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Self-awareness of heart failure in the oldest old–an observational study of participants, ≥ 80 years old, with an objectively verified heart failure

Abstract

Background

One of the primary reasons for hospitalisation among elderly individuals with heart failure (HF) is poor self-care. Self-awareness of having HF may be a key-element in successful self-care. The prevalence of self-awareness of HF, and how it is affected by age-and HF-related factors, remains poorly understood. The aims of the present study were to determine the prevalence of self-awareness of HF in participants, ≥ 80 years of age, and to investigate the association between this self-awareness and age-related and HF-related factors.

Methods

A single-centre observational study was conducted in which non-hospitalised participants (80+) with objectively verified HF were identified (n = 90). The statement of having HF or not having HF was used to divide the participants into two groups for comparisons: aware or unaware of one’s own HF. Logistic regression models were completed to determine the impact of age-and HF-related factors on self-awareness.

Results

Twenty-six percent (23/90) were aware of their own HF diagnosis. No significant differences were found between the participants who were aware of their own HF diagnosis and the participants who were not. Neither age-nor HF-related factors had influence on the prevalence of self-awareness.

Conclusions

Prevalence of self-awareness of own HF in the oldest old is insufficient, and this self-awareness may be influenced by external factors. One such factor is likely the manner in which the HF diagnosis is relayed to the patient by health care professionals.

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Background

The prevalence of heart failure (HF) increases with age [1] and is as high as 22 % among the oldest old, i.e., people older than 80 [2]. Elderly individuals with HF are high consumers of healthcare, and poor HF-specific self-care is one of the primary reasons for hospitalisation [3]. One of the primary tasks of nurses is to ensure that the person they care for has the ability to conduct HF-specific self-care, and educational interventions conducted by nurses have been proven to improve such self-care in elderly HF patients [4]. However, the components that enable the elderly to engage in this specific self-care have yet to be determined [5].

For elderly individuals to conduct HF-specific self-care, a prerequisite is that the elderly individual is self-aware of having HF, i.e., the patient has been informed about the diagnosis and the information has been understood. Previous studies [68] that examined the prevalence of self-awareness of HF among patients over 45 years of age with HF found the prevalence to be between 25-46 %. Halling and Berglund [7] defined HF based on diagnosis by a primary care physician, regardless of if any objective examinations were the basis for the diagnosis or not. The risk is, therefore, that elderly were erroneously included or excluded in that study. Furthermore, Gure and colleagues [6] defined HF through Medicare claims, and, as the authors themselves noted, there is a financial incentive for healthcare systems to report HF-diagnoses to Medicare, even in cases in which an elderly patient has not been diagnosed with HF; i.e., participants in their study may have been incorrectly defined as having HF. Okura and colleagues [8] chose to examine both outpatient and inpatient medical records. A participant in the study by Okura et al. [8] was considered to have HF if the HF diagnosis was validated with two major criteria or one major and two minor criteria developed by the Framingham Heart Study [9]. According to the European Society of Cardiology (ESC) guidelines [10], HF is a syndrome and a diagnosis of it must be based on clinical signs and symptoms (i.e., dyspnoea, oedema or fatigue) in conjunction with an objective verification. Thus, an HF diagnosis should be verified with an electrocardiogram (ECG) and echocardiography or chest X-ray, and preferably also by measuring plasma concentrations of natriuretic peptides. Because none of the above-mentioned studies [68] used the ESC guidelines’ recommendations, the potential for selection bias may be present in all three studies. Thus, because of methodological issues in previous studies, some uncertainty remains regarding the prevalence of self-awareness of own HF diagnosis. Because the oldest old is the age group with the highest percentage of HF, this age group should be given priority when self-awareness of own HF-diagnosis is researched.

Self-awareness of having a particular illness is arguably crucial to make adequate health decisions and self-awareness may, therefore, be seen as a part of the individual’s health literacy. Thus, self-awareness should not only be influenced by how health information is communicated by the health care professionals [11], but also by age-related factors, such as cognitive impairment, dependency in daily functioning and depression [1215]. HF-related factors that could be expected to be related to self-awareness of own HF diagnosis ought to be the severity of the illness [6], i.e., functional capacity in relation to HF-symptoms. There should also be a relationship between the time span linking the date of the HF diagnosis to the date of the questioning, if the patient is aware.

In summary, to conduct HF-specific self-care, a self-awareness of own HF diagnosis needs to be present. There is a lack of studies that have investigated the prevalence of self-awareness of own HF diagnosis in the oldest old with an objectively verified HF, as well as factors associated with this self-awareness. Our hypothesis is that the prevalence of self-awareness of own HF diagnosis is low in the oldest old and that there is a relationship between this self-awareness and age- and HF-related factors. The purpose of the present study was to investigate the prevalence of self-awareness of one’s own HF and the association of age-and HF-related factors in people 80 years of age or older with objectively verified HF.

Methods

Population

Study participants were included over a relatively long period of time to build up a sufficient study group and overcome the impact of high mortality in this elderly cohort with HF. Therefore, the sample for the present study was collected from The Swedish National study on Aging and Care-Blekinge (SNAC-B). The SNAC-B study is a longitudinal, population-based cohort study, conducted in a middle-sized municipality in Sweden. At baseline (in 2001), the municipality contained approximately 60 600 inhabitants, and the municipality contains both rural and urban areas. The distribution of age, gender, and functional ability within this sample is similar to that of other rural and urban populations in medium-sized Swedish municipalities [16]. SNAC-B includes ten age cohorts (60, 66, 72, 78, 81, 84, 87, 90, 93 and 96 years), of which the four youngest cohorts were randomly selected and the oldest cohorts included all of the inhabitants in respective age cohorts. Invitation to participate was sent by mail, and those who did not respond to the written invitation were also invited to participate through a phone call. In total, 2 312 community residents were invited and 1 402 agreed to participate in SNAC-B [16]. Data from the SNAC-B study and the other SNAC sites are available after application to the principal investigator for each site. More information about available data and contact information can be found at https://snacsweden.wordpress.com/.

The methodology for the present study has previously been described [17], and implies reviews of inpatient records of those SNAC-B participants who were 80 years and older in 2012 (n = 1003) to identify participants with an objectively verified HF. Two hundred-and-forty-one participants had no computerized medical record and were therefore excluded. To be included in our study the participant’s inpatient record should include: (a) notes about HF symptoms (dyspnoea, oedema or fatigue); (b) a pathological ECG; and (c) an objective confirmation of the HF diagnosis by either echocardiography or chest X-ray. For inclusion in our study, the participant also had to be at least 80 years old when diagnosed with HF. Since self-awareness of own HF diagnosis and HF-specific self-care is equally important regardless of housing, participants were included irrespective of whether they lived in their own homes or in a sheltered accommodation. Participants. ≥ 80 years of age, were followed-up every three years between 2001 and 2012, i.e., at four different occasions (Fig. 1).

Fig. 1
figure 1

Flowchart of when informants ≥ 80 years old (in 2012) were diagnosed with heart failure (HF) (n = 265) and reasons for exclusion

Data collection and measurements

After giving written informed consent, the participants included in our study underwent the study examination. The date of the survey and demographic data were collected. If the participant was not able to answer the questions, an immediate family/primary caregiver was asked to assist. Specially trained nurses conducted the surveys at the research centre or in the participant’s own home, which was sometimes preferred to minimise the dropout rate. The study was conducted in accordance with the Declaration of Helsinki [18], and ethical approval was obtained from the Regional Research Ethics Committee at Lund University (LU 605–00, LU 744–00).

Assessing self-awareness

The participants were asked about HF in the following way: “Have you been diagnosed with HF?” (in the Baseline 2001–03 protocol) and “Have you in the last three years received the diagnosis of HF?” (in the following survey’s protocols). By combining the objective HF diagnosis and the answers on the HF-questionnaire in the survey that immediately followed the HF diagnosis, two groups were identified: one included participants who were aware of their diagnosis, and the other included participants who were unaware of having a diagnosis of HF.

Age-related factors

Cognitive ability

The Mini Mental State Examination (MMSE) measures cognition and has a maximum score of 30. Low scores indicate poor cognitive ability [19]. The cut-off scores suggested by Folstein, Folstein, McHugh, and Fanjiang [20] were used, i.e., > 27 = normal cognition; 21–26 = mild; 11–20 = moderate; and 0–10 = severe cognitive impairment. Due to a small sample size in the groups suffering from moderate and severe cognitive impairment, these two groups were merged.

Daily functioning

Because the performance of HF-specific self-care often involves complex interaction with the environment, and requires a certain level of cognitive functioning, this self-care is included as part of the instrumental activities of daily living (IADL) [21]. For this reason IADL was chosen to be used when evaluating the participants’ daily functioning. The capacity of participants to perform the instrumental activities: shopping, cooking, cleaning, and transportation were used to describe and compare the dependency in daily functioning. This brief instrument is considered to be sufficient to describe older people’s daily functioning [22]. The participants’ own statement of independence (defined as 0), or dependence (defined as 1) was obtained, and then summed to a total score and categorised according to the following: 0 = excellent daily functioning; 1 = mild impairment; 2 = moderate impairment; 3 = severe impairment; and 4 = total impairment in daily functioning.

Risk of depression

The Montgomery and Asberg Depression Rating Scale (MADRS) [23] is a 10-item scale rating risk for depression (score-range 0–60). In the present study, a shorter version with nine items of MADRS was used. The question regarding concentration difficulties has a low inter-item correlation [24] and was removed. Snaith et al.’s proposed cut-off criteria for the original version were used, i.e., no risk of depression = 0–6; mild risk = 7–19; moderate risk = 20–34, and ≥35 = high risk [25].

Heart failure-related factors

Functional capacity

New York Heart Association (NYHA) classification system measures functional capacity in relation to HF symptoms [26]. The participants’ own assessment of symptoms when physically active was obtained and were classified as follows: NYHA I = no symptoms during normal physical activity; NYHA II = symptoms (shortness of breath) when climbing a staircase one floor; NYHA III = symptoms when dressing; and NYHA IV = symptoms even at rest.

Time-span between diagnosis-survey

The time-span between the diagnosis and the following SNAC-B-survey was measured in months and summarized on an individual basis.

Statistical analysis

Data used for analyses were taken from the SNAC-B survey, which immediately followed a HF diagnosis, and missing data led to exclusion of the specific variable. To avoid low numbers in the cross table, cognition, daily functioning, functional capacity and risk for depression were dichotomised (normal cognition/impaired cognition; excellent daily functioning and mild impairment/moderate, severe, and total impairment in daily functioning; NYHA I/NYHA II-IV; risk for/no risk for depression). Categorisation, absolute numbers and proportions were used to describe the study participants and to determine which of the studied variables could be associated with the self-awareness of own HF diagnosis. Total scores are presented as means with standard deviation (SD) and 95 % confidence intervals (CI) for the mean. Differences between the groups aware/unaware were calculated using the Chi-square test for nominal data and the Mann–Whitney U test for interval data. Two logistic regression models (enter) were completed. Model one included only the HF-related factors and model two included both age-related and HF-related factors. Results are presented as odds ratios (OR) with 95 % confidence intervals (CI). The Hosmer-Lemeshow chi-square test was used to assess the models’ goodness-of-fit. To investigate interactions and collinearity among independent variables, tests for Variance Inflation Factor (VIF) were conducted and were found to be acceptable. A p-value of ≤ 0.05 was considered to be significant. All statistical analyses were performed using IBM SPSS Statistics for Windows (Version 22.0. Armonk, NY: IBM Corp).

Results

Out of 265 SNAC-B participants with a HF diagnosis in their inpatient record, 62 (23.4 %) were too ill for inclusion in the study, or died before self-awareness of their HF diagnosis could be established. Another 113 were excluded due to other reasons, detailed in Fig. 1. Ultimately, a total of 90 participants were included in our study. Neither gender differences nor differences in age at HF diagnosis were found between the excluded and the included individuals with HF (p = 0.186/0.730).

An average of 18.4 months (SD 14.6) passed between the date of the HF diagnosis and the date of the survey. The average age of the participants at the time of HF diagnosis was 85.9 years old (SD 4.9) and the majority of the participants were women (63.3 %). Physical and mental impairments were common, and 7 (8.5 %) lived in a sheltered accommodation. Impaired cognitive ability was found in 57 (63.3 %) participants, and 17 (18.9 %) were moderately/severely cognitively impaired. Two of these had so profound cognitive impairments that they received help from their spouses to answer the questions in the survey. Almost 30 % had a risk of depression, highly reduced functional capacity (NYHA III-IV) was present in 28 (31.3 %) of the participants, and 30 (33.7 %) had a severe or total need of assistance in their daily functioning.

Self-awareness of own HF diagnosis

One fourth (23/90) of the participants were self-aware of their own HF diagnosis, and self-awareness of own HF was equally distributed over the different years of the study (p = 0.093). Self-awareness of own HF diagnosis was often not present in high functioning participants, i.e., more than one in three participants were cognitively intact (i.e., MMSE total score ≥ 27 out of 30 possible), and 42 % were excellent functioning or only slightly impaired in their daily functioning. And, despite the fact that nearly 60 % demonstrated HF symptoms (i.e., NYHA II-IV), self-awareness of HF diagnosis was infrequent. Participants who were self-aware of their diagnosis were the same age at diagnosis, and they were equally mentally and physically impaired as the participants who were unaware of their diagnosis (p = 0.297 to 0.857). Additionally, the time-span between the date of the HF diagnosis and the date of the survey were the same between the two groups (p = 0.133). Thus, no association was found between self-awareness of own HF diagnosis and age-related or HF-related factors (Table 1).

Table 1 Description and comparison of individuals (≥80 years) with heart failure (HF) who were aware or unaware of this condition (n = 90)

To examine the independent variables’ collaborative influence on self-awareness of own HF diagnosis, two logistic regression analysis were performed. Also in collaboration, the investigated age-and HF-related factors were found to have no impact on self-awareness of own HF diagnosis (Table 2).

Table 2 Logistic regression (Enter) awareness of own heart failure HF coded as 1

Discussion

The most striking result of our study was that only a small percentage of the oldest old were aware of their diagnosis of HF. Our findings are consistent with previous studies [68] with different study designs, different age cohorts, and larger study populations. Thus, it appears that most individuals with HF are not aware that they have HF, including the oldest old. However, almost 20 % of the participants were moderately/severely cognitively impaired. This fact should have an impact on the result, especially since only two of the participants had the help of their spouses to answer the questionnaires. However, the logistic regression analysis (Table 2, Model 2) demonstrated that the degree of cognitive functioning did not have any impact on whether self-awareness of one’s own HF diagnosis was present or not. The non-significant results could, however, be a reflection of a small sample size. Nevertheless, the univariate analyses (Table 1) revealed an absence of a tendency for significant findings, and the study would have needed to be up to 30 times larger to reach significance in all of the included variables. Furthermore, even if the small differences in cognitive functioning that were made visible between the groups were significant, the clinical relevance of these findings could be questioned. Additionally, Gure and colleagues’ [6] included approximately 5600 elderly people in their study, and they also found that the degree of cognitive functioning was not related to self-awareness of one’s own HF diagnosis, as was shown in our study. Thus, the degree of cognitive functioning should have a minor impact on whether the oldest old with HF are self-aware of their own HF diagnosis or not, as was shown by our study.

According to Riegel, Dickson, and Faulkner [27], HF-specific self-care can be explained by the theory of naturalistic decision making (NDM). This theory explains human decision making in real life, and depends on the interaction between the decision-making person, the problem and the environment. The authors further reveal how several actors (both the ill person and health professionals) interact in most NDM situations and that the level of interest and commitment can vary between these two actors [27]. The manner in which health professionals provide information about the HF diagnosis (i.e., an environmental factor) can thus affect whether the ill person is aware of the diagnosis or not as well as if HF-specific self-care is conducted or not. Imprecise expressions such as “a bad heart” and “ventricular dysfunction” are often used by health professionals, when informing of HF diagnosis [28, 29], and the prevalence of self-awareness had probably been increased if more imprecise paraphrases of the term “heart failure” had been included in the HF-questionnaire. However, when health professionals use complex terminology, people with HF lose interest in the information provided [29], and the usage of euphemisms when informing patients about HF could be perceived as not recognising the severity of the illness, which may undermine the importance of conducting HF-specific self-care. Thus, the health professionals’ usage of the specific term “heart failure” when informing about the diagnosis should be regarded as an important factor for a successful NDM process and the conductance of HF-specific self-care. This assumption should therefore be further explored.

One of the strengths of the present study is that the study population was drawn from a large, representative, population-based study, with low internal loss of the studied variables. Thus, the results should be considered generalisable to the oldest old with HF. However, despite telephone calls to encourage participation in the study, 73/163 were never examined. Though, only 11 of these dropped out as a result of refusal. The majority (85 %) dropped out because they considered themselves to be too ill or were already deceased (Fig. 1). We chose to study the oldest old with HF, an elderly cohort known with high morbidity and mortality [30]. Consequently, the study’s generalisability to those oldest old who are very old or very morbid at HF diagnosis may be compromised. This, however, underscores the difficulty of studying the oldest old with HF. The chosen study design (to include study participants over a long period of time) has been used before [17], and increased the study population.

Additionally, the participants with HF had their diagnosis objectively verified. This ensures that the participants studied actually had HF. However, the excluded participants who had a non-objectively verified HF diagnosis (20 %) may well have had more HF markers (i.e., higher NYHA classification, higher dependency in daily functioning, etc.). An experienced physician may, therefore, have chosen to diagnose HF without conducting an objective verification, which would have led the participant to be wrongly excluded from our study. It could, therefore, be argued that the results may not be generalisable to individuals with more HF markers. However, the results of our study indicate that HF markers had no association with self-awareness of own HF diagnosis, indicating that the results should be generalisable also to the more seriously ill.

There are probably factors that, in conjunction with the manner in which the information of the HF diagnosis is communicated, can be related to the awareness of one’s own HF diagnosis. The psychological aspect of who/what the individual believes is responsible for their personal health, e.g., Health Locus of Control (HLOC) [31], may perhaps have a relationship with the self-awareness of the presence of HF. Initially, we included HLOC, but due to high internal dropouts, HLOC was later excluded. In our study, HLOC was completed independently by the participant, which may be difficult for the cognitively impaired. Most of our participants were cognitively impaired, which could explain the high internal dropout rate. This fact further illustrates the difficulty in studying the oldest old with HF. However, by the use of the study design presented herein, we managed to establish the relationship between self-awareness of one’s own HF diagnosis and those interpersonal factors that are typically studied in HF trials.

Conclusions

There is a low prevalence of self-awareness of HF in the oldest old. Factors that could be linked to elderly with HF were found to have no association with this awareness. Thus, external circumstances such as the manner in which the elderly patients are informed about HF, in conjunction with interpersonal factors not covered by the present study, may have a higher impact on the self-awareness of own HF diagnosis than the age- and HF-related factors investigated in this study. This relationship should therefore be further investigated.

Abbreviations

CI:

Confidence intervals

ECG:

Electrocardiogram

ESC:

European society of cardiology

HF:

Heart failure

HLOC:

Health locus of control

IADL:

Instrumental activities of daily life

MADRS:

The montgomery and asberg depression rating scale

MMSE:

The mini mental state examination

NYHA:

New York heart association classification system

OR:

Odds ratio

SD:

Standard deviation

SNAC-B:

Swedish national study on aging and care-blekinge

References

  1. Hancock HC, Close H, Mason JM, Murphy JJ, Fuat A, Singh R, et al. High prevalence of undetected heart failure in long-term care residents: findings from the Heart Failure in Care Homes (HFinCH) study. Eur J Heart Fail. 2013;15(2):158–65. doi:10.1093/eurjhf/hfs165.

    Article  PubMed  Google Scholar 

  2. Tiller D, Russ M, Greiser KH, Nuding S, Ebelt H, Kluttig A, et al. Prevalence of symptomatic heart failure with reduced and with normal ejection fraction in an elderly general population–the CARLA study. PLoS One. 2013;8(3), e59225.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  3. Murray M, Tu W, Wu J, Morrow D, Smith F, Brater D. Factors associated with exacerbation of heart failure include treatment adherence and health literacy skills. Clin Pharmacol Ther. 2009;85(6):651–8. doi:10.1038/clpt.2009.7.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  4. Boyde M, Turner C, Thompson DR, Stewart S. Educational interventions for patients with heart failure: a systematic review of randomized controlled trials. J Cardiovasc Nurs. 2011;26(4):E27–35.

    Article  PubMed  Google Scholar 

  5. Moser DK, Watkins JF. Conceptualizing self-care in heart failure: a life course model of patient characteristics. J Cardiovasc Nurs. 2008;23(3):205–18. doi:10.1097/01.JCN.0000305097.09710.

    Article  PubMed  Google Scholar 

  6. Gure TR, McCammon RJ, Cigolle CT, Koelling TM, Blaum CS, Langa KM. Predictors of self-report of heart failure in a population-based survey of older adults. Circ Cardiovasc Qual Outcomes. 2012;5(3):396–402. doi:10.1161/CIRCOUTCOMES.111.963116.

    Article  PubMed  PubMed Central  Google Scholar 

  7. Halling A, Berglund J. Concordance between elderly patients’ understanding of and their primary healthcare physician’s diagnosis of heart failure. Scand J Prim Health Care. 2006;24(2):110–4. doi:10.1080/02813430500428919.

    Article  PubMed  Google Scholar 

  8. Okura Y, Urban LH, Mahoney DW, Jacobsen SJ, Rodeheffer RJ. Agreement between self-report questionnaires and medical record data was substantial for diabetes, hypertension, myocardial infarction and stroke but not for heart failure. J Clin Epidemiol. 2004;57(10):1096–103. doi:10.1016/j.jclinepi.2004.04.005.

    Article  PubMed  Google Scholar 

  9. McKee P, Castelli W, McNamara P, McKee P, Castelli W, Kannel W, et al. The natural history of congestive heart failure: the Framingham study. N Engl J Med. 1971;285:1441–6. doi:10.1056/NEJM197112232852601.

    Article  CAS  PubMed  Google Scholar 

  10. Dickstein K, Cohen-Solal A, Filippatos G, McMurray JJ, Ponikowski P, Poole-Wilson PA, et al. ESC guidelines for the diagnosis and treatment of acute and chronic heart failure 2008 the task force for the diagnosis and treatment of acute and chronic heart failure 2008 of the European society of cardiology. Developed in collaboration with the heart failure association of the ESC (HFA) and endorsed by the European society of intensive care medicine (ESICM). Eur J Heart Fail. 2008;29(19):2388–442. doi:10.1093/eurheartj/ehn561.

    Article  CAS  Google Scholar 

  11. Nielsen-Bohlman L, Panzer AM, Kindig DA. Health literacy: A prescription to end confusion. Committee on Health Literacy, Board on Neuroscience and Behavioral Health, Institute of Medicine of the National Academies: National Academies Press; Washington, D.C. 2004.

  12. Djernes J. Prevalence and predictors of depression in populations of elderly: a review. Acta Psychiatrca Scandinavica. 2006;113(5):372–87. doi:10.1111/j.1600-0447.2006.00770.x.

    Article  CAS  Google Scholar 

  13. Jagger C, Arthur AJ, Spiers NA, Clarke M. Patterns of onset of disability in activities of daily living with age. J Am Geriatr Soc. 2001;49(4):404–9. doi:10.1046/j.1532-5415.2001.49083.x.

    Article  CAS  PubMed  Google Scholar 

  14. Unverzagt FW, Gao S, Baiyewu O, Ogunniyi AO, Gureje O, Perkins A, et al. Prevalence of cognitive impairment data from the Indianapolis study of health and aging. Neurology. 2001;57(9):1655–62. doi:10.1212/WNL.57.9.1655.

    Article  CAS  PubMed  Google Scholar 

  15. Wolf MS, Gazmararian JA, Baker DW. Health literacy and functional health status among older adults. Arch Intern Med. 2005;165(17):1946–52. doi:10.1001/archinte.165.17.1946.

    Article  PubMed  Google Scholar 

  16. Rennemark M, Lindwall M, Halling A, Berglund J. Relationships between physical activity and perceived qualities of life in old age. Results of the SNAC study. Aging Ment Health. 2009;13(1):1–8. doi:10.1080/13607860802154416.

    Article  PubMed  Google Scholar 

  17. Selan S, Hellström A, Fagerström C. Impact of nutritional status and sleep quality on hospital utilisation in the oldest old with heart failure. Health & Aging Accepted: The Journal of Nutrition; 2015.

    Google Scholar 

  18. Gilder S. World medical association meets in Helsinki. Br Med J. 1964;2(5404):299–300.

    Article  CAS  PubMed  PubMed Central  Google Scholar 

  19. Folstein F, Folstein SE, McHugh PR. Mini-mental state: a practical method for grading the cognitive state of patients for the clinician. J Psychiatr Res. 1975;12(3):189–98.

    Article  CAS  PubMed  Google Scholar 

  20. Folstein F, Folstein SE, McHugh PR, Fanjiang G. Mini-mental state examination user’s guide. Psychological Assessment Resources: Odessa, FL; 2001.

    Google Scholar 

  21. Pendleton HM, Schultz-Krohn W. Pedretti’s occupational therapy: practice skills for physical dysfunction. 2013. Elsevier Health Sciences.

    Google Scholar 

  22. Sonn U, Asberg KH. Assessment of activities of daily living in the elderly. A study of a population of 76-year-olds in Gothenburg, Sweden. Scand J Rehabil Med. 1991;23(4):193–202.

    CAS  PubMed  Google Scholar 

  23. Montgomery SA, Asberg M. A new depression scale designed to be sensitive to change. Br J Psychiatry. 1979;134(4):382–9.

    Article  CAS  PubMed  Google Scholar 

  24. Lindwall M, Rennemark M, Halling A, Berglund J, Hassmén P. Depression and exercise in elderly men and women: findings from the Swedish national study on aging and care. J Aging Phys Act. 2007;15(1):41–55.

    Article  PubMed  Google Scholar 

  25. Snaith R, Harrop F, Newby TD, Teale C. Grade scores of the montgomery-åsberg depression and the clinical anxiety scales. Br J Psychiatry. 1986;148(5):599–601. doi:10.1192/bjp.148.5.599.

    Article  CAS  PubMed  Google Scholar 

  26. Bennett JA, Riegel B, Bittner V, Nichols J. Validity and reliability of the NYHA classes for measuring research outcomes in patients with cardiac disease. Heart Lung. 2002;31(4):262–70. doi:10.1067/mhl.2002.124554.

    Article  PubMed  Google Scholar 

  27. Riegel B, Dickson VV, Faulkner KM. The situation-specific theory of heart failure self-care: revised and updated. J Cardiovasc Nurs. 2015.

  28. Rodriguez KL, Appelt CJ, Switzer GE, Sonel AF, Arnold RM. “They diagnosed bad heart”: a qualitative exploration of patients’ knowledge about and experiences with heart failure. Heart Lung. 2008;37(4):257–65. doi:10.1016/j.hrtlng.2007.09.001.

    Article  PubMed  Google Scholar 

  29. Barnes S, Gott M, Payne S, Seamark D, Parker C, Gariballa S, et al. Communication in heart failure: perspectives from older people and primary care professionals. Health Soc Care Community. 2006;14(6):482–90.

    Article  PubMed  Google Scholar 

  30. Oudejans I, Mosterd A, Zuithoff NP, Hoes AW. Comorbidity drives mortality in newly diagnosed heart failure: a study among geriatric outpatients. J Card Fail. 2012;18(1):47–52. doi:10.1016/j.cardfail.2011.10.009.

    Article  PubMed  Google Scholar 

  31. Wallston BS, Wallston KA, Kaplan GD, Maides SA. Development and validation of the health locus of control (HLC) scale. J Consult Clin Psychol. 1976;44(4):580–5.

    Article  CAS  PubMed  Google Scholar 

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Acknowledgements

We would like to thank the participants, the participating counties, and the municipal authority. The Swedish National Study on Aging and Care (SNAC) receives financial support from the Swedish Ministry of Health and Social Affairs and participating county councils, local authorities, and university departments. Finally, we would like to thank Lund University and Blekinge Institute of Technology for supporting this study.

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Correspondence to Suzana Selan.

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We declare that there is no conflict of interest.

Authors’ contributions

SS planned the study, and analysed the data. AS-L, JB, and CF advised statistical analyses. All authors participated in writing and discussion and had full access to all of the data (including statistical reports and tables) in the study. All authors can take responsibility for the integrity of the data and the accuracy of the data analysis. The final version of the manuscript has been read and approved by all authors.

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Selan, S., Siennicki-Lantz, A., Berglund, J. et al. Self-awareness of heart failure in the oldest old–an observational study of participants, ≥ 80 years old, with an objectively verified heart failure. BMC Geriatr 16, 23 (2016). https://0-doi-org.brum.beds.ac.uk/10.1186/s12877-016-0195-4

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  • Accepted:

  • Published:

  • DOI: https://0-doi-org.brum.beds.ac.uk/10.1186/s12877-016-0195-4

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