Quantitative and Qualitative Criteria for Assessing Endurance in Women over 60 Years of Age – Findings from a Pilot Study

1. Gazmararian J.A., Elon L., Newsome K., Schild L., Jacobson K.L. (2013). A randomized prospective trial of a worksite intervention program to increase physical activity. American Journal of Health Promotion 28(1), 32-40.10.4278/ajhp.110525-QUAN-22023470188Search in Google Scholar

2. Shinkai S., Yoshida H., Taniguchi Y., Murayama H., Nishi M., Amano H. et al. (2016). Public health approach to preventing frailty in the community and its effect on healthy aging in Japan. Geriatrics & Gerontology International 16(1 Suppl.), 87-97.10.1111/ggi.1272627018287Search in Google Scholar

3. King A.C., Rejeski W.J., Buchner D.M. (1998). Physical activity interventions targeting older adults. A critical review and recommendations. American Journal of Preventive Medicine 15(4), 316-33.Search in Google Scholar

4. Bondarchuk A.P. (1988). Constructing a training system. Track Technique 102(1), 3254-3259.Search in Google Scholar

5. Corlett J.T.U. (1973). A system model of physical training and athletic performance. Brock University. Canada: Academic Press.Search in Google Scholar

6. Plowman S.A., Smith D.L. (2013). Exercise physiology for health fitness and performance. Philadelphia: Wolters Kluwer Health.Search in Google Scholar

7. Kuński H., Janiszewski M. (1999). Medicine of physical activity for educators. Łódź: Wydawnictwo Uniwersytetu Łódzkiego. [in Polish]Search in Google Scholar

8. Bohannon R.W., Wang Y.C., Gershon R.C. (2015). Two-minute walk test performance by adults 18 to 85 years: normative values, reliability, and responsiveness. Archives of Physical Medicine and Rehabilitation 96(3), 472-477.10.1016/j.apmr.2014.10.00625450135Search in Google Scholar

9. Chung P.K., Zhao Y., Liu J.D., Quach B. (2016). Functional fitness norms for community-dwelling older adults in Hong Kong. Archives of Gerontology and Geriatrics 65, 54-62.10.1016/j.archger.2016.03.00626987081Search in Google Scholar

10. Graham J.E., Fisher S.R., Berges I.M., Kuo Y.F., Ostir G.V. (2010). Walking speed threshold for classifying walking independence in hospitalized older adults. Physical Therapy 90(11), 1591-7.10.2522/ptj.20100018296770720705685Search in Google Scholar

11. Graham J.E., Ostir G.V., Kuo Y.F., Fisher S.R., Ottenbacher K.J. (2008). Relationship between test methodology and mean velocity in timed walk tests: A review. Archives of Physical Medicine and Rehabilitation 89(5), 865-72.10.1016/j.apmr.2007.11.029265976218452733Search in Google Scholar

12. Kavanagh T., Shephard R.J. (1976). Maximum exercise tests on “postcoronary” patients. Journal of Applied Physiology 40(4), 611-8.10.1152/jappl.1976.40.4.611931883Search in Google Scholar

13. Ko V., Naylor J.M., Harris I.A., Crosbie J., Yeo A.E. (2013). The six-minute walk test is an excellent predictor of functional ambulation after total knee arthroplasty. BMC Musculoskeletal Disorders 14, 145.Search in Google Scholar

14. Hall J., Grant J., Blake D., Taylor G., Garbutt G. (2004). Cardiorespiratory responses to aquatic treadmill walking in patients with rheumatoid arthritis. Physiotherapy Research International 9(2), 59-73.10.1002/pri.30315317421Search in Google Scholar

15. Brown-Rowat A., Jeans M.E. (1990). Professional and executive women: Health and lifestyle characteristics. Health Care for Women International 11(2), 133-49.10.1080/073993390095158842324025Search in Google Scholar

16. Clemons J., Harrison M. (2008). Validity and reliability of a new stair sprinting test of explosive power. The Journal of Strength & Conditioning Research 22(5), 1578-83.10.1519/JSC.0b013e31817ae91d18714229Search in Google Scholar

17. Laursen P. (1997). The impact of aging on cognitive functions. An 11 year follow-up study of four age cohorts. Acta Neurologica Scandinavica 172, 7-86.Search in Google Scholar

18. Oja P., Laukkanen R., Pasanen M., Tyry T., Vuori I. (1991). A 2-km walking test for assessing the cardiorespiratory fitness of healthy adults. International Journal of Sports Medicine 12(4), 356-62.10.1055/s-2007-1024694Search in Google Scholar

19. Apor P. (1992). Eurofit - program of the Committee of the European Council for the Advancement of Athletics. Orvosi Hetilap 133(13), 817. [in Hungarian]Search in Google Scholar

20. Rikli R.E., Jones C.J. (2013). Development and validation of criterion-referenced clinically relevant fitness standards for maintaining physical independence in later years. Gerontologist 53(2), 255-67.10.1093/geront/gns071Search in Google Scholar

21. Suni J.H., Oja P., Laukkanen R.T., Miilunpalo S.I., Pasanen M.E., Vuori I.M. et al. (1996). Health-related fitness test battery for adults: Aspects of reliability. Archives of Physical Medicine and Rehabilitation 77(4), 399-405.10.1016/S0003-9993(96)90092-1Search in Google Scholar

22. Rockwood K., Song X., MacKnight C., Bergman H., Hogan D., McDowel I. et al. (2005). A global clinical measure of fitness and frailty in elderly people. Canadian Medical Association Journal 173(5), 489-395.10.1503/cmaj.050051118818516129869Search in Google Scholar

23. Halaweh H., Willen C., Grimby-Ekman A., Svantesson U. (2015). Physical activity and health-related quality of life among community dwelling elderly. Journal of Clinical Medicine Research 7(11), 845-52.10.14740/jocmr2307w459626526491496Search in Google Scholar

24. Bastone Ade C., Ferriolli E., Teixeira C.P., Dias J.M., Dias R.C. (2015). Aerobic fitness and habitual physical activity in frail and nonfrail community-dwelling elderly. Journal of Physical Activity & Health 12(9), 1304-11.10.1123/jpah.2014-029025409003Search in Google Scholar

25. Kamegaya T., Araki Y., Kigure H. (2014). Twelve-week physical and leisure activity programme improved cognitive function in community-dwelling elderly subjects: A randomized controlled trial. Psychogeriatrics 14(1), 47-54.10.1111/psyg.1203824528600Search in Google Scholar

26. Lee S., Yuki A., Nishita Y., Tange C., Kim H., Kozakai R. et al. (2016). Research relationship between light-intensity physical activity and cognitive function in a community-dwelling elderly population: An 8-year longitudinal study. Journal of the American Geriatrics Society 61(3), 452-3.10.1111/jgs.1211923496180Search in Google Scholar

27. Martin K., Jarvis L.A., Beale B. (1997). Healthy lifestyle check: A computerized health screening program. Computering Nursing 15(2), 77-81.Search in Google Scholar

28. Gulias-Gonzalez R., Sanchez-Lopez M., Olivas-Bravo A., Solera-Martinez M., Martinez-Vizcaino V. (2014). Physical fitness in Spanish schoolchildren aged 6-12 years: Reference values of the battery EUROFIT and associated cardiovascular risk. Journal of School Health 84(10), 625-35.10.1111/josh.1219225154526Search in Google Scholar

29. Heimer S., Misigoj-Durakovic M., Ruzic L., Matkovic B., Prskalo I., Beri S. et al. (2004). Fitness level of adult economically active population in the Republic of Croatia estimated by EUROFIT system. Collegium Antropologicum 28(1), 223-33.Search in Google Scholar

30. Skowronski W., Horvat M., Nocera J., Roswal G., Croce R. (2009). Eurofit special: European fitness battery score variation among individuals with intellectual disabilities. Adapted Physical Activity Quarterly 26(1), 54-67.10.1123/apaq.26.1.5419246773Search in Google Scholar

31. Tsigilis N., Douda H., Tokmakidis S.P. (2002). Test-retest reliability of the Eurofit test battery administered to university students. Perceptual and Motor Skills 95(3 Suppl.), 1295-300.10.2466/pms.2002.95.3f.129512578274Search in Google Scholar

32. Vancampfort D., Probst M., Sweers K., Maurissen K., Knapen J., Willems J.B. et al. (2012). Eurofit test battery in patients with schizophrenia or schizoaffective disorder: Reliability and clinical correlates. European Psychiatry 27(6), 416-21.10.1016/j.eurpsy.2011.01.00921398095Search in Google Scholar

33. Vancampfort D., Sienaert P., Wyckaert S., De Hert M., Stubbs B., Rosenbaum S. et al. (2015). Test-retest reliability, feasibility and clinical correlates of the Eurofit test battery in people with bipolar disorder. Psychiatry Research 228(3), 620-5.10.1016/j.psychres.2015.05.04226165959Search in Google Scholar

34. Yurdalan S.U., Kondu S., Malkoc M. (2007). Assessment of health-related fitness in the patients with end-stage renal disease on hemodialysis: Using Eurofit Test Battery. Renal Failure 29(8), 955-60.10.1080/0886022070164133018067040Search in Google Scholar

35. Steffen T.M., Hacker T.A., Mollinger L. (2002). Age-and gender-related test performance in community-dwelling elderly people: Six-Minute Walk Test, Berg Balance Scale, Timed Up & Go Test, and gait speeds. Physical Therapy 82(2), 128-137.10.1093/ptj/82.2.12811856064Search in Google Scholar

36. Zatsiorsky V. (1979). Fundamentals of sports metrology. Moscow: Fizkultura i Sport. [in Russian]Search in Google Scholar

37. Takeshima N., Islam M.M., Rogers M.E., Rogers N.L., Sengoku N., Koizumi D. et al. (2013). Effects of Nordic walking compared to conventional walking and band-based resistance exercise on fitness in older adults. Journal of Sports Science & Medicine 12(3), 422-432.Search in Google Scholar

38. Marchewka A., Jungiewicz M. (2008). Physical activity in early years of life versus quality of life in old age. Gerontologia Polska 16(2), 127-130. [in Polish]Search in Google Scholar

39. Siordia C. (2012). Alternative scoring for Physical Activity Scale for the Elderly (PASE). Maturitas 72(4), 379-82.10.1016/j.maturitas.2012.05.009339823622717490Search in Google Scholar

40. Granger C.L., Parry S.M., Denehy L. (2015). The self-reported Physical Activity Scale for the Elderly (PASE) is a valid and clinically applicable measure in lung cancer. Supportive Care in Cancer 23(11), 3211-8.10.1007/s00520-015-2707-825808104Search in Google Scholar

41. Hosseini S.R., Zabihi E., Ghadimi R. (2015). Relationship between physical activity and medicine use among the older people in Amirkola, Babol, Iran (2011-2012). Caspian Journal of Social Medicine 1(1), 11-16.Search in Google Scholar

42. Monemi Amiri A., Hosseini S.R., Rahmaninia F., Nooreddini H., Bijani A. (2015). Relationship between bone mineral density and physical activity level in the elderly. Annals of Applied Sport Science 3(2), 23-32.10.18869/acadpub.aassjournal.3.2.23Search in Google Scholar

43. Wiktor K., Drozdzowska B., Czekajło A., Hebel R. (2010). Selected methods of evaluating functional capabilities in clinical practice. Annales Academiae Medicae Silesiensis 64, 76-81. [in Polish]Search in Google Scholar

44. Ismail N., Hairi F., Choo W.Y., Hairi N.N., Peramalah D., Bulgiba A. (2015). The Physical Activity Scale for the Elderly (PASE): Validity and reliability among community-dwelling older adults in Malaysia. Asia-Pacific Journal of Public Health 27(8 Suppl.), 62-72.10.1177/101053951559017926058900Search in Google Scholar

45. Jachimowicz V., Kostka T. (2009). Assessment of selfefficacy in the residents of older people homes. Gerontologia Polska 17(1), 23-31. [in Polish]Search in Google Scholar

46. Logan S.L., Gottlieb B.H., Maitland S.B., Meegan D., Spriet L.L. (2013). The Physical Activity Scale for the Elderly (PASE) questionnaire: Does it predict physical health? International Journal of Environmental Research and Public Health 10(9), 3967-86.10.3390/ijerph10093967379952923999546Search in Google Scholar

47. Ewald B., McEvoy M., Attia J. (2010). Pedometer counts superior to physical activity scale for identifying health markers in older adults. British Journal of Sports Medicine 44(10), 756-61.10.1136/bjsm.2008.04882718625631Search in Google Scholar