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Article

Does Depression and Anxiety Mediate the Relation between Limited Health Literacy and Diet Non-Adherence?

by
Ivana Skoumalova
1,2,3,*,
Andrea Madarasova Geckova
1,2,3,4,
Jaroslav Rosenberger
1,2,4,5,6,
Maria Majernikova
5,
Peter Kolarcik
1,2,3,4,
Daniel Klein
7,
Andrea F. de Winter
3,
Jitse P. van Dijk
2,3,4 and
Sijmen A. Reijneveld
3
1
Department of Health Psychology and Research Methodology, Faculty of Medicine, P.J. Safarik University, Trieda SNP 1, 040 01 Kosice, Slovakia
2
Graduate School Kosice Institute for Society and Health, Faculty of Medicine, P.J. Safarik University in Kosice, Trieda SNP 1, 040 01 Kosice, Slovakia
3
Department of Community & Occupational Medicine, University Medical Center Groningen, University of Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, The Netherlands
4
Olomouc University Social Health Institute, Palacky University, Univerzitni 22, 771 11 Olomouc, Czech Republic
5
FMC-Dialysis Services Slovakia, Trieda SNP 1, 040 01 Kosice, Slovakia
6
2nd Department of Internal Medicine, P.J. Safarik University, Trieda SNP 1, 040 01 Kosice, Slovakia
7
Institute of Mathematics, Faculty of Science, P. J. Safarik University, Jesenna 5, 040 01 Kosice, Slovakia
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2020, 17(21), 7913; https://doi.org/10.3390/ijerph17217913
Submission received: 31 August 2020 / Revised: 23 October 2020 / Accepted: 26 October 2020 / Published: 28 October 2020
Browse Figure
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Abstract

:
Limited health literacy (HL), depression and anxiety are common in dialyzed patients and affect health outcomes and self-management. We explored whether depression and anxiety mediate the association of HL with diet non-adherence (DN-A) in dialyzed patients. We performed a cross-sectional study in 20 dialysis clinics in Slovakia (n = 452; mean age: 63.6 years; males: 60.7%). Hierarchical cluster analysis was performed to create three HL groups. Logistic regression adjusted for age, gender and education was used to explore whether depression and anxiety mediate the association of HL with DN-A. Patients in the moderate HL group were more likely to be non-adherent to diet (OR (Odds Ratio)/95% CI: 2.19/1.21–3.99) than patients in the high HL group. Patients in the low HL and moderate HL group more likely reported depression or anxiety. Patients reporting depression (OR/95% CI: 1.94/1.26–2.98) or anxiety (OR/95% CI: 1.81/1.22–2.69) were more likely to be non-adherent with diet. Adjustment for depression reduced the association between moderate HL and DN-A by 19.5%. Adjustment for anxiety reduced the association between moderate HL and DN-A by 11.8%. Anxiety and depression partly mediated the association of HL with DN-A. More attention should be paid to treating patients’ psychological distress to ensure adequate adherence with recommended diet.

1. Introduction

Chronic kidney disease (CKD) is a rapidly increasing public health problem with a global prevalence of 8–16% [1,2]. CKD represents a great burden for the economy as well as for the health care system. Thus far, we have not succeeded in reversing the increasing prevalence of CKD nor its progression to more severe stages. Most of this burden is due to the final stage of CKD (stage 5 CKD). Stage 5 CKD considerably affects patients’ lives; it decreases physical functioning, affects mental health and social life [3] and thus represents a great challenge for public health policies and healthcare.
Effective treatment of stage 5 CKD in patients undergoing hemodialysis requires adequate diet adherence but may be hampered or facilitated by patients’ health literacy (HL) limitations and capacities. HL is defined as knowledge, motivation, and competence of patients to access, understand, appraise, and apply health information in order to make judgments and decisions in their everyday life concerning healthcare, disease prevention, and health promotion to maintain or improve their quality of life [4]. Limited HL is associated with adverse health outcomes such as more hospitalizations and cardiovascular events [5], higher mortality [6,7] and worse health related self-management, e.g., missed dialysis sessions [5] and non-adherence to diet and fluid intake recommendations [8]. Increasing a patient’s HL is also considered as a cost-effective intervention area to promote and maintain patients’ health [9,10].
Depression and anxiety are common in dialyzed patients [11,12,13,14]. The prevalence ranges from about 12 to 52% for anxiety and from about 23 to 42% for depression [15,16,17], among others depending on the assessment tools used. Depression and anxiety are both associated with impaired quality of life in dialyzed patients [18,19,20], and with worse health outcomes and increased mortality [21,22,23,24,25,26,27,28]. Furthermore, both are associated with withdrawal from dialysis [25,29], and with diet non-adherence [30,31]. Both anxiety and depression might thus hamper self-management behavior and cooperative engagement with health care providers needed for effective treatment and maintaining the quality of life of patients in this stage of the disease [12,32].
Research has shown a link of limited HL and non-adherence as well as the link of depression and anxiety and non-adherence, but their joint effects are still not fully clear and neither are the underlying mechanisms [33,34]. Patients with limited HL may have problems navigating the disease in its complexity and coping with its burden, which might result in increased levels of depression and anxiety. It is confirmed by research [32,34,35] that limited HL is associated with increased levels of depression and anxiety in dialyzed patients. Increased levels of depression and/or anxiety may affect diet adherence. HL may, therefore, have an indirect effect on diet non-adherence via depression and/or anxiety. As evidence on this mechanism is lacking, our aim was to assess the relation of HL, depression and anxiety with diet non-adherence and to assess whether anxiety and depression mediate the association of HL and diet non-adherence in hemodialyzed patients.

2. Materials and Methods

2.1. Sample and Procedure

The data were collected within a network of 20 dialysis clinics in Slovakia from January 2018 to November 2018. These dialysis clinics belong to the private dialysis network—Fresenius Medical Care-dialysis services in Slovakia and cover about 20% of the total Slovak dialysis population. We included patients aged over 18 years, with the diagnosis of stage 5 CKD and undergoing hemodialysis for at least 3 months. We excluded those who were not able to fill in the questionnaire (due to dementia or mental retardation, inability to read the Slovak language) and those who had an acute severe intercurrent illness, according to the medical records.
The patients were approached during their routine visit at the dialysis center. Those who agreed to participate in the study signed an informed consent and filled in questionnaires. We used the tablets with the data recorded on the online platform. Full confidentiality was assured with the personal identification code.

2.2. Ethics

The study was approved by the relevant ethics committees: the Ethics Committee of the Faculty of Medicine P.J. Safarik University (15N/2017) and the Ethics Committee of FMC-dialysis services.

2.3. Measures

Diet non-adherence was measured using a questionnaire. Respondents were asked: “How often do you break diet recommendations? Breaking diet recommendations means eating foods which are not recommended, respectively prohibited by the medical personnel.” with the 6 answers offered: (1) do not break; (2) once a month or less; (3) once per 2–3 weeks; (4) once a week; (5) 2–3 times a week; (6) always. For further statistical analyses, we dichotomized this variable as once a week or more vs. less to non-adherent with the diet vs. adherent, based on the disease specific guidelines [36], other research concerning adherence [37] and renal experts advise.
Health literacy (HL) was measured using the Slovak version of the Health Literacy Questionnaire (HLQ) [38]. It is a multidimensional tool for measuring nine domains of HL [39] (see Appendix A). These domains are related to accessing, understanding and using health information to manage one’s health. The questionnaire consists of nine, highly reliable domains of HL (Cronbach’s Alpha in our sample—0.90). There is no overall total score for this questionnaire; higher mean score in a particular domain indicates a better HL in that domain [39]. For further analyses of HL, we used the expectation maximization algorithm (EMA) [40] to replace missing HLQ scores. The EMA replaces missing scores per domain for each respondent. The condition, that a maximum of two values were missing for the domains with the 4–5 items and the maximum of three values are missing for the domain with the 6 items, had to be met [41]. We excluded respondents who had more missing values in a particular domain.
Next, we categorized this measure using hierarchical cluster analysis [42] on standardized z-scores of all HL domains. We created clusters of cases with similar HL characteristics. This method minimizes within-cluster variance in a stepwise manner leading to clusters that are as different as possible. Three clusters were used for further analyses (low HL group, moderate HL group, high HL group), representing different levels of HL consistently across all domains in a particular cluster. HLQ mean scores of 9 domains in three HL groups of patients are described in Figure 1.
Depression and anxiety were measured by the Hospital Anxiety and Depression Scale (HADS) [43,44,45], a 14-item questionnaire assessing depression (seven items; Cronbach’s Alpha—0.75) and anxiety (seven items; Cronbach’s Alpha—0.81) symptoms. The respondent was asked how he/she has been feeling in the past week. A Likert scale from 0 to 3 was used to assess the degree of the severity of the symptoms of depression and anxiety, leading to a total score for each subscale ranging from 0 to 21. Clinically, a score of 0–7 is considered as normal, 8–10 as borderline level, 11–21 as an abnormal level of depression/anxiety. We dichotomized this variable as no/low symptoms (<8) vs. moderate/severe symptoms (>8) of depression and anxiety [11,46,47,48].
Socio-demographic data (age, gender and education (lower: elementary and apprenticeship vs. higher: secondary and university)) were measured using the questionnaire.

2.4. Statistical Analyses

First, we assessed the socio-demographic characteristics, depression, anxiety and diet non-adherence of the sample. Second, we assessed the association between HL clusters (used as a categorical variable) with depression and anxiety (dichotomized) using logistic regression models adjusted for age (continuous) gender and education. Thirdly, we assessed the associations between HL clusters, depression and anxiety with diet non-adherence (yes/no), using logistic regression models adjusted for age, gender and education. We reported the odds ratio (OR) with 95% confidence interval (CI). Model 1 tested the association of HL groups, depression and anxiety each separately with diet non-adherence. Model 2 was adjusted separately for depression and anxiety. The degree of reduction in the ORs was computed using the formula: (OR (crude)—OR (adjusted)/(OR (crude)—1) × 100%. The listwise deletion of missing data was used in all logistic regression models. All statistical analyses were performed using SPSS v. 23.0 for Windows (IBM SPSS, 2015, Armonk, NY, USA).

3. Results

3.1. Baseline Characteristics

We included 567 dialyzed patients (70.1% of those approached); 25 patients were excluded due to not filling in the questionnaire related to HL properly, leading to a sample of 542 patients included in cluster analysis. In the next step, we excluded respondents with missing data on explored variables (n = 63) resulting in the final sample of 479 patients (mean age 63.6 years (standard deviation: 14.1 years). The time on dialysis in our sample ranged from 3 months to 36 years (mean = 5.3 years). The majority of our sample had low HL (31.5%) or moderate HL (55.3%). The patient group with high HL covered 13.2% of patients. Patients frequently reported depression (26.9%) and anxiety (32.2%). Non-adherence to diet recommendations was reported by 43.0% of patients (Table 1).

3.2. Associations of Health Literacy with Depression and Anxiety

We found that patients in the low HL group and moderate HL group were more likely to have moderate/severe symptoms of depression (low HL group OR 8.06; 95% CI: 2.74–23.70/moderate HL group OR 5.16; 95% CI: 1.78–14.91) and anxiety (low HL group OR 3.01; 95% CI: 1.45–6.27/moderate HL group OR 2.21; 95% CI: 1.09–4.46). Findings are described in Table 2.

3.3. Associations of Health Literacy, Depression and Anxiety with Diet Non-Adherence

We found that patients in the moderate HL group were more likely to be non-adherent to diet (OR 2.19; 95% CI: 1.21–3.99) than patients in the high HL group (Model 1, Table 3). Moreover, those patients with moderate/severe symptoms of depression (OR 1.94; 95% CI: 1.26–2.98) and moderate/severe symptoms of anxiety (OR 1.81; 95% CI: 1.22–2.69) were more likely to be non-adherent with diet (Model 1, Table 3).

3.4. Mediation Effect of Depression and Anxiety on the Relation of Hl with Diet Non-Adherence

Adjustment for depression and anxiety separately reduced the association between HL and diet non-adherence (Model 2, Table 3). Adjustment for depression reduced the association between moderate HL and diet non-adherence by 19.5%. Adjustment for anxiety reduced the association between moderate HL and diet non-adherence by 11.8%.

4. Discussion

In this cross-sectional study among dialyzed patients, we assessed the association of HL with diet non-adherence and the pathway through which depression and anxiety contribute to this association as mediators. We found that patients in the moderate HL group were more likely to be non-adherent with diet, but we did not confirm it in patients in the low HL group. This is in line with the research findings of Stømer et al. [49] who focused on HL of CKD patients and its association with adherence to lifestyle recommendations and brought similar findings to ours, that patients with moderate HL reported worse adherence than patients with higher HL, but they did not find low HL group to be significantly different than moderate or high HL group. As end stage renal disease (ESRD) is a result of long-term health problems and occurred frequently in the elderly, patients with low HL may already depend their diet adherence on caregivers (spouse, family members), or simplify their diet regime to avoid non-adherence. Another explanation might be that patients with low HL do not feel competent enough to question the healthcare providers’ opinions and recommendations, they do not search for other sources of information on diet and thus are more likely to adhere to the recommendations they obtain from health care providers within the dialysis care. On the contrary, research of Qobadi et al. [32] focused on HL in ESRD patients and its association with self-care behavior and found it to be worse in patients with inadequate HL than in patients with marginal or adequate HL. An explanation might be the use of a different measurement tool (S-TOFHLA) focusing on functional HL (reading and numeracy skills). Nevertheless, decreased HL capacities in finding, understanding, and acting upon relevant health information from health care providers or other sources of health information related to the disease apparently represent a barrier for adequate adherence.
We found that depression, as well as anxiety, partly mediated the association between lower HL and diet non-adherence. Qobadi et al. [32] also confirmed that depression and anxiety mediated the relation of HL and self-care in ESRD patients. The mediating role of depression and anxiety on the association of HL and adherence was confirmed also in other patient groups, as was shown by Lin et al. [50], who found that eHealth literacy had a direct and indirect effect, through psychological distress—depression and anxiety, on medication adherence in older patients with heart failure. In our sample, patients with lower HL were more likely to be depressed and anxious and this corresponds with the findings of Dodson et al. [34] and Qobadi et al. [32] who found that dialyzed patients with lower HL reported more symptoms of depression and anxiety than patients with higher HL. Moreover, those patients in our sample with moderate/severe symptoms of depression and anxiety were more likely to be non-adherent. The association of depression and anxiety with non-adherence was confirmed also by other research studies [30,31]. We interpret this as that increased levels of depression and anxiety in patients with limited HL may prevent them to use their, however limited, capacities to find, understand and act upon health information, which leads to the less effective management of their diet and to the decreased ability to adhere to diet recommendations. This may be explained also by decreased ability to communicate problems related to diet with relevant health care providers due to feelings of failure, passivity or feelings of uncertainty and thus to continue to eat foods that are not recommended.

4.1. Strengths and Limitations

The main strength of our study is the use of a representative sample covering approximately 20% of all dialyzed patients in Slovakia. We also used a set of instruments for measuring HL and depression and anxiety with good reliability. In addition, our study provides important information on the topic of psychological distress represented by the symptoms of depression and anxiety in dialyzed patients, which was not sufficiently studied to this date in relation to HL. The major limitation of our study is that we had a cross-sectional design which limits causal inferences, especially regarding mediation analysis. Another limitation is that we could not incorporate the information on the history of psychological diagnosis of depression and/or anxiety in our analyses, to address pathways.

4.2. Implications

Our findings on the mediating role of depression and anxiety in relation to HL and diet non-adherence imply that attention is needed to focus on early and regular screening for the symptoms of depression and anxiety and their treatment in dialyzed patients. Decreased capacities in HL may lead to the feelings of failure, frustration, passivity or uncertainty in relation to treatment and health improvement and thus result in decreased diet adherence. Feelings of confusion related to health information and treatment in connection to anxiety or depression may affect communication with health care providers, thus they should pay more attention to encourage patients to be active in participation and offer psychological support where needed.
Future research should aim for a deeper understanding of the pathways of the relation of HL and negative psychological status in dialyzed patients which affects their ability to adhere to prescribed treatment. Qualitative studies on this topic might help to identify other factors associated with psychological distress in dialyzed patients. Moreover, interventions are needed to combat depression and anxiety in dialyzed patients and thus maintain their health, quality of life, adequate cooperation with health care providers and adherence to treatment. Finally, experimental studies are required on whether interventions targeting depression and anxiety in dialyzed patients indeed increase levels of HL capacities and so improve diet adherence.

5. Conclusions

We found that patients with moderate HL were more likely to be non-adherent with diet; the same is true for patients who had moderate/severe symptoms of depression and/or anxiety. Depression, as well as anxiety, partly mediated the association between HL and diet non-adherence. The findings of our study contribute to the knowledge of the importance of increasing HL in dialyzed patients with the aim to improve their adherence to diet recommendations and of the importance of focusing on the role of depression and anxiety in the relation of HL and non-adherence. Considering both aspects (HL and psychological distress represented by present symptoms of depression and/or anxiety) may help to improve the overall health and quality of life of dialyzed patients.

Author Contributions

Conceptualization: P.K., A.M.G., J.R., M.M. Data curation: I.S., P.K. and J.R. Formal analysis: I.S., A.M.G. and D.K. Methodology: I.S., A.M.G., A.F.d.W. and S.A.R. Writing—original draft: I.S. Writing—review and editing: I.S., A.M.G., A.F.d.W., J.P.v.D. and S.A.R. All authors have read and agreed to the published version of the manuscript.

Funding

This work was supported by the Research and Development Support Agency under Contract No. APVV-16-0490 and the Contract No. APVV-17-0568.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Health Literacy Questionnaire—Detailed Description of the Measurement Tool

The Health Literacy Questionnaire (HLQ) consists of two parts. The first part is covering the domains 1–5 (feeling understood and supported by healthcare provider; having sufficient information to manage my health; actively managing my health; social support for health; appraisal of health information). The participants respond to the statements regarding health literacy skills and limitations on the Likert scale from 1 (strongly agree) to 4 (strongly disagree). The second part is covering the domains 6–9 (ability to actively engage with healthcare providers; navigating the healthcare system; ability to find good health information; understanding health information well enough to know what to do). The participants respond to the statements by choosing one of the five options reflecting their ability to perform certain tasks. These answering options are 1—Cannot do, 2—Very difficult, 3—Quite difficult, 4—Quite easy, 5—Very easy. The mean score for each domain is used for analysis. The domains 1–5 have a mean score ranging from 1 to 4; the domains 6–9 have a mean score ranging from 1 to 5.

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Ijerph 17 07913 g001 550
Figure 1. Health Literacy Questionnaire (HLQ) mean scores of 9 domains in three health literacy (HL) groups.
Figure 1. Health Literacy Questionnaire (HLQ) mean scores of 9 domains in three health literacy (HL) groups.
Ijerph 17 07913 g001
Table
Table 1. Characteristics of the total sample, gender, education, health literacy (HL), depression, anxiety and diet non-adherence (n = 479).
Table 1. Characteristics of the total sample, gender, education, health literacy (HL), depression, anxiety and diet non-adherence (n = 479).
CharacteristicsTotal Sample n (%)
Gender
  male287 (59.9)
  female192 (40.1)
Education
  lower237 (49.5)
  higher242 (50.5)
Health literacy
  low HL group151 (31.5)
  moderate HL group265 (55.3)
  high HL group63 (13.2)
Depression
  no symptoms350 (73.1)
  moderate/severe symptoms129 (26.9)
Anxiety
  no symptoms325 (67.8)
  moderate/severe symptoms154 (32.2)
Diet adherence
  adherent273 (57.0)
  non-adherent206 (43.0)
Table
Table 2. The association of HL with depression and anxiety adjusted for age and gender (n = 479).
Table 2. The association of HL with depression and anxiety adjusted for age and gender (n = 479).
Health LiteracyDepression OR (95% CI)Anxiety OR (95% CI)
High HL groupRef.Ref.
Moderate HL group5.16 (1.78–14.91) **2.21 (1.09–4.46) *
Low HL group8.06 (2.74–23.70) ***3.01 (1.45–6.27) **
* p < 0.05, ** p < 0.01, *** p < 0.001; Ref.: Reference category
Table
Table 3. The association of health literacy, depression and anxiety with diet non-adherence (Model 1) and the mediating effect (Model 2) of depression and anxiety in relation to HL and diet non-adherence. Logistic regression adjusted for age and gender (n = 479).
Table 3. The association of health literacy, depression and anxiety with diet non-adherence (Model 1) and the mediating effect (Model 2) of depression and anxiety in relation to HL and diet non-adherence. Logistic regression adjusted for age and gender (n = 479).
CharacteristicsModel 1 OR (95% CI)Model 2 OR (95% CI)
Health literacy
High HL groupRef.Ref.
Moderate HL group2.19 (1.21–3.99) **1.97 (1.07–3.61) *,1
Low HL group1.61 (0.85–3.06)1.34 (0.70–2.60)
Depression
No/low symptoms of depression Ref.Ref.
Moderate/severe symptoms of depression1.94 (1.26–2.98) **1.90 (1.22–2.96) **
Health literacy
High HL groupRef.Ref.
Moderate HL group2.19 (1.21–3.99) **2.05 (1.12–3.76) *,2
Low HL group1.61 (0.85–3.06)1.44 (0.75–2.77)
Anxiety
No/low symptoms of anxietyRef.Ref.
Moderate/severe symptoms of anxiety1.81 (1.22–2.69) **1.77 (1.19–2.65) **
* p < 0.05, ** p < 0.01. The degree of reduction in the ORs: (OR (crude)—OR (adjusted)/(OR (crude)—1) × 100%; 1 19.5%; 2 11.8%; Ref.: Reference category.
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Skoumalova, I.; Geckova, A.M.; Rosenberger, J.; Majernikova, M.; Kolarcik, P.; Klein, D.; Winter, A.F.d.; van Dijk, J.P.; Reijneveld, S.A. Does Depression and Anxiety Mediate the Relation between Limited Health Literacy and Diet Non-Adherence? Int. J. Environ. Res. Public Health 2020, 17, 7913. https://doi.org/10.3390/ijerph17217913

AMA Style

Skoumalova I, Geckova AM, Rosenberger J, Majernikova M, Kolarcik P, Klein D, Winter AFd, van Dijk JP, Reijneveld SA. Does Depression and Anxiety Mediate the Relation between Limited Health Literacy and Diet Non-Adherence? International Journal of Environmental Research and Public Health. 2020; 17(21):7913. https://doi.org/10.3390/ijerph17217913

Chicago/Turabian Style

Skoumalova, Ivana, Andrea Madarasova Geckova, Jaroslav Rosenberger, Maria Majernikova, Peter Kolarcik, Daniel Klein, Andrea F. de Winter, Jitse P. van Dijk, and Sijmen A. Reijneveld. 2020. "Does Depression and Anxiety Mediate the Relation between Limited Health Literacy and Diet Non-Adherence?" International Journal of Environmental Research and Public Health 17, no. 21: 7913. https://doi.org/10.3390/ijerph17217913

APA Style

Skoumalova, I., Geckova, A. M., Rosenberger, J., Majernikova, M., Kolarcik, P., Klein, D., Winter, A. F. d., van Dijk, J. P., & Reijneveld, S. A. (2020). Does Depression and Anxiety Mediate the Relation between Limited Health Literacy and Diet Non-Adherence? International Journal of Environmental Research and Public Health, 17(21), 7913. https://doi.org/10.3390/ijerph17217913

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