Abstract
Objective: To present and discuss the results of research on olfactory function impairments related to chronic occupational exposure to industrial chemicals. Methods: This review is mainly focused on the results of epidemiological studies on olfactory function, evaluated using quantitative testing methods, in workers chronically exposed to airborne industrial chemicals. Papers published in peer-reviewed scientific journals were mainly considered. Results: The prevalence of olfactory impairments related to occupational exposure to chemicals is unknown: frequencies ranging 0.5–5% of all olfactory dysfunctions have been proposed, considering both exposure to chemicals and the use of pharmaceutical drugs, but the real relevance of this problem is possibly overlooked, especially considering that occupational exposure may account for a significant part of “idiopathic” smell disorders, i.e., the 10–25% of all olfactory problems within the general population. An adverse effect has been reported in workers chronically exposed to some metals as cadmium, chromium, manganese, arsenic, mercury, and organic lead, and to other chemicals as acrylates, styrene, and solvent mixtures. The results of relevant studies are discussed. A problem in the evaluation of data is that different methods have been applied in different studies, affecting the comparability of results. Conclusions: To date, knowledge of the effect of chronic occupational exposure to industrial chemicals on olfactory function is largely incomplete, but supports the hypothesis that olfactory neuroepithelium is susceptible to environmental exposures to chemicals. Occupational-related olfactory impairment is usually sub-clinical, and can be only detected using adequate quantitative olfactory function testing procedures. Available data show the need for further good quality research in this field.
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References
Adams RG, Crabtree N (1961) Anosmia in alkaline battery workers. Br J Ind Med 18:216–221
Ahlstrom R, Berglund B, Berglund U, Lindvall T, Wennberg A (1986) Impaired odor perception in tank cleaners. Scand J Work Environ Health 12:574–581
American Conference of Governmental Industrial Hygienists (2003) TLVs and BEIs. ACGIH, Cincinnati, OH, USA
Amoore JE (1986) Effects of chemical exposure on olfaction in humans. In: Barrow CS (ed) Toxicology of the nasal passages. Hemisphere Publishing, Washington, DC, pp 155–190
Bramerson A, Johansson L, Ek L, Nordin S, Bende M (2004) Prevalence of olfactory dysfunction: the Skövde population-based study. Laryngoscope 114:733–737
Cain WS, Gent JF, Goodspeed RB, Leonard G (1988) Evaluation of olfactory dysfunction in the Connecticut Chemosensory Clinical Research Center. Laryngoscope 98:83–88
Cowart BJ, Young IM, Feldman RS, Lowry LD (1997) Clinical disorders of smell and taste. Occup Med 12:465–483
Cullen MM, Leopold DA (1999) Disorders of smell and taste. Med Clin North Am 83:57–74
Dalton P, Cowart B, Dilks D, Gould M, Lees PS, Stefaniak A, Emmett E. (2003) Olfactory function in workers exposed to styrene in the reinforced-plastics industry. Am J Ind Med. 44:1–11
Doty RL, Shaman P, Kimmelman CP, Dann MS (1984) University of Pennsylvania Smell Identification Test: a rapid quantitative olfactory function test for the clinic. Laryngoscope 94:176–178
Doty RL, Gregor T, Monroe C (1986) Quantitative assessment of olfactory function in an industrial setting. J Occup Med 28:457–460
Doty RL, Smith R, McKeown DA, Raj J (1994) Tests of human olfactory function: principal components analysis suggests that most measure a common source of variance. Percept Psychophys 56:701–707
Doty RL, Mc Keown DA, Lee WW, Shaman P (1995) A study of the test-retest reliability of ten olfactory tests. Chem Senses 20:645–656
Doty RL, Marcus A, Lee WW (1996) Development of the 12-item cross-cultural smell identification test (CC-SIT). Laryngoscope 106:353–356
Doty RL, Hastings L (2001) Neurotoxic exposure and olfactory impairment. Clin Occup Environ Med 1:547–575
Doty RL (ed) (2003) Handbook of olfaction and gustation. Marcel Dekker, New York
Doty RL, Bromley SM (2004) Effects of drugs on olfaction and taste. Otolaryngol Clin North Am 37:1229–1254
Duncan HJ, Smith DV (1995) Clinical disorders of olfaction. In: Doty RL (ed) Handbook of olfactation and gustation. Marcel Dekker, New York, pp 345–365
Friberg L (1948) Proteinuria and kidney injury among workmen exposed to cadmium and nickel dust. J Ind Hyg Toxicol 30:32–36
Friberg L (1950) Health hazards in manufacture of alkaline accumulators with special reference to chronic cadmium poisoning. Acta Med Scand 138:1–124
Furuta S, Nishimoto K, Egawa M, Ohyama M, Moriyama H (1994) Olfactory dysfunction in patients with Minamata disease. Am J Rhinol 8:259–263
Gobba F (2003) Occupational exposure to chemicals and sensory organs: a neglected research field. Neurotoxicology 24:675–691
Hamada R, Osame M (1996) Minamata disease and other mercury syndromes. In: Chang LW, Magos L, Suzuki T (eds) Toxicology of metals. Lewis/CRC Publishers, Boca Ranton, pp 337–351
Hirsch AR, Zavala G (1999) Long-term effects on the olfactory system of exposure to hydrogen sulphide. Occup Environ Med 56:284–287
Hoffman HJ, Ishii EK, MacTurk RH (1998) Age-related changes in the prevalence of smell/taste problems among the United States adult population. Results of the 1994 disability supplement to the National Health Interview Survey (NHIS). Ann N Y Acad Sci 855:716–722
Hotz P, Tschopp A, Soderstrom D, Holtz J, Boillat MA, Gutzwiller F (1992) Smell or taste disturbances, neurological symptoms, and hydrocarbon exposure. Int Arch Occup Environ Health 63:525–530
Ishinishi N, Kodama Y, Nobutomo K, Inamasu T, Kunitake E, Suenaga Y (1977) Outbreak of chronic arsenic poisoning among retired workers from an arsenic mine in Japan. Environ Health Perspect 19:121–125
Kawasaki S, Yazawa S, Ohnishi A, Ohi T (2002) Chronic and predominantly sensory polyneuropathy in Toroku Valley where a mining company produced arsenic. Rinsho Shinkeigaku 42:504–511
Kitamura F, Yokoyama K, Araki S, Nishikitani M, Choi JW, Yum YT, Park HC, Park SH, Sato H (2003) Increase of olfactory threshold in plating factory workers exposed to chromium in Korea. Ind Health 41:279–285
Klimek L, Muttray A, Moll B, Konietzko J, Mann W (1999) Anosmia caused by inhaled hazardous substances. Significance for expert assessment general practice. Laryngorhinootologie 78:620–626
Kuo HW, Lai JS, Lin TI (1997) Nasal septum lesions and lung function in workers exposed to chromic acid in electroplating factories. Int Arch Occup Environ Health 70:272–276
Landis BN, Konnerth CG, Hummel T (2004) A study on the frequency of olfactory dysfunction. Laryngoscope 114:1764–1769
Liu YZ, Huang JX, Luo CM, Xu BH, Zhang CJ (1985) Effects of cadmium on cadmium smelter workers. Scand J Work Environ Health 11(Suppl 4):29–32
Lucchini R, Bergamaschi E, Smargiassi A, Festa D, Apostoli P (1997) Motor function, olfactory threshold, and hematological indices in manganese-exposed ferroalloy workers. Environ Res 73:175–180
Mascagni P, Consonni D, Bregante G, Chiappino G, Toffoletto F (2003) Olfactory function in workers exposed to moderate airborne cadmium levels. Neurotoxicology 24:717–724
Mergler D, Huel G, Bowler R, Iregren A, Belanger S, Baldwin M, Tardif R, Smargiassi A, Martin L (1994) Nervous system dysfunction among workers with long-term exposure to manganese. Environ Res 64:151–180
Miller RR, Ayres JA, Jersey GC, McKenna MJ (1981) Inhalation toxicity of acrylic acid. Fundam Appl Toxicol 1:271–277
Mott AE, Leopold DA (1991) Disorders in taste and smell. Med Clin North Am 75:1321–1353
Patel SJ, Bollhoefer AD, Doty RL (2004) Influences of ethanol ingestion on olfactory function in humans. Psychopharmacology (Berl) 171:429–434
Potts CL (1965) Cadmium proteinuria—the health of battery workers exposed to cadmium oxide dust. Ann Occup Hyg 8:55–61
Pruszewicz A (1965) Examination of smell and taste. Otolaryngol Pol 19:29–33
Rose CS, Heywood PG, Costanzo RM (1992) Olfactory impairment after chronic occupational cadmium exposure. J Occup Med 34:600–605
Rydzewski B, Sulkowski W, Miarzynska M (1998) Olfactory disorders induced by cadmium exposure: a clinical study. Int J Occup Med Environ Health 11:235–245
Sandmark B, Broms I, Lofgren L, Ohlson CG (1989) Olfactory function in painters exposed to organic solvents. Scand J Work Environ Health 15:60–63
Schiffman SS (1997) Taste and smell losses in normal aging and disease. JAMA 278:1357–1362
Schwartz BS, Doty RL, Monroe C, Frye R, Barker S (1989) Olfactory function in chemical workers exposed to acrylate and methacrylate vapors. Am J Public Health 79:613–618
Schwartz BS, Ford DP, Bolla KI, Agnew J, Rothman N, Bleecker ML (1990) Solvent-associated decrements in olfactory function in paint manufacturing workers. Am J Ind Med 18:697–706
Schwartz BS, Stewart WF, Bolla KI, Simon D, Bandeen-Roche K, Gordon PB, Links JM, Todd AC (2000) Past adult lead exposure is associated with longitudinal decline in cognitive function. Neurology 55:1144–1150
Sulkowski WJ, Rydzewski B, Miarzynska M (2000) Smell impairment in workers occupationally exposed to cadmium. Acta Otolaryngol 120:316–318
Suruda AJ (2000) Measuring olfactory dysfunction from cadmium in an occupational and environmental medicine office practice. J Occup Environ Med 42:337
Watanabe S, Fukuchi Y (1981) Occupational impairment of the olfactory sense of chromate producing workers. Sangyo Igaku 23:606–611
Wieslander G, Norback D, Edling C (1994) Occupational exposure to water based paint and symptoms from the skin and eyes. Occup Environ Med 51:181–186
Wolfensberger M, Schnieper I, Welge-Lussen A (2000) Sniffin’ Sticks: a new olfactory test battery. Acta Otolaryngol 120:303–306
Wright HH (1987) Characterization of olfactory dysfunction. Arch Otolaryng Head Neck Surg 113:163–168
Wysocki CJ, Gilbert AN (1989) National geographic smell survey. Effects of age are heterogenous. Ann N Y Acad Sci 561:12–28
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Gobba, F. Olfactory toxicity: long-term effects of occupational exposures. Int Arch Occup Environ Health 79, 322–331 (2006). https://doi.org/10.1007/s00420-005-0043-x
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DOI: https://doi.org/10.1007/s00420-005-0043-x