Positive Secular Trend in Slovak Population Urges on Updates of Functional Dimensions of Furniture

The presented study is focused on the evaluation of the changes in weight and height of the adult population in Slovakia to provide updated information on the secular growth trend. The main objective was to identify and quantify the pace of gradual changes in the dimensions of the Slovak adult population, which is key ergonomic information for multiple disciplines. The measurements of weights, heights and body mass indices of the current adult population of Slovakia ranging from 26 to 94 years of age that were obtained in period 1993–2017 were compared with a sample of students studying at four Slovak universities during the same years (aged 18 to 25). The increase of mean heights was app. 0.104–0.203 cm per one year (or app. 1–2 cm per decade) for males and app. 0.031–0.178 cm per one year (or app. 0.3–1.8 cm per decade) for females was statistically confirmed at different age classes covering the age structure of the whole adult population. The positive secular height trends were manifested in weight and BMI increases too. The changes in means and variation of distributions of selected variables also cause changes in quantile values. For example, the 95% quantiles of heights derived for the period 1993–2003 only cover 92–93% of the heights in the current population. This fact could have a major impact on proposals for optimal and safe arrangement of work, residential and non-residential space, including the furniture production.

[1]  K. N. Dewangan,et al.  Anthropometric data of female farm workers from north eastern India and design of hand tools of the hilly region , 2008 .

[2]  T. Trnovec,et al.  Relationship between variation of seasonal temperature and extent of occupational exposure to phthalates , 2014, Environmental Science and Pollution Research.

[3]  James Mariachiara Gretchen A Bin Honor Melanie Léa James Bentham Di Cesare Stevens Zhou Bixby Cowan A century of trends in adult human height , 2016, eLife.

[4]  Matthew B. Parkinson,et al.  Predicting 5th and 95th Percentile Anthropometric Segment Lengths From Population Stature , 2008, DAC 2008.

[5]  K. Flegal,et al.  Increasing Prevalence of Overweight Among US Adults: The National Health and Nutrition Examination Surveys, 1960 to 1991 , 1994 .

[6]  C. C. Gordon,et al.  Secular trends of 22 body dimensions in four racial/cultural groups of American males , 1992, American journal of human biology : the official journal of the Human Biology Council.

[7]  M. Hitka,et al.  Load-carrying capacity and the size of chair joints determined for users with a higher body weight , 2018, BioResources.

[8]  R. Malina Secular trends in growth, maturation and physical performance: A review , 2004 .

[9]  Iman Dianat,et al.  Classroom furniture and anthropometric characteristics of Iranian high school students: proposed dimensions based on anthropometric data. , 2013, Applied ergonomics.

[10]  László Tóth,et al.  Multi-Sensory Informatics Education , 2014, Informatics Educ..

[11]  B Kayis,et al.  The anthropometry of Turkish army men. , 1991, Applied ergonomics.

[12]  M. Sebera,et al.  Major correlates of male height: A study of 105 countries. , 2016, Economics and human biology.

[13]  R. Hauspie,et al.  Secular changes in growth and maturation: an update , 1997, Acta paediatrica (Oslo, Norway : 1992). Supplement.

[14]  D. Prieto-Alhambra,et al.  Secular trends of use of anti-osteoporotic treatments in Spain: A population-based cohort study including over 1.5million people and more than 12years of follow-up. , 2017, Bone.

[15]  Ali Kasal,et al.  Static Front to Back Loading Capacity of Wood Chairs and Relationship between Chair Strength and Individual Joint Strength , 2016 .

[16]  T. Grladinović,et al.  Research on antropometric characteristics of high school students and ergonomic characteristics of high school furniture , 2002 .

[17]  Aldo M. Costa,et al.  Secular Trends in Anthropometrics and Physical Fitness of Young Portuguese School-Aged Children. , 2017, Acta medica portuguesa.

[18]  S. M. Zain,et al.  Evaluating Design Parameters for Breakthrough Curve Analysis and Kinetics of Fixed Bed Columns for Cu(II) Cations Using Lignocellulosic Wastes , 2014 .

[19]  T. Cole The secular trend in human physical growth: a biological view. , 2003, Economics and human biology.

[20]  Emilia Jarosz Anthropometry of elderly women in Poland: dimensions for design , 2000 .

[21]  Stef van Buuren,et al.  The world’s tallest nation has stopped growing taller: the height of Dutch children from 1955 to 2009 , 2013, Pediatric Research.

[22]  Matthew B. Parkinson,et al.  Anthropometry for a North American Manufacturing Population , 2009 .

[23]  Mao-Jiun J. Wang,et al.  The comparisons of anthropometric characteristics among four peoples in East Asia. , 2004, Applied ergonomics.

[24]  A. Prentice,et al.  Obesity in Britain: gluttony or sloth? , 1995, BMJ.

[25]  L. Rodrigues,et al.  Development of adiposity, obesity and age at menarche: an 8-year follow-up study in Portuguese schoolgirls , 2013, International journal of adolescent medicine and health.

[26]  B. Ulukol,et al.  Secular trends in height, weight and body mass index of primary school children in Turkey between 1993 and 2016 , 2017, Journal of pediatric endocrinology & metabolism : JPEM.

[27]  J. Knapik,et al.  Comparison of the physical fitness of men and women entering the U.S. Army: 1978-1998. , 2002, Medicine and science in sports and exercise.

[28]  Benjamin E. Lauderdale,et al.  The mysterious trend in American heights in the 20th century , 2007, Annals of human biology.

[29]  J. Hastuti Anthropometry and body composition of Indonesian adults : an evaluation of body image, eating behaviours, and physical activity , 2013 .

[30]  Gunvor Gard,et al.  Swedish anthropometrics for product and workplace design. , 2009, Applied ergonomics.

[31]  Larry G. Berglund,et al.  Assessment of male anthropometric trends and the effects on simulated heat stress responses , 2008, European Journal of Applied Physiology.

[32]  Height of conscripts in Europe: is postneonatal mortality a predictor? , 1995, Annals of human biology.

[33]  Ali Kasal,et al.  Effect of Tenon Size on Static Front to Back Loading Performance of Wooden Chairs in Comparison with Acceptable Design Loads , 2017 .

[34]  W. Tan,et al.  Secular trends in overweight and obesity among urban children and adolescents, 2003–2012: A serial cross-sectional study in Guangzhou, China , 2017, Scientific Reports.

[35]  Andrew Delios,et al.  How Can Organizations Be Competitive but Dare to Care , 2010 .

[36]  Alex F. Roche,et al.  Secular Trends in Stature, Weight, and Maturation , 1979 .

[37]  A. Deaton Height, health, and development , 2007, Proceedings of the National Academy of Sciences.

[38]  Christopher M. Schlick,et al.  Industrial Engineering and Ergonomics , 2009 .

[39]  Pierre Falzon,et al.  A strategy for human factors/ergonomics: developing the discipline and profession , 2012, Ergonomics.

[40]  S. Subramanian,et al.  Height of Nations: A Socioeconomic Analysis of Cohort Differences and Patterns among Women in 54 Low- to Middle-Income Countries , 2011, PloS one.

[41]  Oprişescu Ioana,et al.  Secular Trend of Growth in Height, Weight and Body Mass Index in Young Romanians Aged 18-24 Years☆ , 2014 .

[42]  Kenan Melemez,et al.  An analysis of biomechanical and anthropometric parameters on classroom furniture design , 2008 .

[43]  Markus Hartono,et al.  Anthropometry of the Singaporean and Indonesian populations , 2010 .

[44]  M. Brabec,et al.  Two centuries of growth among Czech children and youth. , 2006, Economics and human biology.

[45]  Bruce H Jones,et al.  Temporal Changes in the Physical Fitness of US Army Recruits , 2006, Sports medicine.

[46]  M. Mokdad,et al.  Anthropometric study of Algerian farmers , 2002 .

[47]  Christine M. Haslegrave,et al.  Bodyspace: Anthropometry, Ergonomics And The Design Of Work , 1986 .

[48]  Pedro Arezes,et al.  Anthropometric study of Portuguese workers , 2005 .

[49]  P Grasgruber,et al.  The role of nutrition and genetics as key determinants of the positive height trend. , 2014, Economics and human biology.

[50]  A. Parent,et al.  Secular trends in growth. , 2017, Annales d'endocrinologie.

[51]  I. Klement,et al.  Determining the Influence of Sample Thickness on the High-Temperature Drying of Beech Wood (Fagus sylvatica L.) , 2016 .

[52]  Gretchen A. Stevens,et al.  A century of trends in adult human height , 2016, eLife.

[53]  Miloš Gejdoš,et al.  Analysis of Work Accidents in Timber Transport in Slovakia , 2017 .

[54]  T J Cole,et al.  Secular trends in growth , 2000, Proceedings of the Nutrition Society.

[55]  Peter Hockicko,et al.  Development of students’ conceptual thinking by means of video analysis and interactive simulations at technical universities , 2015 .

[56]  J. Pfeffer Building Sustainable Organizations: The Human Factor , 2010 .

[57]  D. Loesch,et al.  Secular trend in body height and weight of Australian children and adolescents. , 2000, American journal of physical anthropology.

[58]  S. Lorincová,et al.  The proposal of innovation support in Small and Medium-sized Enterprises , 2015 .

[59]  J M Tanner,et al.  Growth as a measure of the nutritional and hygienic status of a population. , 1992, Hormone research.

[60]  M. Steyn,et al.  Secular trends in stature of late 20th century white South Africans and two European populations. , 2017, Homo : internationale Zeitschrift fur die vergleichende Forschung am Menschen.

[61]  G Bolstad,et al.  Anthropometry of norwegian light industry and office workers. , 2001, Applied ergonomics.

[62]  Zuzana Danihelová,et al.  Interactive Methods of Teaching Physics at Technical Universities , 2014, Informatics Educ..