Healthy Worker Survivor Effect Research Articles

The Healthy Worker Survivor Effect: Target Parameters and Target Populations.

We offer an in-depth discussion of the time-varying confounding and selection bias mechanisms that give rise to the healthy worker survivor effect (HWSE). In this update of an earlier review, we distinguish between the mechanisms collectively known as the HWSE and the statistical bias that can result. This discussion highlights the importance of identifying both the target parameter and the target population for any research question in occupational epidemiology. Target parameters can correspond to hypothetical workplace interventions; we explore whether these target parameters' true values reflect the etiologic effect of an exposure on an outcome or the potential impact of enforcing an exposure limit in a more realistic setting. If a cohort includes workers hired before the start of follow-up, HWSE mechanisms can limit the transportability of the estimates to other target populations. We summarize recent publications that applied g-methods to control for the HWSE, focusing on their target parameters, target populations, and hypothetical interventions.

Incidence of skin and respiratory diseases among Danish hairdressing apprentices.

Hairdressing is one of the professions with the highest risk of occupational skin and respiratory diseases. The incidence of these diseases in hairdressing apprentices has been studied only sparsely. To determine the incidence of skin and respiratory diseases in hairdressing apprentices, and to explore whether hairdressing apprentices leave the trade during training because of these diseases. A 3-year follow-up questionnaire study was conducted among 248 hairdressing apprentices and a control group comprising 816 young adults from the general population. The incidence rate ratios (IRRs) for contact urticaria (IRR 4.7, 95%CI: 2.6-8.6), hand eczema (IRR 1.7, 95%CI: 1.1-2.6) and rhinitis symptoms (IRR 1.6, 95%CI: 1.2-2.2) were significantly increased in the hairdressing apprentices, whereas wheezing was similar between groups. During the follow-up period, 21.8% of the hairdressing apprentices had left the trade, and 70.3% of these had left because of health complaints. The most frequently reported reasons for leaving were musculoskeletal pain (47.4%) and skin diseases (47.4%), followed by respiratory symptoms (23.7%). Hairdressing apprentices are at increased risk for contact urticaria, hand eczema and rhinitis symptoms compared with the general population, and a substantial proportion leave the trade because of these diseases, causing a 'healthy worker survivor effect.'

Assessment of the healthy worker survivor effect in cancer studies of the United Autoworkers-General Motors cohort

ObjectiveThe healthy worker survivor effect (HWSE) can affect the validity of occupational studies when data are analysed incorrectly. HWSE depends on three underlying conditions: (1) leaving work predicts future exposure,...

Solvent exposure and cognitive function in automotive technicians

Automotive technicians are commonly exposed to organic and chlorinated solvents, particularly through use of cleaning products. Occupational solvent exposures have been associated with deficits in cognitive function but, to our knowledge, no previous studies have investigated automotive technicians. The purpose of the present study was to investigate whether previous exposures to n-hexane, in particular, or general solvents posed a persistent neurotoxic hazard to automotive workers.Enrolled in the study were 830 San Francisco Bay Area automotive repair workers. Each participant underwent a battery of cognitive function tests to investigate central nervous system impairment, with a primary focus on the domains of psychomotor speed, fine motor function, memory and mood. Cognitive test results regressed against estimated hexane and total solvent exposures showed little evidence of associations. Exposures to both solvents and hexane were well below the occupational exposure limits.Our results provide some reassurance about persistent neuropsychological effects in automotive workers who use solvent-based products and those who previously used hexane-containing automotive cleaning products, since this solvent is believed no longer to be used in automotive cleaning products. The lack of observed effect in this study may be attributable to low exposures, or it may reflect improved cognitive function since hexane use in automotive cleaning products was discontinued. However, impacts on results of exposure misclassification and/or the healthy worker survivor effect cannot be discounted. Irrespective of the outcome of this study, the main known neurologic effect of n-hexane is peripheral neuropathy, and such an association in automotive technicians is not excluded by these results.

근로자의 화학적 노출과 주관적 호흡곤란 증상간의 연관성: 3차 근로환경조사 자료 분석

Objectives: The purpose of this study was to investigate whether chemical exposure among workers has relevance to dyspnea using data from the <TEX>$3^{rd}$</TEX> Korea Working Conditions Survey. Methods: The research subjects were 29,711 wage workers. Chemical exposures consist of four factors, (1) breathing in vapors, fumes, dust and dirt, (2) breathing in organic solvent vapors, (3) handling or touching chemicals, and (4) secondhand smoke. Multiple logistic regression analysis was performed to examine the association between chemical exposure and dyspnea in the last 12months using proc surveylogistic in SAS 9.3 statistical software excluding people who had received a diagnosis of hypertension or obesity that can affect the respiratory distress symptoms(n=27,842). Results: Chemical exposure among workers was associated with dyspnea after adjustment for demographics and job characteristics. Prevalence of dyspnea was 4.9 per 1,000 among men and 5.8 per 1,000. Compared to a total score of 0 points of chemical exposure among workers, a total score of 1, 2-3, and 4 points tended to have increased risk of dyspnea in a dose-response manner for both men (OR=1.43, 1.93, and 4.26; P-for trend=0.002) and women(OR=1.10, 2.81, and 7.70; P-for trend=0.002). Stratified analysis by duration of current job showed that the association between chemical exposure and dyspnea tended to get stronger until 15 years and then disappeared afterwards, which reflects healthy worker survivor effect. Conclusions: We observed significant association between chemical exposure and dyspnea using the data of the <TEX>$3^{rd}$</TEX> Korea Working Conditions Survey. Our results warrants providing knowledge related to chemical exposure, performing prevention activities, and creating various health policies to protect workers.

Determinants of epoxy allergy in the construction industry: a case-control study.

Workers exposed to epoxy products are at risk of developing allergic contact dermatitis. To compare workers throughout the German construction industry with and without skin allergy to epoxy resins, hardeners, and/or reactive diluents, and to investigate which determinants are related to the development of epoxy allergy. A questionnaire was completed by 179 epoxy allergy cases, and 151 epoxy workers as controls. Crude and adjusted odds ratios (ORs) and 95% confidence intervals (CIs) were estimated by the use of backwards stepwise logistic regression analysis. A multiple imputation approach was used to deal with missing data. Epoxy allergy was associated with an unusually high level of exposure to epoxy products [OR 2.13 (95%CI: 1.01-4.51)], wearing short sleeves or short trousers [OR 2.38 (95%CI: 1.03-5.52)], and not always using the correct type of gloves [OR 2.12 (95%CI: 1.12-4.01)]. A monotonic increasing risk was found with increasing exposure hours per week [OR 1.72 (95%CI: 1.39-2.14)]. Not using skin cream was inversely associated with epoxy allergy [OR 0.22 (95%CI: 0.08-0.59)]. Years working with epoxy products were inversely associated with epoxy allergy [OR 0.41 (95%CI: 0.27-0.61) per 10-year increase], suggesting a healthy worker survivor effect. Occupational epoxy allergy may be prevented by improving occupational hygiene behaviour and personal protection.

Trends in silicosis prevalence and the healthy worker effect among gold miners in South Africa: a prevalence study with follow up of employment status.

BackgroundGiven the intimate association between silicosis and tuberculosis, understanding the epidemiology of the South African gold mining industry silicosis epidemic is essential to current initiatives to control both silicosis and tuberculosis in this population, one of the most heavily affected globally. The study’s objectives were to compare the prevalence of silicosis among working black gold miners in South Africa during 2004–2009 to that of previous studies, including autopsy series, and to analyse the influence of silicosis and/or tuberculosis on exiting employment.MethodsRoutine chest radiographs from a cohort of gold miners were read for silicosis by an experienced reader (I), and a subset re-read by a B-trained reader (II). Two methods of presenting the readings were used. Additionally, with baseline status of silicosis and previous or active tuberculosis as predictors, survival analysis examined the probability of exiting the workforce for any reason during 2006–2011.ResultsReader I read 11 557 chest radiographs and reader II re-read 841. Overall, silicosis prevalence (ILO ≥1/0: 5.7 and 6.2 % depending on reader method) was similar to the age adjusted prevalence found in a large study in 1984 (5.0 %). When comparison was restricted to a single mine shaft previously studied in 2000, a decline in prevalence (ILO ≥1/1) was suggested for one of the reading methods (duration adjusted 20.5 % vs. 13.0 % in the current study). These findings are discordant with a long-term rising autopsy prevalence of silicosis over this period. Overall, relative to miners with neither disease, the adjusted hazard ratio for exiting employment during the follow-up period was 1.54 for baseline silicosis [95 % confidence interval (CI) 1.17, 2.04], 1.71 for tuberculosis (95 % CI 1.51, 1.94) and 1.53 for combined disease (95 % CI 1.20, 1.96).ConclusionsThis study found, a) there was no significant decline in overall silicosis prevalence among working black miners in the South African gold mining industry between 1984 and 2004–2009, and b) a possible decline at one mine shaft more recently. In the absence of evidence of declining respirable silica concentrations between the 1980s and 2000s, the trends found are plausibly due to a healthy worker survivor effect, which may be accelerating.Electronic supplementary materialThe online version of this article (doi:10.1186/s12889-015-2566-8) contains supplementary material, which is available to authorized users.

Occupational Exposure to PM2.5 and Incidence of Ischemic Heart Disease: Longitudinal Targeted Minimum Loss-based Estimation.

We investigated the incidence of ischemic heart disease (IHD) in relation to accumulated exposure to particulate matter (PM) in a cohort of aluminum workers. We adjusted for time varying confounding characteristic of the healthy worker survivor effect, using a recently introduced method for the estimation of causal target parameters. Applying longitudinal targeted minimum loss-based estimation, we estimated the difference in marginal cumulative risk of IHD in the cohort comparing counterfactual outcomes if always exposed above to always exposed below a PM2.5 exposure cut-off. Analyses were stratified by sub-cohort employed in either smelters or fabrication facilities. We selected two exposure cut-offs a priori, at the median and 10th percentile in each sub-cohort. In smelters, the estimated IHD risk difference after 15 years of accumulating PM2.5 exposure during follow-up was 2.9% (0.6%, 5.1%) using the 10th percentile cut-off of 0.10 mg/m. For fabrication workers, the difference was 2.5% (0.8%, 4.1%) at the 10th percentile of 0.06 mg/m. Using the median exposure cut-off, results were similar in direction but smaller in size. We present marginal incidence curves describing the cumulative risk of IHD over the course of follow-up for each sub-cohort under each intervention regimen. The accumulation of exposure to PM2.5 appears to result in higher risks of IHD in both aluminum smelter and fabrication workers. This represents the first longitudinal application of targeted minimum loss-based estimation, a method for generating doubly robust semi-parametric efficient substitution estimators of causal parameters, in the fields of occupational and environmental epidemiology.

Occupational Formaldehyde And Als

Introduction: Formaldehyde is a neurotoxic organic compound. Recently it has been associated with the risk of amyotrophic lateral sclerosis (ALS) in epidemiologic studies. We investigated the relationship between occupational exposure to formaldehyde and the incidence of ALS in the Danish population. Methods: We obtained records for the 3,650 incident cases of ALS in the Danish Hospital Register between 1982 and 2009. Each case was matched to 10 age- and sex-matched population controls alive on the date of the case diagnosis. Occupational records were obtained from the Danish Pension fund, which were then merged to a previously validated job exposure matrix to obtain the annual estimated exposure for each individual from 1964 to 2009. We employed two methods to investigate the relationship: lagged cumulative exposure and time-varying cumulative exposure adjusted for work history. Finally, we investigate the use of g-methods to account for a potential healthy worker survivor effect (HWSE). Results: Among controls, 25.9% (n=9,458) had any estimated exposure to formaldehyde between 1964 and the index date; in these individuals, the median cumulative exposure was 0.08 ppm (IQR: 0.03-0.24). Overall, those with any exposure to formaldehyde had a slightly but non-significantly elevated rate of ALS (RR=1.05; 95% CI 0.97-1.14). All quartiles of exposure were elevated, though not significantly. Adjustment for time-varying work status did not change the results. However, we observed associations that are consistent with the presence of the HWSE, and we observed a lowering of ALS incidence above the 99th percentile of exposure. Conclusions: We observed a slightly increased rate of ALS in those exposed to formaldehyde. Although adjustment for time-varying work history did not alter the association, it is an imperfect method to control for the HWSE. We will investigate and discuss the use of g-methods in a nested case-control study to further adjust for the HWSE.

A comparison between standard methods and structural nested modelling when bias from a healthy worker survivor effect is suspected: an iron-ore mining cohort study

ObjectivesIron-ore miners are exposed to extremely dusty and physically arduous work environments. The demanding activities of mining select healthier workers with longer work histories (ie, the Healthy Worker Survivor Effect...

Exposure–response relationships for select cancer and non-cancer health outcomes in a cohort of US firefighters from San Francisco, Chicago and Philadelphia (1950–2009)

ObjectivesTo examine exposure–response relationships between surrogates of firefighting exposure and select outcomes among previously studied US career firefighters.MethodsEight cancer and four non-cancer outcomes were examined using conditional logistic regression. Incidence...

Social disparities in heart disease risk and survivor bias among autoworkers: an examination based on survival models and g-estimation

ObjectivesTo examine gender and racial disparities in ischaemic heart disease (IHD) mortality related to metalworking fluid exposures and in the healthy worker survivor effect.MethodsA cohort of white and black men...

The Healthy Worker Survivor Effect Dissected

Objectives: The healthy worker survivor effect is a well-recognized bias usually described as a form of selection bias or confounding. A more precise epidemiologic explanation, however, has been elusive. We illustrate how directed acyclic graphs (DAGs) can be used to distinguish several components of the healthy worker survivor effect and suggest methods for bias correction in occupational cohort studies. Method: Although generally referred to a single effect, we demonstrate using simulation studies that there are in fact four distinct aspects of the healthy worker survivor effect. Two aspects, (1) time-varying confounding by variables on the causal pathway and (2) heterogeneity in susceptibility, are functions of the underlying process of the exposure and disease under study. The other two, (3) left truncation and (4) right truncation, are functions of how the data are collected, ie the study design. We evaluate the bias induced by each aspect of HWSE on dose-response parameter estimates and apply methods designed to reduce the bias. Results: We find that causal techniques, eg, g-estimation and marginal structural models, can correct for time-varying confounding. These methods will yield valid estimates even in the presence of nonpositivity, which is characteristic of occupational studies. Left and right truncation can be corrected using inverse probability of censoring weights; methods to address heterogeneity in susceptibility will also be explored. Conclusion: The healthy worker survivor effect occurs due to the presence of four factors that may function separately or in concert to produce a downward bias if not accounted for. We provide guidance for methodologic approaches to reduce this pervasive bias.

CASE REPORT: HEPATITIS B INDUCED NEURO-INFLAMMATION

<h3>Objectives</h3> The healthy worker survivor effect (HWSE) describes a selection process in which workers with low propensity for adverse health events remain employed longer than other workers. Standard analyses of exposure-disease associations in occupational cohorts may be biased due to HWSE. Inverse probability (IP) weighting has been proposed as one method for estimating associations without bias in settings of time-varying confounding via a variable affected by prior exposure. The approach is appealing because it may be implemented using standard methods for weighted regression analysis. <h3>Methods</h3> We propose IP-weighted excess relative risk (ERR) models for continuous exposures. These methods require the specification of a parametric model for the probability of exposure, conditional on covariates that may include confounders affected by prior exposure. We apply these methods to an analysis of the association between arsenic exposure and cancer mortality in a cohort of copper smelters followed between 1938 and 1989. <h3>Results</h3> Estimates obtained using a proportional hazards regression analysis of the association between cumulative arsenic exposure (lagged 10 years) and cancer mortality will be compared to estimates obtained using an IP-weighted proportional hazards models. <h3>Conclusions</h3> To our knowledge, this analysis is the first to apply IP-weighting to ERR models; and, we employ some novel approaches to the problem of non-positivity in IP-weighting of continuous exposures. IP-weighted ERR models offer a viable approach for analyses of exposure-disease associations in occupational cohorts where the HWSE is a concern.

Meta-Analysis of Lung Cancer Risk from Exposure to Diesel Exhaust: Vermeulen et al. Respond

Crump asserts that we “inappropriately mixed data from exposures lagged 5 years and 15 years” in our study published in Environmental Health Perspectives (Vermeulen et al. 2014). Exposure metrics from different studies available for meta-analysis are rarely, if ever, completely comparable. Therefore, even exposures labeled exactly the same (e.g., “cumulative exposure lagged 15 years”) differ between studies because of differences in exposure assessment (cumulative exposure is accrued in different ways in different populations) and because of differences in age composition and extent of follow-up. As a result, in epidemiological studies, optimal lag times to exclude exposures not affecting risk may be variable across studies. For our meta-regression, we included the exposure–response relationships that were presented as the main analyses in the respective papers. For the two trucking studies (Garshick et al. 2012; Steenland et al. 1998), the exposure metric was lagged 5 years, whereas for the Diesel Exhaust in Miners Study (DEMS; Silverman et al. 2012) it was 15 years. Results for an analysis using a 5-year lag in DEMS were not published, although the 5-year lag had been included in analyses to examine changes in model fit as a function of lag. From those analyses (Silverman et al. 2012, Supplementary Figure 1), it is apparent that a 5-year lag showed the worst model fit of all lags (0–25 years); thus, it does not make sense to use this particular analysis as the primary exposure–response relation simply because the label “5-year lag” coincides with that of the other two studies. We acknowledge that the interpretation of the risk function may be affected by differences in exposure between lag times. For this reason, we performed sensitivity analyses that included different lags from each study; overall results changed only slightly. We extended our earlier sensitivity analyses by including the unpublished 5-year lagged data from Silverman et al. (Silverman DT, personal communication).We note again, however, that these 5-year lagged data from the DEMS do not fit nearly as well as the 15-year lagged data. We stress our belief that they should not be the primary data for use in any risk assessment/meta-regression. Crump argues that his alternative analyses using the 5-year lagged data were more consistent with the underlying DEMS data. Figure 1 includes the individual risk estimates for all three studies, with three alternative lag times for DEMS. It is clear from Figure 1 that the 5-year lagged risk estimates for DEMS selected by Crump for his meta-analysis are considerably lower than those of the two trucking studies and the alternative lag times for DEMS. We also included in the figure three different regression lines based on the two trucking studies and one of three different sets of results for DEMS, obtained using the exposure data lagged 0, 5, and 15 years. All models are fitted using the full estimated covariance matrix to appropriately account for the correlation between categorical point estimates from the same study, a correction ignored by Crump. The lowest meta-regression slope, using the 5-year lagged exposure results from DEMS, a) is higher than that reported by Crump using the variance estimates only; b) is statistically significant (0.00065; 95% CI: 0.00028, 0.0010); and c) falls within our previous sensitivity analyses (Vermeulen et al. 2014). It is also clear that the exposure–response function derived using the 15-year lagged exposure data from DEMS is a much better fit overall. Figure 1 Predicted exposure–response curve of cumulative elemental carbon (EC) and lung cancer risk using different lag-times based on a log-linear regression model using relative risk estimates from the three cohort studies. In summary, we strongly disagree with the assertions made by Crump in his letter that we inappropriately mixed lag times. On his other points, we note that adjustment for employment duration in the trucking industry cohort study was not a second exposure measure, but appropriately reduced bias attributable to a healthy worker survivor effect. Additional analyses presented here confirm that the original findings from the meta-analyses are robust. Therefore, we firmly stand with the conclusions of our original paper.

Marginal structural models in occupational epidemiology: application in a study of ischemic heart disease incidence and PM2.5 in the US aluminum industry.

Marginal structural models (MSMs) and inverse probability weighting can be used to estimate risk in a cohort of active workers if there is a time-varying confounder (e.g., health status) affected by prior exposure-a feature of the healthy worker survivor effect. We applied Cox MSMs in a study of incident ischemic heart disease and exposure to particulate matter with aerodynamic diameter of 2.5 μm or less (PM2.5) in a cohort of 12,949 actively employed aluminum workers in the United States. The cohort was stratified by work process into workers in smelting facilities, herein referred to as "smelters" and workers in fabrication facilities, herein referred to as "fabricators." The outcome was assessed by using medical claims data from 1998 to 2012. A composite risk score based on insurance claims was treated as a time-varying measure of health status. Binary PM2.5 exposure was defined by the 10th-percentile cutoff for each work process. Health status was associated with past exposure and predicted the outcome and subsequent exposure in smelters but not in fabricators. In smelters, the Cox MSM hazard ratio comparing those always exposed above the cutoff with those always exposed below the cutoff was 1.98 (95% confidence interval: 1.18, 3.32). In fabricators, the hazard ratio from a traditional Cox model was 1.34 (95% confidence interval: 0.98, 1.83). Results suggest that occupational PM2.5 exposure increases the risk of incident ischemic heart disease in workers in both aluminum smelting and fabrication facilities.

0103 Racial and Gender Differences in the Risk of Ischaemic Heart Disease and the Healthy Worker Survivor Effect among Autoworkers

ObjectivesTo examine gender and racial disparities in heart disease mortality related to metalworking fluid exposures and in the healthy worker survivor effect.MethodWe examined ischaemic heart disease (IHD) mortality from 1941...

0348 The Healthy Worker Survivor Effect Dissected: Addressing Component Parts

ObjectivesThe healthy worker survivor effect (HWSE) is a well-recognised bias usually described as a form of selection bias or confounding. A more precise epidemiologic explanation, however, has been elusive. We...

0124 PM2.5 and Heart Disease in a Cohort of Aluminium Workers: An Application of Longitudinal Targeted Maximum Likelihood-based Estimation (TMLE)

ObjectivesWe estimated the effect of cumulative exposure to PM2.5 on the incidence of ischaemic heart disease (IHD) in aluminium workers followed for 15 years, adjusting for the healthy worker survivor...

0363 Marginal structural models to account for time-varying confounding variable and the health worker survivor effect (for a mini-symposium on ‘dynamics of exposure and disease’, organised by Vermeulen)

ObjectivesMarginal structural models (MSMs) in longitudinal studies are needed when time-varying confounders are themselves predicted by previous exposure, and are intermediate variables on the pathway between exposure and disease. The...