Your search keyword '"Simon Matz"' showing total 33 results

1. Gait adaptation on surfaces with different degrees of slipperiness

Author

Wen-Ruey Chang, Mary F. Lesch, Chien-Chi Chang, and Simon Matz

Subjects

Adult, Male, Engineering, Friction, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Walking, Kinematics, User awareness, Low friction, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Floors and Floorcoverings, Humans, 0501 psychology and cognitive sciences, Safety, Risk, Reliability and Quality, Gait, Engineering (miscellaneous), 050107 human factors, Simulation, business.industry, 05 social sciences, Awareness, Adaptation, Physiological, Biomechanical Phenomena, Female, business, 030217 neurology & neurosurgery

Abstract

Gait adaptation to employ different ways to avoid a potential slip is needed to continue walking safely on a new surface, especially when transitioning to a slippery surface. In this experiment, participants walked back and forth five times (trials) on surfaces with different degrees of slipperiness. The results show that trial 1 was significantly different from other trials for most of the dependent variables, especially for the low and high friction conditions. Kinematics on high and medium friction surfaces were very similar, but more adjustments were needed for low friction surfaces. The data for the first trial reflect gait after walking for 2.4 m on the walkway, not the first step onto the walkway. The current data show that gait adaptation continued beyond the first trial. Since participants in this experiment were aware of the floor conditions, the results could have important safety implications that user awareness alone might be insufficient for safe floor designs.

Published

2017

2. The available coefficient of friction associated with different slip probabilities for level straight walking

Author

Wen-Ruey Chang, Chien-Chi Chang, and Simon Matz

Subjects

musculoskeletal diseases, Public Health, Environmental and Occupational Health, Poison control, Slip (materials science), body regions, Preferred walking speed, Normal distribution, Stochastic distribution, Age groups, Statistics, Safety, Risk, Reliability and Quality, Coefficient of friction, Safety Research, Human locomotion, Simulation, Mathematics

Abstract

This paper presents an investigation on different slip probabilities for level straight walking obtained when comparing a given available coefficient of friction (ACOF) value with the stochastic distribution of the required coefficient of friction (RCOF). In an early study, data from both feet of 48 participants were pooled to construct a normal distribution for the RCOF without considering the potential effects of different factors such as the walking speed, footwear type, age, gender and foot. In the current study, the RCOF of each foot for each walking condition by each participant was assumed to have a normal distribution. The slip probability was obtained by averaging the cumulative probabilities of the RCOF exceeding a given ACOF from both feet and evaluated at five levels, one out of 20, 200, 10,000, 100,000 and 1,000,000. The ANOVA results indicated that age group and walking speed had a statistically significant effect on the ACOF associated with all slip probabilities evaluated. The ACOF value obtained in that early study was lower than that with the current study for higher slip probabilities, while the opposite was true for lower slip probabilities.

Published

2013

3. Stochastic distribution of the required coefficient of friction for level walking - an in-depth study

Author

Wen-Ruey Chang, Simon Matz, and Chien-Chi Chang

Subjects

Adult, Male, Adolescent, Friction, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Walking, Slip (materials science), Risk Assessment, Statistics, Nonparametric, Normal distribution, Stochastic distribution, Young Adult, Statistics, Humans, Coefficient of friction, Aged, Probability, Weibull distribution, Mathematics, Stochastic Processes, Models, Statistical, Stochastic process, Nonparametric statistics, Middle Aged, Shoes, Logistic Models, Accidental Falls, Female

Abstract

This study investigated the stochastic distribution of the required coefficient of friction (RCOF) which is a critical element for estimating slip probability. Fifty participants walked under four walking conditions. The results of the Kolmogorov-Smirnov two-sample test indicate that 76% of the RCOF data showed a difference in distribution between both feet for the same participant under each walking condition; the data from both feet were kept separate. The results of the Kolmogorov-Smirnov goodness-of-fit test indicate that most of the distribution of the RCOF appears to have a good match with the normal (85.5%), log-normal (84.5%) and Weibull distributions (81.5%). However, approximately 7.75% of the cases did not have a match with any of these distributions. It is reasonable to use the normal distribution for representation of the RCOF distribution due to its simplicity and familiarity, but each foot had a different distribution from the other foot in 76% of cases.The stochastic distribution of the required coefficient of friction (RCOF) was investigated for use in a statistical model to improve the estimate of slip probability in risk assessment. The results indicate that 85.5% of the distribution of the RCOF appears to have a good match with the normal distribution.

Published

2012

4. Comparison of different methods to extract the required coefficient of friction for level walking

Author

Chien-Chi Chang, Wen-Ruey Chang, and Simon Matz

Subjects

Male, Normal force, Friction, Injury control, Stance phase, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Walking, Middle Aged, Shoes, Task Performance and Analysis, Statistics, Humans, Accidental Falls, Female, Heel contact, Ground reaction force, Coefficient of friction, Simulation, Aged, Mathematics, Slip (vehicle dynamics)

Abstract

The required coefficient of friction (RCOF) is an important predictor for slip incidents. Despite the wide use of the RCOF there is no standardised method for identifying the RCOF from ground reaction forces. This article presents a comparison of the outcomes from seven different methods, derived from those reported in the literature, for identifying the RCOF from the same data. While commonly used methods are based on a normal force threshold, percentage of stance phase or time from heel contact, a newly introduced hybrid method is based on a combination of normal force, time and direction of increase in coefficient of friction. Although no major differences were found with these methods in more than half the strikes, significant differences were found in a significant portion of strikes. Potential problems with some of these methods were identified and discussed and they appear to be overcome by the hybrid method.No standard method exists for determining the required coefficient of friction (RCOF), an important predictor for slipping. In this study, RCOF values from a single data set, using various methods from the literature, differed considerably for a significant portion of strikes. A hybrid method may yield improved results.

Published

2012

5. A comparison of required coefficient of friction for both feet in level walking

Author

Chien-Chi Chang, Simon Matz, and Wen-Ruey Chang

Subjects

Injury control, Accident prevention, Significant difference, Public Health, Environmental and Occupational Health, Poison control, Logistic regression, Preferred walking speed, Statistics, Safety, Risk, Reliability and Quality, Coefficient of friction, Safety Research, Human locomotion, Simulation, Mathematics

Abstract

The required coefficient of friction (RCOF) is one of the critical elements in determining whether a slip incident might occur. Most researchers, when measuring RCOF, do not differentiate between the two feet of the same participant under the same walking condition. Results from a recent study (Chang et al., 2010) indicated that the stochastic distributions of the RCOF of both feet were different in 76% of the cases. Using the previous data (Chang et al., 2010), this paper presents a comparison of the RCOF for both feet of 50 participants under four level walking conditions resulting from two footwear types and two walking speeds using a t-test, commonly used by safety professionals to compare two pools of data. The current results indicated that 78% of the RCOF data showed a statistically significant difference between the RCOF from two feet for the same participant under each walking condition. The results of the logistic regression analysis used to identify factors that contributed to the outcome of the t-test indicated that the walking speed was the only factor with a statistical significance (p = 0.044).

Published

2012

6. The stochastic distribution of available coefficient of friction on quarry tiles for human locomotion

Author

Wen-Ruey Chang, Chien-Chi Chang, and Simon Matz

Subjects

Glycerol, Stochastic Processes, Models, Statistical, Friction, Rehabilitation, Public Health, Environmental and Occupational Health, Water, Statistical model, Walking, Mechanics, Statistics, Nonparametric, Surface conditions, Shoes, Stochastic distribution, Normal distribution, Floors and Floorcoverings, Forensic engineering, Humans, Coefficient of friction, Human locomotion, Slip (vehicle dynamics), Weibull distribution, Mathematics

Abstract

The available coefficient of friction (ACOF) for human locomotion is the maximum coefficient of friction that can be supported without a slip at the shoe and floor interface. A statistical model was introduced to estimate the probability of slip by comparing the ACOF with the required coefficient of friction, assuming that both coefficients have stochastic distribu- tions. This paper presents an investigation of the stochastic distributions of the ACOF of quarry tiles under dry, water and glycerol conditions. One hundred friction measurements were performed on a walkway under the surface conditions of dry, water and 45% glycerol concentration. The Kolmogorov-Smirnov goodness-of-fit test was used to determine if the distribution of the ACOF was a good fit with the normal, log-normal and Weibull distributions. The results indicated that the ACOF ap- pears to fit the normal and log-normal distributions better than the Weibull distribution for the water and glycerol conditions. However, no match was found between the distribution of ACOF under the dry condition and any of the three continuous dis- tributions evaluated. Based on limited data, a normal distribution might be more appropriate due to its simplicity, practicality and familiarity among the three distributions evaluated.

Published

2012

7. Linear regression models of floor surface parameters on friction between Neolite and quarry tiles

Author

Wen-Ruey Chang, Raoul Grönqvist, Simon Matz, and Mikko Hirvonen

Subjects

Friction, Waviness, Construction Materials, Multilevel model, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Regression analysis, Slip (materials science), Surface finish, Mechanics, Floors and Floorcoverings, Linear regression, Linear Models, Econometrics, Surface roughness, Dynamical friction, Safety, Risk, Reliability and Quality, Engineering (miscellaneous), Mathematics

Abstract

For slips and falls, friction is widely used as an indicator of surface slipperiness. Surface parameters, including surface roughness and waviness, were shown to influence friction by correlating individual surface parameters with the measured friction. A collective input from multiple surface parameters as a predictor of friction, however, could provide a broader perspective on the contributions from all the surface parameters evaluated. The objective of this study was to develop regression models between the surface parameters and measured friction. The dynamic friction was measured using three different mixtures of glycerol and water as contaminants. Various surface roughness and waviness parameters were measured using three different cut-off lengths. The regression models indicate that the selected surface parameters can predict the measured friction coefficient reliably in most of the glycerol concentrations and cut-off lengths evaluated. The results of the regression models were, in general, consistent with those obtained from the correlation between individual surface parameters and the measured friction in eight out of nine conditions evaluated in this experiment. A hierarchical regression model was further developed to evaluate the cumulative contributions of the surface parameters in the final iteration by adding these parameters to the regression model one at a time from the easiest to measure to the most difficult to measure and evaluating their impacts on the adjusted R2 values. For practical purposes, the surface parameter Ra alone would account for the majority of the measured friction even if it did not reach a statistically significant level in some of the regression models.

Published

2010

8. The effects of straight ladder setup and usage on ground reaction forces and friction requirements during ascending and descending

Author

Simon Matz, Chien-Chi Chang, and Wen-Ruey Chang

Subjects

Engineering, business.industry, Significant difference, Shear force, Public Health, Environmental and Occupational Health, Poison control, Mechanical engineering, Slip (materials science), Structural engineering, Climbing, Slippage, Ground reaction force, Safety, Risk, Reliability and Quality, business, Coefficient of friction, Safety Research

Abstract

Many ladder accidents occur despite standards and regulations. The causes of these incidences may often be related to the setup and usage of the ladders. Slippage at the ladder base is one of the most common sources of accidents involving straight ladders. In a previous paper, we reported the coefficient of friction requirements at the bottom of the ladder under several ladder climbing conditions during ladder ascending. In this paper, a comprehensive analysis was performed to further investigate these effects with the addition of ladder descending. The normal and shear forces at the bottom of the ladder were also compared as well as additional factors including climbing direction and climbing heights on the ladder. The results indicated that regardless of climbing direction, the ladder inclined angle was the most critical factor in the friction requirements among the factors evaluated. Within the tested conditions, a reduction of the ladder inclined angle from 75° to 65° resulted in an average increase of 73% in friction requirement between the base of the ladder and the floor. The climbing height also had a significant effect on the required coefficient of friction, followed by the climbing speed. The potential of a slip incident increased when the subject climbed higher or faster on the ladder. The data also showed that there existed a statistically significant difference between ladder ascending and descending for the normalized maximum normal and shear forces and the required COF. These critical risk factors should be considered carefully when developing guidelines for preventive measures that workers can take during straight ladder setup and usage.

Published

2005

9. Available friction of ladder shoes and slip potential for climbing on a straight ladder

Author

Simon Matz, Wen-Ruey Chang, and Chien-Chi Chang

Subjects

Adult, Engineering, Friction, Surface Properties, Base (geometry), Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Slip (materials science), Motion, Floors and Floorcoverings, Materials Testing, Scale size, Accidents, Occupational, Humans, Probability, Friction coefficient, Measurement method, business.industry, Structural engineering, Biomechanical Phenomena, Shoes, Equipment and Supplies, Climbing, Accidental Falls, business, Reduction (mathematics), Oils

Abstract

Straight ladder accidents are a major safety problem. As a leading cause of injuries involving straight ladders, slips at the ladder base occur when the required friction exceeds the available friction at the ladder shoe and floor interface. The objectives of this experiment were to measure the available friction at the base of a portable straight ladder in contact with a floor and to estimate the slip potential of the ladder. The results of friction measurements indicated that the measured friction coefficient on the oily surfaces differed among the six commercially available ladder shoes evaluated. A statistical model was used to compare the available friction results from the current study with the friction requirements under different climbing conditions from a previous study based on their stochastic distributions to estimate the slip potential at the base of the ladder. The results showed that different climbing conditions used in the previous study could be supported by available friction on dry surfaces. However, when the ladder was put onto oily surfaces, resulting in a significant reduction in the available friction due to contamination, slip potential was significantly increased.

Published

2005

10. Friction requirements for different climbing conditions in straight ladder ascending

Author

Wen-Ruey Chang, Chien-Chi Chang, Dal Ho Son, and Simon Matz

Subjects

Friction coefficient, Engineering, business.industry, Critical factors, Public Health, Environmental and Occupational Health, Base (geometry), Poison control, Structural engineering, Body weight, Occupational accident, Climbing, Safety, Risk, Reliability and Quality, business, Work safety, Safety Research, Simulation

Abstract

Slips at the ladder bottom, which happen when the required friction to support activities on the ladder exceeds the available friction at the interface, are a major cause of injuries. The purpose of this study was to evaluate the effects of ladder inclined angle, climbing speed, ladder type, type of contact at the top of the ladder and body weight on the friction requirement at the bottom of the ladder. The results indicated that the ladder inclined angle and the climbing speed were the most and second most critical factors, respectively, in friction requirement among the factors evaluated. The required friction coefficient increased by 77% on average when the ladder inclined angle was decreased from 75° to 65°. Interventions to prevent ladder slips at their bases could include developing practical guidelines for the users to properly set up their ladders and reminding users not to rush on the ladder. The results also indicated that the contact at the top of the ladder and ladder type had minor effects on the required friction at the ladder base.

Published

2004

11. Comparing two methods of data collection for walkway friction measurements with a portable slip meter and a force platform

Author

Simon Matz and Raoul Grönqvist

Subjects

Engineering, Data collection, business.industry, Public Health, Environmental and Occupational Health, Poison control, Slip resistance, Structural engineering, Sample size determination, Statistical analysis, Force platform, Safety, Risk, Reliability and Quality, business, Coefficient of friction, Safety Research, Simulation, Slip (vehicle dynamics)

Abstract

The objective was to investigate how two distinct data collection procedures, raw coefficient of friction (COF) data versus averaged COF data, may affect the outcome and interpretation of statistical analysis of friction tests and thus the reliability of slip resistance assessments. A prototype portable slip meter (PSM) and a force platform (FP) were used for evaluating floor friction transients over contaminated surfaces. A one-way ANOVA was performed to estimate significant differences between the PSM and the FP using raw COF data (55 measurement points) and averaged COF data (five measurement points) respectively. For comparing the FP with the portable slip meter, the best approach is to use averaged friction data. When the portable slip meter is used independently for walkway friction measurement, either the averaged or the raw data can be used to present the test results. However, the larger sample size is always the preferred choice.

Published

2004

12. The effect of surface waviness on friction between Neolite and quarry tiles

Author

Wen-Ruey Chang, Simon Matz, Raoul Grönqvist, and Mikko Hirvonen

Subjects

musculoskeletal diseases, Surface (mathematics), Materials science, Friction, Surface Properties, Slip and fall, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Surface finish, Physics::Fluid Dynamics, Viscosity, Floors and Floorcoverings, Materials Testing, Surface roughness, Humans, Dynamical friction, Composite material, Analysis of Variance, Fourier Analysis, Waviness, Models, Theoretical, Shoes, body regions, visual_art, visual_art.visual_art_medium, Accidental Falls, Ergonomics, Rubber, Tile

Abstract

Friction is widely used as an indicator of surface slipperiness in preventing accidents in slips and falls. Surface texture affects friction, but it is not clear which surface characteristics are better correlated with friction. Highly correlated surface characteristics could be used as potential interventions to prevent slip and fall accidents. The dynamic friction between quarry tiles and a commonly used sole testing material, Neolite, using three different mixtures of glycerol and water as contaminants at the interface was correlated with the surface parameters of the tile surfaces. The surface texture was quantified with various surface roughness and surface waviness parameters using three different cut-off lengths to filter the measured profiles for obtaining the profiles of either surface roughness or surface waviness. The correlation coefficients between the surface parameters and the measured friction were affected by the glycerol contents and cut-off lengths. Surface waviness parameters could potentially be better indicators of friction than commonly used surface roughness parameters, especially when they were measured with commonly used cut-off lengths or when the viscosity of the liquid contaminant was high.

Published

2004

13. Assessment of shoe-floor slipperiness with respect to contact-time-related variation in friction during heel strike

Author

Raoul Grönqvist, Simon Matz, and Mikko Hirvonen

Subjects

musculoskeletal diseases, Advanced and Specialized Nursing, Kinetic friction, Heel, Steady state, integumentary system, business.industry, Contact time, Rehabilitation, Public Health, Environmental and Occupational Health, Physical Therapy, Sports Therapy and Rehabilitation, Slip (materials science), Structural engineering, body regions, Gait (human), medicine.anatomical_structure, medicine, business, human activities, Heel strike, Slipping, Geology

Abstract

The variation in utilized and available friction over shoe-floor contact time was determined in the presence of high- and low-viscosity contaminants. The objectives were to improve the validity of slipperiness evaluations and to find better criteria for safe friction during heel strike. The utilized friction coefficients for six shoe types were determined during gait-trials with male participants. The available friction coefficients of these shoes were measured with a test rig simulating heel slipping. The experiments were performed on a stainless steel floor with concentrated glycerol ('oily' condition) and diluted glycerol (1:10 in water) as contaminants. It was hypothesized that any single friction measurement criterion would be an insufficient predictor for safe gait with no slip or with slip recovery, not leading to a fall. The results showed that both transitional friction (time-intervals from zero to about 250 ms of heel contact) and steady state kinetic friction (time-intervals from about 250 ms to 450 ms) properties in the shoe and floor interface play an important role in slipperiness measurement and slip/fall risk assessment. The role of static friction in the risk assessment remained unclear.

Published

2003

14. The validity and reliability of a portable slip meter for determining floor slipperiness during simulated heel strike

Author

Erkki Rajamäki, Simon Matz, Mikko Hirvonen, and Raoul Grönqvist

Subjects

Adult, Male, Engineering, Friction, Surface Properties, Poison control, Human Factors and Ergonomics, Sensitivity and Specificity, Statistics, Nonparametric, Floors and Floorcoverings, Slider, Materials Testing, Humans, Force platform, Safety, Risk, Reliability and Quality, Gait, Slip (vehicle dynamics), Analysis of Variance, Normal force, business.industry, Public Health, Environmental and Occupational Health, Reproducibility of Results, Equipment Design, Test method, Structural engineering, Shoes, Vibration, Measuring instrument, Accidental Falls, Factor Analysis, Statistical, business

Abstract

A previously developed test rig was used as starting point for designing a portable slip meter with two new features. First, an inflatable pneumatic test wheel, consisting of six slider units, was introduced as the impacting contact element relative to floor surface. Second, an inductive trigger was built into the system to facilitate a precise timing of the slider-floor contact during the test. This new test rig was designed to measure transitional friction properties of contaminated floor surfaces during simulated heel strike, which is considered the most critical phase of gait from the slip and fall point of view. Another objective was to quantify the validity and reliability of this test method in the laboratory, but not yet in the field. The measurement process was evaluated on eight wet and oily floor surfaces (vinyl and ceramic tile floorings) using two slider materials (plain, profiled), two normal loads (100, 200 N), and two sliding velocities (0.15, 0.30 m/s) as independent variables. The outputs of the portable slip meter, in terms of transitional friction coefficients, were compared to force platform-based friction values and to slip resistance values obtained with a slip simulator apparatus for laboratory testing of shoes and floor surfaces. The outputs were also evaluated against slipperiness ratings made by three male subjects in paired comparison trials, in which the subjects walked over eight wet floor surfaces wearing shoes with the plain soling material. The results showed that test option 200 N and 0.15m/s led to optimum validity despite its tendency to promote frictional vibrations (stick-slip) in the contact surface. Compared to the lower sliding speed, the higher speed reduced both stick-slip and measurement bias. Test option 200 N and 0.30 m/s was the most reliable one in this experiment. It yielded lower friction coefficients than any other test option and reduced the likelihood of underestimating slip and fall hazards. The results implied that the minimum friction coefficient was 0.25 for preventing a fall on wet floor surfaces, whereas the limit for preventing a slip was in the range 0.30-0.35. Transitional friction measurement was found to be a valid and reliable indicator for slip resistance. A more accurate control of the normal force during testing is needed for actual field use of the test method.

Published

2003

15. Field evaluation of two commonly used slipmeters

Author

Wen-Ruey Chang, Simon Matz, and John P. Cotnam

Subjects

Measurement method, Engineering, Restaurants, Friction, Injury control, business.industry, Accident prevention, Single measurement, Slip and fall, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Local variation, Floor covering, Floors and Floorcoverings, Materials Testing, Forensic engineering, Accidental Falls, Safety, Risk, Reliability and Quality, business, Engineering (miscellaneous), Occupational Health, Marine engineering

Abstract

A variety of slipmeters have been used to assess the slipperiness of floor surfaces. International standards for the operation of slipmeters describe the protocol for a single measurement. These standards usually do not cover some of the critical elements in safety assessment such as methods for the selection of measurement locations and the necessary number of repeated measurements at each location. Furthermore, most of the slipmeters were evaluated in laboratory settings with new floor surfaces and artificial contaminants. Two commonly used slipmeters, the Brungraber Mark II and the English XL, were evaluated at actual worksites in this experiment. Four floor tiles in each of four different work areas in the kitchens of 18 fast food restaurants were selected for repeated measurements with these two slipmeters. The results indicated that sanding of footwear materials has a significant effect on the outcomes of friction measurements, and the tile-to-tile variations in friction in the same areas of restaurants were also mostly statistically significant. Significant local variation in friction among tiles in the same area could potentially increase the chances of slip and fall incidents. Both slipmeters used in this experiment could potentially have problems in the areas with grease, such as grill and fryer areas, since the build-up of grease during repeated strikes could alter the outcome of friction measured.

Published

2003

16. Ergonomic Antecedents and Disabling Construction Injuries

Author

Theodore K. Courtney, Barbara S. Webster, and Simon Matz

Subjects

medicine.medical_specialty, EYE FOREIGN BODY, business.industry, Human factors and ergonomics, Indemnity, Low back pain, Medical Terminology, Construction worker, Construction industry, Back pain, medicine, Physical therapy, Operations management, medicine.symptom, business, Medical Assisting and Transcription, Finger lacerations

Abstract

The US construction industry comprises 5.4% of annual US employment but accounts for 7.8% of non-fatal occupational injuries. Little is kno-wn about construction injury disability and the contribution of ergonomics-related antecedents. The construction experience (n = 35,790) of a national worker's compensation insurer was analyzed. Disability duration (LOD) was calculated from indemnity payments data. Contributions of ergonomics-related antecedents to the most costly injuries were identified. The most frequent injuries were low back pain (15%), foreign body eye injuries (8.5%), and finger lacerations (4.8%). Back pain also accounted for the greatest percentage of costs (21.3%) and disability days (24.5%). The average LOD for an injured construction worker was 50 days (median = 7 days). Among the 5 most costly injuries, wrist fractures had the longest LOD (mean = 247, median = 38). Ergonomics-related antecedents were typically cited as the injury causing event in 4 of the 5 most costly injuries.

Published

2002

17. The direct cost burden of 13years of disabling workplace injuries in the U.S. (1998-2010): Findings from the Liberty Mutual Workplace Safety Index

Author

Tom B. Leamon, Helen L. Corns, Simon Matz, Theodore K. Courtney, Y. Ian Noy, Barbara S. Webster, Gary S. Sorock, Radoslaw Wasiak, and Helen R. Marucci-Wellman

Subjects

Adult, medicine.medical_specialty, Work, Psychological intervention, Poison control, Workers' compensation, Work-related injury, Burden, Suicide prevention, Occupational safety and health, Environmental health, Injury prevention, medicine, Accidents, Occupational, Humans, Disabled Persons, Safety, Risk, Reliability and Quality, Workplace, business.industry, Public health, Prevention, Human factors and ergonomics, Health Care Costs, Overexertion, medicine.disease, Occupational Injuries, United States, Occupational Diseases, Workers' Compensation, Falls, Accidental Falls, Medical emergency, Public Health, Health Expenditures, Safety, business

Abstract

Introduction : Although occupational injuries are among the leading causes of death and disability around the world, the burden due to occupational injuries has historically been under-recognized, obscuring the need to address a major public health problem. Methods : We established the Liberty Mutual Workplace Safety Index (LMWSI) to provide a reliable annual metric of the leading causes of the most serious workplace injuries in the United States based on direct workers compensation (WC) costs. Results : More than $600 billion in direct WC costs were spent on the most disabling compensable non-fatal injuries and illnesses in the United States from 1998 to 2010. The burden in 2010 remained similar to the burden in 1998 in real terms. The categories of overexertion ($13.6B, 2010) and fall on same level ($8.6B, 2010) were consistently ranked 1st and 2nd. Practical application : The LMWSI was created to establish the relative burdens of events leading to work-related injury so they could be better recognized and prioritized. Such a ranking might be used to develop research goals and interventions to reduce the burden of workplace injury in the United States.

Published

2014

18. Clinical Management and the Duration of Disability for Work-Related Low Back Pain

Author

David C. Christiani, Theodore K. Courtney, James A. Tacci, Barbara S. Webster, Mohammed A. Mahmud, and Simon Matz

Subjects

Adult, Male, medicine.medical_specialty, Time Factors, Adolescent, Specialty, Indemnity, Work related, Occupational medicine, Absenteeism, Health care, medicine, Humans, Disabled Persons, Occupational Health, medicine.diagnostic_test, business.industry, Public Health, Environmental and Occupational Health, Magnetic resonance imaging, Health Services, Middle Aged, Low back pain, Confidence interval, Physical therapy, Workers' Compensation, Female, medicine.symptom, business, Low Back Pain

Abstract

Clinical practice guidelines recommend a conservative approach to management of acute low back pain (LBP). The present study sought to determine whether health care utilization and the physician's initial management of work-related LBP were associated with disability duration. Clinical management information was obtained for 98 randomly selected, workers' compensation claimants with acute, uncomplicated, disabling work-related LBP. Length of disability was based on indemnity (wage replacement) payments. Disability was significantly associated with increased utilization of specialty referrals (P = 0.013) and provider visits (P < 0.001), use of magnetic resonance imaging (P = 0.003), and use of opioids for more than 7 days (P = 0.013). Effects of early diagnostic imaging (first 30 days of care) on length of disability were observed (P = 0.001). Patients whose treatment course did not involve extended opioid use and early diagnostic testing were 3.78 times more likely (95% confidence interval, 1.6 to 8.9) to have gone off disability status by the end of the study. The nature of the association between these initial clinical management aspects and LBP disability duration merits further exploration.

Published

2000

19. The effect of filtering processes on surface roughness parameters and their correlation with the measured friction, Part I: quarry tiles

Author

Wen-Ruey Chang and Simon Matz

Subjects

Materials science, Correlation coefficient, Public Health, Environmental and Occupational Health, Poison control, Surface finish, Filter (signal processing), Tribology, Surface metrology, Surface roughness, Profilometer, Composite material, Safety, Risk, Reliability and Quality, Safety Research, Simulation

Abstract

It is known that surface roughness affects friction, but it is unclear which surface characteristics are better correlated with friction. Moreover, the filter process used in surface roughness measurement affects the values of surface parameters and, therefore, affects surface representations. The effect of filter selection on the surface parameters and their correlation with the measured friction was investigated in this study. Surface roughness on unglazed quarry tiles was measured. Friction was measured with two commercially available slipmeters. The results indicated that some parameters, such as R sk , were significantly affected by the filter type, while some other parameters, such as Δ a were significantly affected by the band width. The filter type 2CR PC could generate surface parameters that had slightly higher linear correlation coefficients with friction than two other filter types, ISO 2CR and Gaussian, and the filter band width of 1000 is not recommended. The surface parameter R pk had a very high correlation with friction, but it was highly location dependent and somewhat ambiguous in how it was generated. The surface parameter R pm had a very small location dependence and a very high correlation coefficient. Therefore, the surface parameter R pm was a better choice for an indicator of surface friction.

Published

2000

20. Risk Factors for Work-related Low Back Pain in the People's Republic of China

Author

Simon Matz, Youxin Liang, Linna Ge, Kezhi Jin, Theodore K. Courtney, Zhenjun Yao, and Gary S. Sorock

Subjects

Male, Gerontology, China, medicine.medical_specialty, Cross-sectional study, Posture, Alternative medicine, MEDLINE, Vibration, Work related, Risk Factors, Epidemiology, medicine, Humans, business.industry, Public Health, Environmental and Occupational Health, People's Republic, Low back pain, Cold Temperature, Occupational Diseases, Cross-Sectional Studies, Female, medicine.symptom, business, Low Back Pain, Demography

Abstract

A critical review was conducted of studies of work-related low back pain in the People's Republic of China. The published literature in both the English and Chinese languages from 1983 to 1997 was reviewed for studies that permitted the calculation of prevalence ratios. Thirty-five papers were identified initially, and after quality inclusion/exclusion criteria were applied, 16 (14 in Chinese and two in English) were selected for more detailed review. Prevalence ratios were statistically elevated in all but two of the selected studies. Prevalence ratios for individual groups ranged from 2.0 to 8.5 for bending and twisting, 1.5 to 14.3 for static posture, 1.9 to 5.5 for whole-body vibration, and 2.6 to 9.4 for low-temperature exposure. The literature was limited by the absence of standardized and robust measures of low-back-pain outcomes and exposures and by the omission of fundamental details from research reports. Even with these limitations, the review findings suggest that three physical risk factors, all well known in the international literature, are associated with the prevalence of low back pain in the People's Republic of China.

Published

2000

21. Comparison of required coefficient of friction for both feet for straight walking

Author

Wen-Ruey Chang, Simon Matz, and Chien-Chi Chang

Subjects

Materials science, Mechanics, Coefficient of friction

Published

2013

22. The stochastic distribution of available coefficient of friction for human locomotion of five different floor surfaces

Author

Wen-Ruey Chang, Simon Matz, and Chien-Chi Chang

Subjects

Stochastic Processes, Friction, Mathematical analysis, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Statistical model, Stochastic distribution, Normal distribution, Floors and Floorcoverings, Statistics, Kurtosis, Humans, Accidental Falls, Safety, Risk, Reliability and Quality, Coefficient of friction, Engineering (miscellaneous), Human locomotion, Locomotion, Slip (vehicle dynamics), Weibull distribution, Mathematics

Abstract

The maximum coefficient of friction that can be supported at the shoe and floor interface without a slip is usually called the available coefficient of friction (ACOF) for human locomotion. The probability of a slip could be estimated using a statistical model by comparing the ACOF with the required coefficient of friction (RCOF), assuming that both coefficients have stochastic distributions. An investigation of the stochastic distributions of the ACOF of five different floor surfaces under dry, water and glycerol conditions is presented in this paper. One hundred friction measurements were performed on each floor surface under each surface condition. The Kolmogorov–Smirnov goodness-of-fit test was used to determine if the distribution of the ACOF was a good fit with the normal, log-normal and Weibull distributions. The results indicated that the ACOF distributions had a slightly better match with the normal and log-normal distributions than with the Weibull in only three out of 15 cases with a statistical significance. The results are far more complex than what had heretofore been published and different scenarios could emerge. Since the ACOF is compared with the RCOF for the estimate of slip probability, the distribution of the ACOF in seven cases could be considered a constant for this purpose when the ACOF is much lower or higher than the RCOF. A few cases could be represented by a normal distribution for practical reasons based on their skewness and kurtosis values without a statistical significance. No representation could be found in three cases out of 15.

Published

2013

23. The effect of transverse shear force on the required coefficient of friction for level walking

Author

Chien-Chi Chang, Wen-Ruey Chang, and Simon Matz

Subjects

Adult, Male, Adolescent, Friction, Surface Properties, Poison control, Human Factors and Ergonomics, Slip (materials science), Walking, Risk Assessment, Behavioral Neuroscience, Young Adult, Gait (human), Floors and Floorcoverings, Materials Testing, Humans, Ground reaction force, Coefficient of friction, Human locomotion, Gait, Applied Psychology, Mathematics, business.industry, Structural engineering, Middle Aged, Biomechanical Phenomena, Shoes, Transverse plane, Transverse shear, Regression Analysis, Female, business

Abstract

Objective: An enhanced methodology to extract the required coefficient of friction (RCOF) value was used to investigate the effects of the transverse shear component of the ground reaction force (GRF) on the RCOF. Background: The RCOF is an important indicator for slip incidents. However, the extraction of the RCOF from GRF is not standardized. The transverse shear force is usually ignored in calculating the RCOF value. Method: For this study, 40 participants performed four walking conditions. The RCOF values both with (RCOF2) and without (RCOF1) the transverse shear force were identified from each strike by the use of an enhanced method and were compared. Results: A total of 24,851 strikes were collected. The transverse component increased the RCOF value by more than 10% in 7.2% of the strikes. In 10.4% of the strikes, the RCOF2 occurred at least 20 ms earlier and the RCOF value was on average 8.9% larger than RCOF1. Conclusion: With this method, we were able to successfully identify the RCOF in a significantly large number of strikes across 40 participants. In a portion of the strikes, the transverse shear force increased the RCOF significantly. In a significant portion of the strikes, the RCOF2 occurred much earlier than RCOF1. Application: Better estimates of the RCOF magnitude and instant of occurrence could potentially improve risk assessment and identification of critical instants in gait.

Published

2011

24. Etiology of work-related electrical injuries: a narrative analysis of workers' compensation claims

Author

David A. Lombardi, Melanye J. Brennan, Gordon S. Smith, Theodore K. Courtney, and Simon Matz

Subjects

Adult, Male, Adolescent, Poison control, Workers' compensation, Work related, Suicide prevention, Electrical Injuries, Occupational safety and health, Young Adult, Injury prevention, Medicine, Accidents, Occupational, Humans, Occupations, Aged, Demography, business.industry, Public Health, Environmental and Occupational Health, Human factors and ergonomics, Middle Aged, medicine.disease, United States, Electric Injuries, Workers' Compensation, Female, Medical emergency, business, Algorithms

Abstract

The purpose of this study was to provide new insight into the etiology of primarily nonfatal, work-related electrical injuries. We developed a multistage, case-selection algorithm to identify electrical-related injuries from workers' compensation claims and a customized coding taxonomy to identify pre-injury circumstances. Workers' compensation claims routinely collected over a 1-year period from a large U.S. insurance provider were used to identify electrical-related injuries using an algorithm that evaluated: coded injury cause information, nature of injury, "accident" description, and injury description narratives. Concurrently, a customized coding taxonomy for these narratives was developed to abstract the activity, source, initiating process, mechanism, vector, and voltage. Among the 586,567 reported claims during 2002, electrical-related injuries accounted for 1283 (0.22%) of nonfatal claims and 15 fatalities (1.2% of electrical). Most (72.3%) were male, average age of 36, working in services (33.4%), manufacturing (24.7%), retail trade (17.3%), and construction (7.2%). Body part(s) injured most often were the hands, fingers, or wrist (34.9%); multiple body parts/systems (25.0%); lower/upper arm; elbow; shoulder, and upper extremities (19.2%). The leading activities were conducting manual tasks (55.1%); working with machinery, appliances, or equipment; working with electrical wire; and operating powered or nonpowered hand tools. Primary injury sources were appliances and office equipment (24.4%); wires, cables/cords (18.0%); machines and other equipment (11.8%); fixtures, bulbs, and switches (10.4%); and lightning (4.3%). No vector was identified in 85% of cases. and the work process was initiated by others in less than 1% of cases. Injury narratives provide valuable information to overcome some of the limitations of precoded data, more specially for identifying additional injury cases and in supplementing traditional epidemiologic data for further understanding the etiology of work-related electrical injuries that may lead to further prevention opportunities.

Published

2009

25. Linear Regression Models of Floor Surface Parameters on Friction at Shoe-Floor Interface

Author

Simon Matz, Raoul Grönqvist, Mikko Hirvonen, and Wen-Ruey Chang

Subjects

Surface (mathematics), Interface (Java), Linear regression, Geotechnical engineering, Geology

Published

2008

26. A methodology to quantify the stochastic distribution of friction coefficient required for level walking

Author

Simon Matz, Mary F. Lesch, Wen-Ruey Chang, and Chien-Chi Chang

Subjects

Adult, Engineering, Friction, Surface Properties, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Walking, Normal distribution, Floors and Floorcoverings, Humans, Force platform, Safety, Risk, Reliability and Quality, Engineering (miscellaneous), Simulation, Slip (vehicle dynamics), Weibull distribution, Stochastic Processes, Models, Statistical, business.industry, Stochastic process, Ranging, Statistical model, Structural engineering, Biomechanical Phenomena, Shoes, Accidental Falls, Female, business

Abstract

The required friction coefficient is defined as the minimum friction needed at the shoe and floor interface to support human locomotion. The available friction is the maximum friction coefficient that can be supported without a slip at the shoe and floor interface. A statistical model was recently introduced to estimate the probability of slip and fall incidents by comparing the available friction with the required friction, assuming that both the available and required friction coefficients have stochastic distributions. This paper presents a methodology to investigate the stochastic distributions of the required friction coefficient for level walking. In this experiment, a walkway with a layout of three force plates was specially designed in order to capture a large number of successful strikes without causing fatigue in participants. The required coefficient of friction data of one participant, who repeatedly walked on this walkway under four different walking conditions, is presented as an example of the readiness of the methodology examined in this paper. The results of the Kolmogorov-Smirnov goodness-of-fit test indicated that the required friction coefficient generated from each foot and walking condition by this participant appears to fit the normal, log-normal or Weibull distributions with few exceptions. Among these three distributions, the normal distribution appears to fit all the data generated with this participant. The average of successful strikes for each walk achieved with three force plates in this experiment was 2.49, ranging from 2.14 to 2.95 for each walking condition. The methodology and layout of the experimental apparatus presented in this paper are suitable for being applied to a full-scale study.

Published

2007

27. Survey of acute low back pain management by specialty group and practice experience

Author

Simon Matz, Theodore K. Courtney, David C. Christiani, Yueng Hsiang Huang, and Barbara S. Webster

Subjects

Adult, Male, medicine.medical_specialty, Psychological intervention, Specialty, Medicine, Humans, Medical prescription, Practice Patterns, Physicians', Aged, Response rate (survey), Aged, 80 and over, Evidence-Based Medicine, business.industry, Public health, Public Health, Environmental and Occupational Health, Guideline, Evidence-based medicine, Middle Aged, Low back pain, Health Care Surveys, Physical therapy, Female, medicine.symptom, business, Low Back Pain, Specialization

Abstract

Objective: The objective of this study was to explore concurrence with evidence-based management of acute back pain by primary care specialty and years in practice groups. Methods: Participants randomly selected from five American Medical Association physician groups were surveyed asking their initial care recommendations for case scenarios with and without sciatica. Response differences were compared among groups and with the Agency for Health Research Quality’s guideline. Results: Response rate was 25%. Emergency physicians were least likely to order diagnostic studies for both cases but more often made recommendations likely to promote inactivity. Occupational physicians were less likely to order diagnostic studies and more likely choose treatments conducive to increasing activity. The longer physicians were in practice, the less likely they were to follow recommendations. All specialty groups selected more nonevidence-based interventions for the patient with sciatica. General practitioners were least likely to follow the guidelines in either case. Conclusions: Despite widespread dissemination of acute low back pain guidelines, the study suggests a lack of adherence by certain primary care groups, physicians with more practice experience, and in specific areas of management. (J Occup Environ Med. 2006;48:723–732)

Published

2006

28. Physicians' initial management of acute low back pain versus evidence-based guidelines. Influence of sciatica

Author

Barbara S, Webster, Theodore K, Courtney, Yueng-Hsiang, Huang, Simon, Matz, and David C, Christiani

Subjects

Adult, Aged, 80 and over, Male, Evidence-Based Medicine, Primary Health Care, Brief Report, Middle Aged, Sciatica, Cross-Sectional Studies, Health Care Surveys, Acute Disease, Humans, Female, Guideline Adherence, Patient Care, Low Back Pain, Aged

Abstract

Little information is available on physician characteristics and patient presentations that may influence compliance with evidence-based guidelines for acute low back pain.To assess whether physicians' management decisions are consistent with the Agency for Health Research Quality's guideline and whether responses varied with the presentation of sciatica or by physician characteristics.Cross-sectional study using a mailed survey.Participants were randomly selected from internal medicine, family practice, general practice, emergency medicine, and occupational medicine specialties.A questionnaire asked for recommendations for 2 case scenarios, representing patients without and with sciatica, respectively.Seven hundred and twenty surveys were completed (response rate=25%). In cases 1 (without sciatica) and 2 (with sciatica), 26.9% and 4.3% of physicians fully complied with the guideline, respectively. For each year in practice, the odds of guideline noncompliance increased 1.03 times (95% confidence interval [CI]=1.01 to 1.05) for case 1. With occupational medicine as the referent specialty, general practice had the greatest odds of noncompliance (3.60, 95% CI=1.75 to 7.40) in case 1, followed by internal medicine and emergency medicine. Results for case 2 reflected the influence of sciatica with internal medicine having substantially higher odds (vs case 1) and the greatest odds of noncompliance of any specialty (6.93, 95% CI=1.47 to 32.78), followed by family practice and emergency medicine.A majority of primary care physicians continue to be noncompliant with evidence-based back pain guidelines. Sciatica dramatically influenced clinical decision-making, increasing the extent of noncompliance, particularly for internal medicine and family practice. Physicians' misunderstanding of sciatica's natural history and belief that more intensive initial management is indicated may be factors underlying the observed influence of sciatica.

Published

2006

29. Work-related ladder fall fractures: identification and diagnosis validation using narrative text

Author

Gordon S. Smith, Melissa J. Perry, Robert A. Timmons, David A. Lombardi, Theodore K. Courtney, Dheeresh K. Mamidi, and Simon Matz

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Poison control, Human Factors and Ergonomics, Workers' compensation, Work related, Suicide prevention, Occupational safety and health, Fractures, Bone, Risk Factors, Injury prevention, Forensic engineering, Medicine, Accidents, Occupational, Humans, Safety, Risk, Reliability and Quality, Aged, Denominator data, integumentary system, business.industry, Construction Materials, Public Health, Environmental and Occupational Health, Human factors and ergonomics, Middle Aged, United States, Physical therapy, Workers' Compensation, Accidental Falls, Female, business

Abstract

Objective To identify ladder-related fracture injuries and determine how ladder fall fractures differ from other ladder-related injuries. Methods Ladder-related fracture cases were identified using narrative text and coded data from workers’ compensation claims. Potential cases were identified by text searches and verified with claim records. Injury characteristics were compared using proportionate injury ratios. Results Of 9826 ladder-related injuries, 7% resulted in fracture cases. Falls caused 89% of fractures and resulted in more medical costs and disability days than other injuries. Frequent mechanisms were ladder instability (22%) and lost footing (22%). Narrative text searches identified 17% more fractures than injury codes alone. Males were more likely to sustain a fall fracture than other injuries; construction workers were most likely, and retail workers were the least likely to sustain fractures. Conclusions Fractures are an important injury from ladder falls, resulting more serious consequences than other ladder-related injuries. Text analysis can improve the quality and utility of workers compensation data by identifying and understanding injury causes. Proportionate injury ratios are also useful for making cross-group comparisons of injury experience when denominator data are not available. Greater attention to risk factors for ladder falls is needed for targeting interventions.

Published

2005

30. Arm abduction strength and its relationship to shoulder geometry

Author

Simon Matz, Kai Nan An, and Krystyna Gielo-Perczak

Subjects

Adult, Male, Shoulder Joint, Movement, Biophysics, Neuroscience (miscellaneous), Geometry, Anatomy, Isometric exercise, Middle Aged, Magnetic Resonance Imaging, Biomechanical Phenomena, Coronal plane, Arm, Humans, Neurology (clinical), Muscle, Skeletal, Joint (geology), Mathematics, Muscle Contraction

Abstract

This study was conducted to test whether glenohumeral geometry, as measured through MRI scans, is correlated with upper arm strength. The isometric shoulder strength of 12 subjects during one-handed arm abduction in the coronal plane, in a range from 5 degrees to 30 degrees , was correlated with the geometries of their glenoid fossas. Seven parameters describing the glenohumeral joint geometry in the coronal plane were identified as having expected influence on shoulder strength. In addition to these, a new geometric parameter, named the area of glenoid asymmetry (AGA), was considered to reflect the concavity-compression mechanism as well as the inclination of the glenoid surface. As a result of the high correlation between the AGA and mean force and mean moment (0.80, p0.01 and 0.69, p

Published

2004

31. Disabling occupational injury in the US construction industry, 1996

Author

Theodore K. Courtney, Barbara S. Webster, and Simon Matz

Subjects

medicine.medical_specialty, Occupational injury, Indemnity, Wrist, Absenteeism, medicine, Back pain, Accidents, Occupational, Humans, Industry, Disabled Persons, business.industry, Public Health, Environmental and Occupational Health, medicine.disease, Low back pain, United States, Surgery, medicine.anatomical_structure, Construction industry, Physical therapy, Workers' Compensation, Accidental Falls, medicine.symptom, Ankle, business, Low Back Pain, Foot (unit)

Abstract

In 1996 the US construction industry comprised 5.4 % of the annual US employment but accounted for 7. % of nonfatal occupational injuries and illnesses and 9.7% of cases involving at least a day away from work. Information in the published literature on the disability arising from construction injuries is limited. The construction claims experience (n = 35, 790) of a large workers' compensation insurer with national coverage was examined. The leading types and sources of disabling occupational morbidity in 1996 in the US construction industry were identified. Disability duration was calculated from indemnity payments data using previously published methods. The average disability duration for an injured construction worker was 46 days with a median of 0 days. The most frequently occurring conditions were low back pain (14.8%), foreign body eye injuries (8.5%), and finger lacerations (4.8%). Back pain also accounted for the greatest percentage of construction claim costs (21.3%) and disability days (25.5%). However, the conditions with the longest disability durations were sudden-onset injuries, including fractures of the ankle (median = 55 days), foot (42 days), and wrist (38 days). Same-level and elevated falls were the principal exposures for fractures of the wrist and ankle, whereas elevated falls and struck by incidents accounted for the majority of foot fractures. Manual materials handling activities were most often associated with low back pain disability. The results suggest that these most disabling injuries can be addressed by increasing primary prevention resources in slips and falls and exposures related to injuries of sudden-onset as well as in reducing manual materials handling and other exposures associated with more gradual-onset injuries.

Published

2002

32. The slip resistance of common footwear materials measured with two slipmeters

Author

Simon Matz and Wen-Ruey Chang

Subjects

Measurement method, Analysis of Variance, Materials science, Correlation coefficient, Injury control, Friction, Accident prevention, Surface Properties, Mechanical engineering, Poison control, Physical Therapy, Sports Therapy and Rehabilitation, Human Factors and Ergonomics, Slip resistance, Tribology, In Vitro Techniques, Surface conditions, Shoes, Humans, Composite material, Safety, Risk, Reliability and Quality, Engineering (miscellaneous)

Abstract

The slip resistance of 16 commonly used footwear materials was measured with the Brungraber Mark II and the English XL on 3 floor surfaces under surface conditions of dry, wet, oily and oily wet. Three samples were used for each material combination and surface condition. The results of a one way ANOVA analysis indicated that the differences among different samples were statistically significant for a large number of material combinations and surface conditions. The results indicated that the ranking of materials based on their slip resistance values depends highly on the slipmeters, floor surfaces and surface conditions. For contaminated surfaces including wet, oily and oily wet surfaces, the slip resistance obtained with the English XL was usually higher than that measured with the Brungraber Mark II. The correlation coefficients between the slip resistance obtained with these two slipmeters calculated for different surface conditions indicated a strong correlation with statistical significance.

Published

2001

33. Contribution of gait parameters and available coefficient of friction to perceptions of slipperiness

Author

Wen-Ruey Chang, Mary F. Lesch, Simon Matz, and Chien-Chi Chang

Subjects

Adult, Male, Injury control, Gait kinematics, Friction, Biophysics, Poison control, Kinematics, Surface conditions, Gait (human), Floors and Floorcoverings, Statistics, Friction demand, Humans, Orthopedics and Sports Medicine, Coefficient of friction, Gait, Simulation, Mathematics, Foot, Rehabilitation, Regression analysis, Proprioception, Biomechanical Phenomena, Regression Analysis, Accidental Falls, Female, Perception, Safety, Available friction

Abstract

Perceived slipperiness rating (PSR) has been widely used to assess walkway safety. In this experiment, 29 participants were exposed to 5 floor types under dry, wet and glycerol conditions. The relationship between their PSR and objective measurements, including utilized coefficient of friction (UCOF), gait kinematics and available coefficient of friction (ACOF), was explored with a regression analysis using step-wise backward elimination. The results showed that UCOF and ACOF, as well as their difference, were the major predictors of the PSR under wet and glycerol conditions. Under wet conditions, the participants appeared to rely on the potential for foot slip to form their PSR. Under glycerol conditions, some kinematic variables also became major predictors of PSR. The results show how different proprioceptive responses and ACOF contributed to the prediction of PSR under different surface conditions.