Occupational Exposure on Board Fishing Vessels: Risk Assessments of Biomechanical Overload, Noise and Vibrations among Worker on Fishing Vessels in Southern Italy

Sea fishing is one of the sectors with the highest risk of illness and work-related accidents. The purpose of the study is to evaluate the exposure of fishing workers to three major risks: biomechanical overload, noise, and whole-body vibrations. We used common methods and measurement tools in the field: observational video analysis, questionnaires, and direct measurement. Noise and vibrations levels were measured aboard five boats belonging to the main fishing communities of Southern Italy. The random sample consisted of 310 workers, of whom 108 agreed to complete a questionnaire to collect data on the perception of occupational risk and self-perception of health conditions. We found that fishermen had a high prevalence of osteoarticular pathologies (42%) and that the biomechanical overload risk is mainly related to handling manual loads. Furthermore, the results indicate that the levels of weekly noise exposure exceed the exposure limit value of 87 decibel A (dBA) for fishing workers, and that the most noisiest area is the engine room. Exposure levels to whole-body vibrations were below <0.5 m/s2. Knowledge on occupational hazards and health effects in the fisheries sector should be used to develop ship technology, raise awareness of the correct use of personal protective equipment, and improve health surveillance of these workers.

[1]  Mustafa Insel,et al.  Crew noise exposure on board ships and comparative study of applicable standards , 2011 .

[2]  S. Janssen,et al.  Auditory and non-auditory effects of noise on health , 2014, The Lancet.

[3]  Tejashree A. Dabholkar,et al.  Common musculoskeletal problem experienced by fishing industry workers , 2014, Indian journal of occupational and environmental medicine.

[4]  C. M. Gómez,et al.  Health of subsistence fishermen and challenges for Occupational Health Surveillance. , 2014, Ciencia & saude coletiva.

[5]  Harald Hannerz,et al.  Hospital contacts for noise-related hearing loss among Danish seafarers and fishermen: a population-based cohort study. , 2008, Noise & health.

[6]  L. Vimercati Traffic related air pollution and respiratory morbidity , 2011, Lung India : official organ of Indian Chest Society.

[7]  Linda S. Weilgart,et al.  THE IMPACT OF OCEAN NOISE POLLUTION ON FISH AND INVERTEBRATES , 2018 .

[8]  Antonella Tatarelli,et al.  Ergonomic Risk Assessment of Sea Fisherman Part III: Manual Handling and Static Posture , 2019 .

[9]  Antonio Caputi,et al.  Risk assessment of upper limbs repetitive movements in a fish industry , 2019, BMC Research Notes.

[10]  K Svendsen,et al.  Measurements of mineral oil mist, hydrocarbon vapor, and noise in engine rooms of ships. , 1999, Applied occupational and environmental hygiene.

[11]  K. Gehle Toxicity of polycyclic aromatic hydrocarbons (PAHs) , 2009 .

[12]  M. Heidari,et al.  Work-Related Musculoskeletal Disorders and Their Associated Factors in Nurses: A Cross-Sectional Study in Iran , 2019, The Malaysian journal of medical sciences : MJMS.

[13]  P. Chiaraviglio Il d.lgs. 27.7.1999, n. 271 : Adeguamento della normativa sulla sicurezza e salute dei lavoratori a bordo delle navi mercantili da pesca nazionali, a norma della l. 31.12.1998, n. 485 , 2007 .

[14]  E. Johanning Whole-body vibration-related health disorders in occupational medicine – an international comparison , 2015, Ergonomics.

[15]  Harald Hannerz,et al.  Hospital contacts for injuries and musculoskeletal diseases among seamen and fishermen: A population-based cohort study , 2008, BMC musculoskeletal disorders.

[16]  Y. Guo,et al.  Will daytime occupational noise exposures induce nighttime sleep disturbance? , 2018, Sleep medicine.

[17]  L McAtamney,et al.  RULA: a survey method for the investigation of work-related upper limb disorders. , 1993, Applied ergonomics.

[18]  Leonid Kalichman,et al.  Work-related musculoskeletal disorders among physical therapists: A comprehensive narrative review. , 2016, International journal of occupational medicine and environmental health.

[19]  E. C. Harris,et al.  Occupational health needs of commercial fishermen in South West England. , 2010, Occupational medicine.

[20]  V Rapisarda,et al.  [Noise-related occupational risk aboard fishing vessels: considerations on prevention and the protection of exposed workers]. , 2004, Giornale italiano di medicina del lavoro ed ergonomia.

[21]  Mette Sørensen,et al.  Environmental Noise and the Cardiovascular System. , 2018, Journal of the American College of Cardiology.

[22]  Jørgen Riis Jepsen,et al.  The workload of fishermen: a cross sectional survey among Danish commercial fishermen. , 2016, International maritime health.

[23]  L. Vimercati,et al.  Biological monitoring and allergic sensitization in traffic police officers exposed to urban air pollution. , 2006, International journal of immunopathology and pharmacology.

[24]  Ilias Mahmud,et al.  Prevalence of work related musculoskeletal disorders (WMSDs) and ergonomic risk assessment among readymade garment workers of Bangladesh: A cross sectional study , 2009, The journal of pain : official journal of the American Pain Society.

[25]  S. Fustinoni,et al.  Environmental and biological monitoring of PAHs exposure in coke-oven workers at the Taranto plant compared to two groups from the general population of Apulia, Italy. , 2012, La Medicina del lavoro.

[26]  V. Rapisarda,et al.  Blood pressure and occupational exposure to noise and lead (Pb) , 2016, Toxicology and industrial health.

[27]  Musculoskeletal complaints among Italian X-ray technology students: a cross-sectional questionnaire survey , 2010, BMC Research Notes.

[28]  K. Reinhold,et al.  Exposure to high or low frequency noise at workplaces: differences between assessment, health complaints and implementation of adequate personal protective equipment. , 2014 .

[29]  G. Berg-Beckhoff,et al.  Prevalence and predictors of musculoskeletal pain among Danish fishermen – results from a cross-sectional survey , 2016, Journal of Occupational Medicine and Toxicology.

[30]  M. Castagnola,et al.  Increased levels of IGF-1 and beta2-microglobulin in epithelial lining fluid of preterm newborns developing chronic lung disease. effects of rhG-CSF. , 2006, International journal of immunopathology and pharmacology.

[31]  Mohd Nasiruddin Abdul Aziz,et al.  Work-related to musculoskeletal disorder amongst Malaysian construction trade workers: Bricklayers , 2017 .

[32]  Hearing Loss and Noise Exposure Among Commercial Fishermen in the Gulf Coast , 2016, Journal of occupational and environmental medicine.

[33]  C. Abeysena,et al.  Musculoskeletal symptoms, skin disorders and visual impairment among fishermen in the Divisional Secretariat Division of Kalpitiya. , 2015, The Ceylon medical journal.

[34]  A. Linos,et al.  Health status and occupational risk factors in Greek small fisheries workers. , 2016, International maritime health.

[35]  H. Nakamura,et al.  Experimental studies on the pathogenesis of the gastric mucosal lesions induced by whole-body vibration. , 1992, Environmental research.

[36]  R. Neitzel,et al.  Noise exposures aboard catcher/processor fishing vessels. , 2006, American journal of industrial medicine.

[37]  Gaetano Licitra,et al.  Noise Assessment of Small Vessels for Action Planning in Canal Cities , 2019, Environments.

[38]  M. Yamaoka-Tojo,et al.  Acute Effects of Whole-Body Vibration Training on Endothelial Function and Cardiovascular Response in Elderly Patients with Cardiovascular Disease. , 2019, International heart journal.

[39]  Judith Hylton SAFE: , 1993 .

[40]  G. Serio,et al.  Peritoneal Mesothelioma with Residential Asbestos Exposure. Report of a Case with Long Survival (Seventeen Years) Analyzed by Cgh-Array , 2017, International journal of molecular sciences.