Relationship between Sedentary Time and Handgrip Strength in Healthy Korean Women: Korea National Health and Nutrition Examination Survey 2014–2016
Article information
Abstract
Background
This study aimed to examine the association between sitting time and handgrip strength in healthy Korean women.
Methods
A total of 5,437 participants were included from the Korea National Health and Nutrition Examination Survey 2014–2016. The overall daily sitting time was estimated using health interview surveys, and handgrip strength was assessed using a digital hand dynamometer. The relationship between sitting time and handgrip strength was calculated with a weighted analysis of covariance after adjusting for confounding variables.
Results
Participants in each age group (19–39, 40–64, ≥65 years) were divided into three categories according to sitting time: ≤5, 6–9, and ≥10 h/d. The handgrip strength tended to decrease as sitting time increased after adjusting for age, body mass index, alcohol intake, cigarette smoking, resistance exercise, aerobic physical activity, household income, education level, hypertension, diabetes mellitus, dyslipidemia, and depression in all age groups (all P<0.001).
Conclusion
We observed the inverse relationship between sitting time and handgrip strength in healthy Korean women.
INTRODUCTION
The World Health Organization (WHO) has announced that physical inactivity can have grave implications for public health and considers sedentary lifestyle to be among the ten leading causes of mortality and disability worldwide in 2002. The term “sedentary,” Latin word for “sedere,” means “to sit”; thus, the term “sedentary lifestyle” is used to describe behaviors involving sedentary and low levels of energy expenditure, not only leisure sedentary time, including watching movies, but also productive sedentary time, including paperwork in an office [1,2]. In recent years, sedentary behavior has increased dramatically with a change in modern lifestyles. The number of manual workers has substantially reduced owing to technological developments, mechanization, and automation. Moreover, household chores have been simplified by household electrical appliances, which make things easier and reduce physical activity [2]. Physical inactivity increases the risk of several detrimental health issues, either directly or indirectly. Furthermore, previous studies have shown that increased sedentary time carries health risks of its own, independent of physical activity [1,3,4]. A dose-response association between sedentary time and mortality due to all causes and cardiovascular disease (CVD) was shown in a prospective study in Canada [3]. Another study showed that sedentary lifestyle in the elderly was associated with decreased muscle mass and increased risk of sarcopenia, independent of physical activity [4].
Sarcopenia is defined as the loss of muscle function and muscle mass. Sarcopenia is now regarded a major health issue, and the associated public health burden leads to obesity, osteoporosis, metabolic health, decreased quality of life, physical disabilities, depression and, ultimately, death [5]. To diagnose sarcopenia, muscle function, such as muscle strength and physical performance, and muscle mass should be assessed together. Measurement of handgrip strength is considered an easy and simple way to measure muscle function; thus, it is used to diagnose sarcopenia worldwide.
Previous studies on Korean people have reported on the association between sedentary time and development of health problems. However, these studies focused mainly on chronic diseases, such as CVD and type 2 diabetes. This study aimed to evaluate the association between sedentary time and sarcopenia measured by handgrip strength in healthy Korean women.
METHODS
1. Survey Overview and Study Population
This cross-sectional study used data acquired from the 2014–2016 Korea National Health and Nutrition Examination Survey (KNHANES). This consists of a nutrition survey, a health interview survey, and a health examination survey and was devised in 1998 to estimate the health and nutritional status of the Korean population. The Korea Centers for Disease Control and Prevention (KCDC) conducted this nationally representative survey. A total of 5,437 female participants, older than 19 years, were included from the 2014–2016 KNHANES. We excluded women whose sedentary time and/or handgrip strength data were missing; who were pregnant; who had a history of cancer or chronic diseases, which could influence sedentary time, such as hepatitis B, hepatitis C, liver cirrhosis, chronic kidney disease, angina, myocardial infarction, asthma, thyroid disease, osteoarthritis and rheumatoid arthritis; or who had a limitation of physical activity due to any reason. Participants were divided in to three groups according to age.
2. Data Collection of Study Population
During the 2014–2016 KNHANES, the participants were notified that their household has been randomly selected to participate voluntarily in a nationwide representative survey performed by the KCDC, and written informed consent was acquired from all participants. All citizens who agreed to participate had the right to withdraw at any time as per the National Statistics Law of Korea. The 2014–2016 KNHANES collected demographic, social, and health data of these participants. Covariates such as age, educational level, and household income were considered as socioeconomic factors. Health-related factors included alcohol intake, cigarette smoking, resistance exercise, and aerobic physical activity. Socioeconomic information was obtained from a health interview, while health-related behaviors were collected through a self-reported questionnaire. Current smoker was defined as current smoking status or those who had smoked more than 100 cigarettes during their lifetime. Alcohol intake was defined as more than 2–3 drinks per week based on queries on the participants’ average alcohol consumption frequency. Aerobic physical activity was measured according to the performance of aerobic activity as recommended by the WHO guidelines. Those who participated in at least 150 minutes or more of moderate-intensity activity per week or a combination of moderate- and high-intensity activity for 75 minutes or more per week were classified as “meets recommended guidelines”; all others were classified as “under recommended”. With regard to resistance exercise, participants were asked “How many days per week do you perform resistance exercises, such as push-ups, sit-ups, dumbbell exercises, weight lifting, and horizontal bar lifting?” The resistance exercise group consisted of subjects who performed resistance exercise 3 times or more per week. Trained medical staff performed the anthropometric measurements following a standardized procedure. Height and body weight were measured to the nearest 0.1 cm and 0.1 kg while participants wore light clothing without shoes. BMI was calculated as weight (kg) divided by the square of height (m2). Handgrip strength was measured using a digital hand dynamometer (Digital Grip Dynamometer, TKK 5401; Takei Scientific Instruments Co. Ltd, Tokyo, Japan) and was measured with the subject in a standing position with their arms fully extended at the sides, not touching the body. The participants were asked to exert maximum grip strength for <3 seconds, 3 times each with their left and right hands. At least 30 seconds of rest interval was allowed between each trial. Handgrip strength was defined as the maximally measured grip strength of the dominant hand.6) The overall daily sedentary time was estimated using the health interview survey, particularly the following question: “on average, how many hours per day do you sit down?” Responses were divided into three categories according to sedentary time: Q1, ≤5 h/d; Q2, 6–9 h/d; and Q3, ≥10 h/d considering the criteria of a previous study and population distribution in each age group [7].
3. Statistical Analysis
Sampling weights were used to account for the complex survey design of the KNHANES; therefore, we obtained valid estimates that represented all Korean female adults and avoided biased estimates. The characteristics of the study participants were analyzed according to age and sedentary time using a weighted one-way analysis of variance for continuous variables and a weighted chi-square test for categorical variables.
The trend and relationship of handgrip strength and sedentary time (h/d) were calculated with a weighted analysis of covariance. All statistical analyses were performed using IBM SPSS statistical software ver. 23.0 (IBM Corp., Armonk, NY, USA). A P-value <0.05 was considered significant.
RESULTS
Table 1 shows the participants’ general characteristics according to age. The total number of participants was 5,437. The proportion of cigarette smoking was highest in the 40–64-year-age group. The proportion of alcohol intake and aerobic physical activity was highest in the 19–39-year-age group. Participants in the 19–39-year-age group had the highest socioeconomic position, according to their household income and education level. Table 2 shows the demographic and clinical characteristics of 5,437 women according to sedentary time. The mean age, BMI, and proportion of aerobic physical activity decreased as sedentary time increased in women. The group who sat down for more than 10 h/d on average had the highest socioeconomic position, according to their household income and education level. Table 3 presents the independent relationship between handgrip strength and sedentary time according to the age group of participants: 19–39, 40–64 years, and ≥65 years, and the oldest participant was 80 years old. Handgrip strength tended to decrease as sedentary time increased after adjusting for age, BMI, alcohol ingestion, cigarette smoking, resistance exercise, aerobic physical activity, education level, household income, hypertension, diabetes mellitus, dyslipidemia, and depression.
DISCUSSION
In this large, representative sample of healthy Korean women, we found that sedentary time was inversely associated with handgrip strength. Our findings are in agreement with the results of previous studies. Many studies have shown that physical inactivity is generally associated with sarcopenia [8-10], and resistance exercise is considered the best to prevent sarcopenia [11,12]. Physical activity, such as walking, has been shown to be associated with a decreased risk of sarcopenia, as assessed by a dual energy X-ray absorptiometry in Korean elderly men from the KNHANES IV 2, 3 (2008–2009) [13]. Measurement of handgrip strength is a fast, simple, standard, and reliable scale to measure overall voluntary muscle strength, and it is considered an important value to define sarcopenia, as weak handgrip strength is associated with a low muscle mass and predictive of poor physical performance [14,15].
In this nationally representative cross-sectional study, we found that handgrip strength is inversely associated with sedentary time in the healthy Korean women regardless of age. This inverse association was maintained after controlling for potential confounding variables including age, BMI, cigarette smoking, alcohol ingestion, aerobic physical activity, resistance exercise, household income, education level, hypertension, diabetes mellitus, dyslipidemia, and depression. If sedentary time is increased, physical activity is decreased; the risk of sarcopenia is also increased, and it could be delineated by a weak handgrip strength [16].
This study has certain limitations that should be considered when interpreting the findings. Firstly, it is difficult to establish a causal relationship between sedentary time and handgrip strength in healthy Korean women as this study used a cross-sectional design. Thus, prospectively designed studies are necessary to clarify the relationship between sedentary time, sarcopenia, and handgrip strength. Secondly, this study was based on a questionnaire survey; thus, we could not fully exclude the effect of information bias. Self-reported sedentary time may be less accurate than objectively measured sedentary time. Thirdly, the questions used here did not distinguish between sedentary leisure time, such as time spent playing video games or watching television, and productive sedentary time, such as working on the computer. Since physical activity can be differentially associated with different types of sedentary pursuits [17], measurement of the total sedentary time without distinguishing between sedentary leisure time and productive sedentary time could affect the results. Finally, as there were no data on muscle mass in the 2014–2016 KNHANES, we had to use only handgrip strength and consider it to be a representative value of sarcopenia. However, even though handgrip strength has been widely accepted as the most efficient value for defining sarcopenia in recent years, several guidelines from European Groups Working on Sarcopenia in Older People (the Sarcopenia Working Group) or Asian Working Group for Sarcopenia still recommend the use of both muscle mass and muscle strength to diagnose sarcopenia. Therefore, further studies on the relationship between sedentary time and muscle mass in healthy Korean adults will be helpful to clarify the present study results.
Despite these potential limitations, to the best of our knowledge, this is the first population-based study to demonstrate a relationship between sedentary time and handgrip strength in healthy women. In conclusion, we demonstrated a significant inverse association between sedentary time and handgrip strength that may be associated with sarcopenia. Thus, public health intervention to reduce sedentary time or improve national physical performance is required to form a preventive perspective of sarcopenia.
Notes
No potential conflict of interest relevant to this article was reported.