Respirable dust and its components black carbon and crystalline silica, as well as inhalable dust and its component endotoxin, were personally measured. Linear mixed models were used to identify the determinants of occupational dust exposure considering different job tasks and meteorological conditions. Results Respirable dust and black carbon concentrations were higher in March among burned cane cutters compared with the other job groups (respirable dust geometric mean (GM)=1.9 mg m -3; black carbon GM=13.7 μg m -3), with considerably lower levels in January (respirable dust GM=0.2 mg m -3; black carbon GM=3.4 μg m -3). Almost all respirable crystalline silica measurements were below the limit of detection, except for four measurements, which ranged from 8 μg m - ³ to 15 μg m - ³. Seed cutters (GM=3.1 mg m -3) and weeders (GM=2.5 mg m -3) had the highest exposure to inhalable dust, while endotoxin concentrations were higher among seed cutters (GM=100 EU m -3) and burned cane cutters (GM=63 EU m -3) than the other work groups. Conclusions Overall, exposure levels to the assessed agents varied across work groups, with higher levels observed among burned cane and seed cutters.
| Original language | English |
|---|---|
| Article number | oemed-2024-109604 |
| Pages (from-to) | 36-43 |
| Number of pages | 8 |
| Journal | Occupational and Environmental Medicine |
| Volume | 82 |
| Issue number | 1 |
| Early online date | 19 Feb 2025 |
| DOIs | |
| Publication status | Published - 4 Mar 2025 |
Bibliographical note
© Author(s) (or their employer(s)) 2025. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ Group.Funding
The data underlying this report were collected through the intervention study, Adelante Initiative, in Nicaragua, funded by the Stavros Niarchos Foundation (GL 2016) and the German Investment Corporation (DEG/BSS technical assistance contract: F0877/SAP3705), the German Ministry for Economic Development and Cooperation (DEG/BMZ develoPPP performance contract: 20190807) and the Ingenio San Antonio (ISA) sugar mill via the DEG and BMZ's DeveloPPP.de programme. Additionally, funding has been provided by PREP (Protection Resilience Efficiency and Prevention) for workers in industrial agriculture in a changing climate, a Belmont Forum project funded by the Swedish Research Council FORTE (dnr 2019- 0158). We also acknowledge in- kind funding from the University of Gothenburg, Utrecht University and Universidad de El Salvador. Neither the company nor other sponsors had any role in the design, execution, interpretation or writing of the study.
| Funders | Funder number |
|---|---|
| Stavros Niarchos Foundation | |
| German Investment Corporation | F0877/SAP3705 |
| German Ministry for Economic Development and Cooperation | 20190807 |
| Ingenio San Antonio (ISA) sugar mill | |
| PREP (Protection Resilience Efficiency and Prevention) by the Swedish Research Council FORTE | 2019- 0158 |
| University of Gothenburg | |
| Utrecht University | |
| Universidad de El Salvador |
Keywords
- Developing countries
- Dust
- Farmers
- Hygiene
- Particulate Matter