Your search keyword '"Burt, Susan E."' showing total 7 results

1. Developing a pooled job physical exposure data set from multiple independent studies: an example of a consortium study of carpal tunnel syndrome

Author

Bao, Stephen S, Kapellusch, Jay M, Garg, Arun, Silverstein, Barbara A, Harris-Adamson, Carisa, Burt, Susan E, Dale, Ann Marie, Evanoff, Bradley A, Gerr, Frederic E, Hegmann, Kurt T, Merlino, Linda A, Thiese, Matthew S, and Rempel, David M

Subjects

Epidemiology, Health Sciences, Adult, Carpal Tunnel Syndrome, Datasets as Topic, Female, Hand, Humans, Male, Middle Aged, Motor Activity, Movement, Occupational Diseases, Occupational Exposure, Occupations, Physical Exertion, Prospective Studies, Risk Factors, United States, Work, Wrist, data comparability, mechanical worload, statistical power, Clinical Sciences, Public Health and Health Services, Other Commerce, Management, Tourism and Services, Environmental & Occupational Health, Human resources and industrial relations, Public health

Abstract

BackgroundSix research groups independently conducted prospective studies of carpal tunnel syndrome (CTS) incidence in 54 US workplaces in 10 US States. Physical exposure variables were collected by all research groups at the individual worker level. Data from these research groups were pooled to increase the exposure spectrum and statistical power.ObjectiveThis paper provides a detailed description of the characteristics of the pooled physical exposure variables and the source data information from the individual research studies.MethodsPhysical exposure data were inspected and prepared by each of the individual research studies according to detailed instructions provided by an exposure subcommittee of the research consortium. Descriptive analyses were performed on the pooled physical exposure data set. Correlation analyses were performed among exposure variables estimating similar exposure aspects.ResultsAt baseline, there were a total of 3010 participants in the pooled physical exposure data set. Overall, the pooled data meaningfully increased the spectra of most exposure variables. The increased spectra were due to the wider range in exposure data of different jobs provided by the research studies. The correlations between variables estimating similar exposure aspects showed different patterns among data provided by the research studies.ConclusionsThe increased spectra of the physical exposure variables among the data pooled likely improved the possibility of detecting potential associations between these physical exposure variables and CTS incidence. It is also recognised that methods need to be developed for general use by all researchers for standardisation of physical exposure variable definition, data collection, processing and reduction.

Published

2015

2. Exposure-response relationships for the ACGIH threshold limit value for hand-activity level: results from a pooled data study of carpal tunnel syndrome.

Author

Kapellusch, Jay M, Gerr, Frederic E, Malloy, Elizabeth J, Garg, Arun, Harris-Adamson, Carisa, Bao, Stephen S, Burt, Susan E, Dale, Ann Marie, Eisen, Ellen A, Evanoff, Bradley A, Hegmann, Kurt T, Silverstein, Barbara A, Theise, Matthew S, and Rempel, David M

Subjects

Epidemiology, Health Sciences, Adolescent, Adult, Aged, Biomechanical Phenomena, Carpal Tunnel Syndrome, Female, Hand, Humans, Male, Middle Aged, Occupational Exposure, Risk Factors, Threshold Limit Values, Young Adult, American Conference of Governmental Industrial Hygienists, biomechanical overload, CTS, epidemiology, HAL, hand force, MSD, musculoskeletal disorder, peak force, physical exposure, repetition, threshold limit value, upper extremity, Public Health and Health Services, Psychology, Environmental & Occupational Health, Public health

Abstract

ObjectivesThis paper aimed to quantify exposure-response relationships between the American Conference of Governmental Industrial Hygienists' (ACGIH) threshold limit value (TLV) for hand-activity level (HAL) and incidence of carpal tunnel syndrome (CTS).MethodsManufacturing and service workers previously studied by six research institutions had their data combined and re-analyzed. CTS cases were defined by symptoms and abnormal nerve conduction. Hazard ratios (HR) were calculated using proportional hazards regression after adjusting for age, gender, body mass index, and CTS predisposing conditions.ResultsThe longitudinal study comprised 2751 incident-eligible workers, followed prospectively for up to 6.4 years and contributing 6243 person-years of data. Associations were found between CTS and TLV for HAL both as a continuous variable [HR 1.32 per unit, 95% confidence interval (95% CI) 1.11-1.57] and when categorized using the ACGIH action limit (AL) and TLV. Those between the AL and TLV and above the TLV had HR of 1.7 (95% CI 1.2-2.5) and 1.5 (95% CI 1.0-2.1), respectively. As independent variables (in the same adjusted model) the HR for peak force (PF) and HAL were 1.14 per unit (95% CI 1.05-1.25), and 1.04 per unit (95% CI 0.93-1.15), respectively.ConclusionThose with exposures above the AL were at increased risk of CTS, but there was no further increase in risk for workers above the TLV. This suggests that the current AL may not be sufficiently protective of workers. Combinations of PF and HAL are useful for predicting risk of CTS.

Published

2014

3. Exposure-response relationships for the ACGIH threshold limit value for handactivity level: results from a pooled data study of carpal tunnel syndrome

Author

Kapellusch, Jay M, Gerr, Frederic E, Malloy, Elizabeth J, Garg, Arun, Harris-Adamson, Carisa, Bao, Stephen S, Burt, Susan E, Dale, Ann Marie, Eisen, Ellen A, Evanoff, Bradley A, Hegmann, Kurt T, Silverstein, Barbara A, Theise, Matthew S, and Rempel, David M

Published

2014

4. National occupational research agenda (NORA) future directions in occupational musculoskeletal disorder health research

Author

Marras, William S., Cutlip, Robert G., Burt, Susan E., and Waters, Thomas R.

Published

2009

5. Variable definitions and distributions of exposure data from a consortium study on Carpal Tunnel Syndrome

Author

Bao, Stephen S., primary, Kapellusch, Jay M., additional, Garg, Arun, additional, Silverstein, Barbara A., additional, Harris-Adamson, Carisa, additional, Burt, Susan E., additional, Marie Dale, Ann, additional, Evanoff, Bradley A., additional, Gerr, Frederic E., additional, Hegmann, Kurt T., additional, Merlino, Linda A., additional, Thiese, Matthew S., additional, and Rempel, David M., additional

Published

2015

6. Developing a pooled job physical exposure data set from multiple independent studies: an example of a consortium study of carpal tunnel syndrome

Author

Bao, Stephen S, primary, Kapellusch, Jay M, additional, Garg, Arun, additional, Silverstein, Barbara A, additional, Harris-Adamson, Carisa, additional, Burt, Susan E, additional, Dale, Ann Marie, additional, Evanoff, Bradley A, additional, Gerr, Frederic E, additional, Hegmann, Kurt T, additional, Merlino, Linda A, additional, Thiese, Matthew S, additional, and Rempel, David M, additional

Published

2014

7. Pooling job physical exposure data from multiple independent studies in a consortium study of carpal tunnel syndrome

Author

Kapellusch, Jay M., primary, Garg, Arun, additional, Bao, Stephen S., additional, Silverstein, Barbara A., additional, Burt, Susan E., additional, Dale, Ann Marie, additional, Evanoff, Bradley A., additional, Gerr, Frederic E., additional, Harris-Adamson, Carisa, additional, Hegmann, Kurt T., additional, Merlino, Linda A., additional, and Rempel, David M., additional

Published

2013