Daily Life Physical Activity, Quality of Life and Symptoms of Depression and Anxiety in Adult Patients with Type 2 Diabetes: A Preliminary Study ()
1. Introduction
Diabetes is a chronic medical condition, in which body cells cannot activate hormone insulin to move increased glucose from blood. In the US, 10.5% of adults are diabetic (Centers for Disease Control and Prevention, 2020), with 90% to 95% being diagnosed with Type 2 Diabetes (T2D). All T2D treatments require intensive blood sugar monitoring. In light of this challenge, blood glucose is often dysregulated, causing physical health diseases (e.g., cardiovascular or kidney diseases). Hence, diabetic patients report depression and anxiety twice as much as the general population (Anderson, Freedland, Clouse, & Lustman, 2001), and poor quality of life (QoL) (Daniele, Bruin, Oliveira, Pompeu, & Forti, 2013; Wändell, Brorsson, & Åberg, 1997). Easily-operated effective interventions are thus needed to improve depression/anxiety and QoL in T2D patients.
Physical exercise shows antidepressant and anxiolytic effects in clinical settings across various patients (Gordon, McDowell, Lyons, & Herring, 2017; Morres, Hatzigeorgiadis, Stathi, et al., 2019) including diabetic patients (e.g., Narita, Inagawa, Stickley, & Sugawara, 2019). However, exercise shows high dropouts in pragmatic settings (Crone, Johnston, Gidlow, Henley, & James, 2008). This is possibly due to increased operational demands, for example, the operation of exercise on prescription for depression demands group- and supervised-based moderate intensity exercise of 45 min/session, 3 sessions/week for 10 - 14 weeks, in sport and leisure facilities such as gyms (National Institute for Clinical Excellence [NICE], 2009). Alternatives to exercise with less operational demands are thus essential. Daily life physical activity (PA) is considered an alternative because it is associated with better mental health through the single operational demand of ≥150 min/week at moderate intensity (World Health Organization [WHO], 2020). Daily life PA has been related with improved mental health indices including depression or anxiety across various groups (Meira, Meneguelli, Leopoldo, & Florindo, 2020; Morres, Hatzigeorgiadis, Krommidas, et al., 2019), but relevant studies in exclusively diabetic patients are limited (Kim, 2018) and highly essential (Cezaretto, Ferreira, Sharma, Sadeghirad, & Kolahdooz, 2016). In light of the lack of previous research exploring the mental health correlators of daily life PA in T2D adult patients, this study examined whether daily life PA predicts improved depressive/anxiety symptoms and QoL in mature-adult patients with T2D.
2. Methodology
2.1. Participants
A total of 51 adults (♀ 56.9%) with T2D were recruited from a primary health unit for diabetes treatment within a period of 12 months. The mean age was 63.31 years; Standard Deviation (SD) = 13.88 (age range 34 - 93 years). The mean Body Mass Index (BMI) was 28.14; SD = 4.04, indicating that the sample was overweight.
2.2. Measures
The Godin-Shephard Leisure-Time PA Questionnaire (GSLTPAQ) (Godin & Shephard, 1985) was employed to assess Leisure Time PA (LTPA). This is a self-administrated 3-item scale. The three items record the weekly frequency a person participates in mild, moderate and vigorous LTPA for ≥15 minutes (each item includes examples of LTPA intensities). The total score of LTPA (defined as Leisure Score Index [LSI]), is the sum of the light, moderate and vigorous intensity PA frequencies multiplied, respectively, by the metabolic equivalents of 3, 5, and 9. With respect to health-related PA levels, the GSLTPAQ suggests that moderate-to-vigorous LSI of ≥24 or ≤23 correspond to active or insufficiently active lifestyle, respectively (Godin, 2011). The GSLTPAQ has been used in the Greek population (Bebetsos, Chasandra, & Matsouka, 2020).
Depression
The Patient Health Questionnaire-9 (PHQ-9) was employed to assess depression (Kroenke, Spitzer, & Williams, 2001). This self-report 9-item questionnaire assesses depressive symptom severity over the past two weeks on a 4-point severity scale. Total scoring ranges from 0 to 27, with higher scores indicating more severe symptoms of depression (relevant cutoff scores: 0 - 4 = minimal or none; 5 - 9 = mild; 10 - 14 = moderate; 15 - 19 = moderately severe; 20 - 27 = severe). A clinical condition and psychometric diagnosis of depression are considered when a score of ≥2 is recorded in items 1 or 2 and in five of the remaining seven items excluding item 9 which may also record a score of ≥1. The PHQ-9 has been previously used in the Greek population (Hyphantis et al., 2011).
Depression and Anxiety
Depression and anxiety symptoms were assessed with the self-report Hospital Anxiety and Depression scale (HADS) (Zigmond & Snaith, 1983). This 14-item questionnaire includes two 7-point subscales measuring anxiety or depressive symptom severity. Answers are organized on a 4-point Likert scale ranging from 0 to 3, with higher scores indicating more severe symptoms. The total score of HADS is the sum of the 14 items, and for each subscale the score is the sum of the corresponding seven items (ranging from 0 - 21). This tool has been used in the Greek population (Michopoulos et al., 2008).
Quality of Life
The SF-12 Health Survey was employed to assess health related QoL (Ware, Kolinski, & Keller, 1996). There is a self-report questionnaire with items scoring on a Likert scale. This questionnaire is a widely used to assess health related QoL aspects referred to physical and mental health. These aspects include physical limitations, dysfunction due to physical health problems or due to emotional health problems, social functioning, emotional wellbeing, energy, pain, fatigue, and global health perceptions. Higher scoring indicates better quality of life. A score of <35 indicates poor QoL. The SF-12 has been previously used in the Greek population (Kontodimopoulos, Pappa, Niakas, & Tountas, 2007).
2.3. Statistical Analysis
Means and SDs, Cronbach’s Alpha and spearman correlation coefficients were computed for all variables of interest. Three hierarchical regressions analyses examined the degree to which days of PA at light, moderate or vigorous intensity could predict QoL, anxiety, and depression. In all analyses, age and BMI were entered in the first step to account for the effect of age and BMI on the dependent variables, which were identified through the correlation analysis, whereas days of PA at low, moderate or vigorous intensity were entered in the second step.
3. Results
Descriptive statistics, Cronbach’s alpha coefficients for the scales are presented in Table 1. Correlations between all variables are presented in Table 2. The
| Descriptives | Cronbach’s Alpha |
Mean | Standard Deviation |
Quality of Life | 38.47 | 9.71 | 0.93 |
Anxiety | 8.27 | 5.28 | 0.89 |
Depression | 6.90 | 4.43 | 0.85 |
Light intensity PA (days) | 3.45 | 2.02 | |
Moderate intensity PA (days) | 1.80 | 2.20 | |
Vigorous intensity PA (days) | 0.49 | 1.35 | |
翻译:
Table 1. Descriptive statistics, reliability coefficients and correlations (N = 51).
PA: Physical Activity.
| 1 | 2 | 3 | 4 | 5 |
1. Quality of Life | | | | | |
2. Anxiety | −0.70** | | | | |
3. Depression | −0.82** | 0.71** | | | |
4. Light intensity PA (days) | 0.61** | −0.47** | −0.55** | | |
5. Moderate intensity PA (days) | 0.48** | −0.29* | −0.49** | 0.55** | |
6. Vigorous intensity PA (days) | 0.16 | 0.04 | −0.04 | 0.15 | 0.50** |
翻译:
Table 2. Correlation coefficients.
* Significant result at p < 0.05; ** Significant result at p < 0.01.
reliability of all scales was satisfactory, ranging from 0.85 to 0.93. In one out of three participants (32%) the mean score for QoL was <35 indicating poor QoL. The PHQ-9 algorithms indicated that 25% of the participants recorded a score that corresponded to a psychometric diagnosis of major depression. The HADS algorithms indicated that the average scores for anxiety and depression were low to moderate; also, 22% and 30% of the participants recorded at least moderate scores in depression and anxiety (≥11), respectively. Based on the GSLTPAQ (Godin, 2011), participants reported on average 3.45 days of light, 1.8 days of moderate and 0.5 days of vigorous intensity PA per week. The GSLTPAQ average unit calculated from all PA intensities rated our sample as moderately active to active (Mean of GSLTPAQ unit = 23.78; SD = 23.17). The health-related average unit of GSLTPAQ (calculated from moderate and vigorous PA intensities), rated our sample as insufficiently active (Mean of health-related GSLTPAQ unit = 13.43; SD = 20.09). Finally, days of PA at moderate and light but not at vigorous intensity showed moderate negative correlations with anxiety and depression and moderate positive correlations with QoL.
The first hierarchical regression treated QoL as a dependent variable. In the first step of the analysis, age and BMI predicted 11.3 % of the QoL variance, F (2, 48) = 3.04, p = 0.05. Only BMI (beta = −0.28) contributed significantly to the prediction of QoL. In the second step, the introduction of PA raised the prediction to 40% of the variance, F (2, 45) = 6.04, p < 0.001. In this step, days of PA at light intensity were the stronger predictor of QoL (beta = 0.46). Results are presented in Table 3. The second hierarchical regression treated anxiety scores (from HADS subscale) as a dependent variable. In the first step of the analysis, age and BMI predicted 5.5% of the anxiety variance, however, the prediction was not significant, F (2, 48) = 1.39, p = 0.26. In the second step, the introduction of PA raised the prediction to 30.1% of the variance, F (2, 45) = 3.88, p < 0.01. In this step, days of PA at light intensity were the stronger (beta = −0.33) and sole significant predictor of anxiety. Results are presented in Table 4. The third hierarchical regression treated depression (from HADS subscale) as a dependent variable. In the first step of the analysis, age and BMI predicted 12.9% of the
| | R2 | F | beta | t | p |
Step 1 | | 0.112 | 3.04 | | | |
| Age | | | −0.193 | −1.42 | 0.163 |
| Body mass index | | | −0.281 | −2.07 | 0.044 |
Step 2 | | 0.401 | 6.04 | | | |
| Light intensity PA (days) | | | 0.468 | 3.177 | 0.003 |
| Moderate intensity PA (days) | | | 0.214 | 1.300 | 0.200 |
| Vigorous intensity PA (days) | | | −0.028 | −0.204 | 0.840 |
翻译:
Table 3. Regression analysis for quality of life (SF-12).
PA: Physical Activity.
| | R2 | F | beta | t | p |
Step 1 | | 0.055 | 1.390 | | | |
| Age | | | −0.099 | −0.704 | 0.485 |
| Body mass index | | | 0.208 | 1.484 | 0.144 |
Step 2 | | 0.301 | 3.882 | | | |
| Light intensity PA (days) | | | −0.473 | −2.968 | 0.005 |
| Moderate intensity PA (days) | | | −0.150 | −0.844 | 0.403 |
| Vigorous intensity PA (days) | | | 0.183 | 1.248 | 0.219 |
翻译:
Table 4. Regression analysis for anxiety (HADS-anxiety).
PA: Physical Activity.
depression variance, F (2, 48) = 3.54, p < 0.05. In the second step, the introduction of PA raised the prediction to 39% of the variance, F (2, 45) = 5.77, p < 0.01. In this step, days of PA at moderate (beta = −0.37) and light (beta = −0.33) intensity were the stronger and significant predictors of depression. Results are presented in Table 5.
4. Discussion
This study has found that daily life PA at light intensity for 3.45 days/week and at moderate intensity for 1.8 days/week predicted improved depression in T2D mature adults. Only light intensity PA predicted improved anxiety and QoL. The antidepressant predictive effects of light and moderate intensity PA in our study is partially replicating previous studies such as the study from Morres, Hatzigeorgiadis, Krommidas, et al. (2019), in which moderate, but not light, intensity PA predicted lower depression in major depressed middle-aged adult patients. Light intensity PA may thus represent an equally vital antidepressant factor to moderate intensity PA in T2D mature adults. The antidepressant impact of both PA intensities receives additional merit, as our sample was insufficiently active and 25% showed depression algorithms corresponding to a psychometrically diagnosed major depression. Hence, the promotion of PA could consider that even insufficient daily life PA levels at low or moderate intensity may contribute to lower depression in T2D patients. Light rather than moderate intensity warrants further attention due to links to decreased risk for injuries.
Light but not moderate intensity daily life PA predicted lower anxiety in our sample. This finding is not in concordance to the mainstream notion given that moderate intensity PA is widely recommended for better mental health (WHO, 2020). However, the anxiolytic effect of low intensity PA in various populations including T2D mature adults has been repeatedly recorded. For example, the Bartholomew and Linder (1998) trial demonstrated that light intensity PA decreased state anxiety, whereas moderate intensity PA increased state anxiety. Also, meta-analytic studies have reported important anxiolytic effects for light rather than for moderate intensity PA (Wipfli, Rethorst, & Landers, 2008). It is,
| | R2 | F | beta | t | p |
Step 1 | | 0.129 | 3.540 | | | |
| Age | | | 0.198 | 1.468 | 0.146 |
| Body mass index | | | 0.306 | 2.272 | 0.028 |
Step 2 | | 0.390 | 5.765 | | | |
| Light intensity PA (days) | | | −0.328 | −2.208 | 0.032 |
| Moderate intensity PA (days) | | | −0.374 | −2.255 | 0.029 |
| Vigorous intensity PA (days) | | | 0.205 | 1.494 | 0.142 |
翻译:
Table 5. Regression analysis for depression (HADS-depression).
PA: Physical Activity.
therefore, important to consider a non-anxiety inducing social milieu and environmental setting when choosing T2D adults to participate in daily life PA. Apart from anxiolytic predictive effects, daily life PA at light intensity showed also predictive effects on better QoL. This finding is highlighted by the fact that T2D patients experience lower levels of QoL compared to the general population (Daniele et al., 2013; Wändell et al., 1997). In line, 32% of our sample showed an average score in the SF-12 that was indicative of a QoL that was poor and below the general population norms (Ware et al., 1996).
The prediction of improved anxiety/depression and QoL by daily life PA at mainly light intensity should be interpreted in combination to a 2-fold consideration. First, daily life PA is linked to mental health through the single operational demand of the accumulation of ≥150 min/week of moderate intensity (WHO, 2020). In contrast, exercise, which is widely linked to and recommended for better depression/anxiety and QoL, shows high dropouts possibly due to increased operational demands. Second, we found that daily life PA predicted improved depression/anxiety and QoL although our sample was insufficiently active lifestyle according to the GSLTPA algorithms. Both considerations suggest the multiple benefits of daily life PA, given that daily life PA in our study was related with improved disease specific symptoms such as depression and anxiety and, at the same time, with improved wellbeing indices such as quality of life. Both considerations provide us also with the opportunity to speculate that even low levels of daily life PA at mainly low intensity could be potentially emerged as a more sustainable strategy for improved depression/anxiety and QoL in comparison to exercise. This speculation highlights, in turn, the need to take into account various practical aspects. These aspects are mainly referring to the need to create and satisfy applicable practicalities for giving the opportunity to perform daily life PA at light intensity. Applicable practicalities related to daily life PA include fast track accessibility to recourses such as leisure time facilities adapted to the needs/preferences of T2D adults.
5. Conclusion
The findings of this study revealed a beneficial association of daily life PA with better QoL and improved depression and anxiety. Daily life PA in particular at low intensity, seemed to be playing a key role in predicting lower symptoms of depression and anxiety and better QoL. Based on the study findings, the scientific community may consider that various social implications are emerged including provision of T2D adults with applicable opportunities for light intensity PA participation in daily life. Our study findings, however, need to be carefully interpreted because the sample size was small. Also, the cross-sectional design of the study does not enable cause and effect interpretations. Future research should therefore examine the antidepressant/anxiolytic and QoL effects of daily life PA through randomized controlled trials in larger samples of T2D adults. In this vein, firmer conclusions will be drawn.