Perspectives on exercise intensity, volume, step characteristics and health outcomes in walking for transport

Peter Schantz; Karin Sofia Elisabeth Olsson; Jane Salier Eriksson; Hans Rosdahl

doi:10.3389/fpubh.2022.911863

Perspectives on exercise intensity, volume, step characteristics and health outcomes in walking for transport

Front Public Health. 2022 Oct 21:10:911863. doi: 10.3389/fpubh.2022.911863. eCollection 2022.

Authors

Peter Schantz^{1

2}, Karin Sofia Elisabeth Olsson¹, Jane Salier Eriksson¹, Hans Rosdahl³

Affiliations

¹ The Research Unit for Movement, Health and Environment, Department of Physical Activity and Health, The Swedish School of Sport and Health Sciences, GIH, Stockholm, Sweden.
² Section of Sustainable Health, Department of Public Health and Clinical Medicine, Umeå University, Umeå, Sweden.
³ The Research Unit for Movement, Health and Environment, Department of Physiology, Nutrition and Biomechanics, The Swedish School of Sport and Health Sciences, GIH, Stockholm, Sweden.

Abstract

Background: Quantification of movement intensity and energy utilization, together with frequency of trips, duration, distance, step counts and cadence, is essential for interpreting the character of habitual walking for transport, and its potential support of health. The purpose of the study is to illuminate this with valid methods and novel perspectives, and to thereby provide a new basis for characterizing and interpreting walking in relation to health outcomes.

Methods: Habitual middle-aged commuting pedestrians (males = 10, females = 10) were investigated in the laboratory at rest and with maximal treadmill and cycle ergometer tests. Thereafter, levels of oxygen uptake, energy expenditure, ventilation, heart rate, blood lactate, rated perceived exertion, cadence, number of steps, duration, distance, and speed were recorded during the normal walking commute of each participant in Greater Stockholm, Sweden. The number of commutes per week over the year was self-reported.

Results: Walking in the field demanded about 30% more energy per km compared to level treadmill walking. For both sexes, the walking intensity in field was about 46% of maximal oxygen uptake, and energy expenditure amounted to 0.96 kcal · kg^- ¹ · km^- ¹. The MET values (males: 6.2; females: 6.5) mirrored similar levels of walking speed (males: 5.7; females: 5.9 km · h^- ¹) and levels of oxygen uptake (males: 18.6; females: 19.5 mL · kg^- ¹ · min^- ¹). The average number of MET-hours per week in a typical month was 22 for males and 20 for females. This resulted in a total weekly energy expenditure of ~1,570 and 1,040 kcal for males and females, respectively. Over the year, the number of walking commutes and their accumulated distance was ~385 trips and 800 km for both sexes.

Conclusion: Walking in naturalistic field settings demands its own studies. When males and females walk to work, their relative aerobic intensities and absolute energy demands for a given distance are similar. It is equivalent to the lower part of the moderate relative intensity domain. The combination of oxygen uptake, trip duration and frequency leads to high and sustained levels of MET-hours as well as energy expenditure per week over the year, with a clear health enhancing potential. Based on this study we recommend 6000 transport steps per day, or equivalent, during five weekdays, over the year, in order to reach optimal health gains.

Keywords: commuter walking; cycling; energy expenditure; exercise intensity; metabolic equivalent of task; rated perceived exertion; trip duration; trip frequency.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Energy Metabolism* / physiology
Female
Heart Rate / physiology
Humans
Male
Middle Aged
Outcome Assessment, Health Care
Oxygen
Walking* / physiology

Substances

Oxygen