Prevalence and incidence of frailty among community-dwelling older adults in Slovenia
Article Category: Original scientific article
Data publikacji: 28 cze 2021
Zakres stron: 190 - 198
Otrzymano: 05 sie 2020
Przyjęty: 27 maj 2021
DOI: https://doi.org/10.2478/sjph-2021-0027
Słowa kluczowe
© 2021 National Institute of Public Health, Slovenia, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Frailty is recognized as one of the most important global health challenges as the population is aging worldwide (1). Frailty is an age-related syndrome characterized by a “decline in functioning across multiple physiological systems, accompanied by an increased vulnerability to stressors” (2, 3, 4). Older adults with frailty are at increased risk of adverse health outcomes and death (2).
The prevalence and incidence of frailty vary among studies due to differences in the methods that define frailty and population used. The prevalence of frailty in community-dwelling older adults is reported to be around 11% (range 4-59%) (2, 5). There are fewer studies reporting the incidence of frailty, but recent meta-analysis found 4.6% overall incidence of frailty (range 1-20%) among non-frail individuals at baseline and with a median follow-up of 3 years (6).
The information on the prevalence of frailty in Slovenia is limited to a few studies. Overall prevalence of frailty among older adults aged 50 years and older was reported in two studies (7, 8). Age-standardized prevalence of frailty in this age range in Slovenia was 7.6% (7.4-7.8) (8). Both studies also reported higher prevalence with age and in women, but no other associated factors were explored. Another study showed the association of several characteristics and frailty, on a smaller convenience sample of older adults from one community health centre (9). No multiple regression model was used in this study (9). To the best of our knowledge, the incidence of frailty in Slovenia has not been published yet.
The aim of this study was to evaluate the prevalence and incidence of frailty among the population of older adults aged 65 years and older in Slovenia and to evaluate factors associated with frailty among Slovenian older adults. Additionally, the aim was to evaluate potential regional differences in Slovenia and compare the results to other European countries. The study results could benefit the development and implementation of frailty management programs in Slovenia.
This study was a retrospective database analysis of the data from the longitudinal Survey of Health, Ageing and Retirement in Europe (SHARE survey). The prevalence of frailty was evaluated in 2015 and the incidence of frailty was evaluated using a 4-year follow-up from 2011 to 2015. The prevalence and incidence were evaluated separately for Slovenia and for Europe.
The SHARE survey is a multi-national and multidisciplinary study of over 140,000 people aged 50 years and older. The first wave of the survey started in 2004 (Wave 1), with new waves released approximately every two years. The data from wave 6 (year 2015) and wave 4 (year 2011) were used in the current study. Data from wave 5 (year 2013) were used as a validation study for the incidence of frailty – the results were similar to the results published in this article. A detailed description of the SHARE survey methodology is published elsewhere (10, 11, 12, 13, 14).
The inclusion criteria for the evaluation of the prevalence were: (i) participants in 2015 SHARE survey, (ii) aged 65 years or older in 2015, and (iii) available data on frailty. The final sample of older adults for the evaluation of the prevalence was 2,286 for the Slovenia and 37,471 for the Europe (Austria, Belgium, Croatia, Czech Republic, Denmark, Estonia, France, Germany, Greece, Italy, Luxembourg, Poland, Portugal, Slovenia, Spain, Sweden, Switzerland).
The inclusion criteria for the evaluation of the incidence were: (i) participants in 2011 and 2015 SHARE survey, (ii) aged 65 years or older in 2011, (iii) available data on frailty in 2011 and 2015 SHARE survey, and (iv) non-frail in 2011. The final sample of older adults for the evaluation of the incidence was 294 for the Slovenia and 6,902 for the Europe (Austria, Belgium, Czech Republic, Denmark, Estonia, France, Germany, Italy, Poland, Portugal, Slovenia, Spain, Sweden, Switzerland).
Frailty was defined by the Frailty phenotype, which is one of the two most-widely used methods for defining frailty syndrome (2, 3) and is also used in Slovenian practice within comprehensive geriatric assessment (15). The measurement of frailty based on frailty phenotype consists of five physical components: shrinking, weakness, exhaustion, slowness, and low levels of physical activity (3). In the current study we used the previously published and validated scale of frailty phenotype from SHARE data (16, 17); details are presented in Appendix A. Study participants were classified into the following groupings: (i) non-frail (robust) if none of the components were present; (ii) pre-frail if one or two of the components were present; and (iii) frail if three to five components were present.
The prevalence was defined as the proportion of older adults with pre-frailty or frailty. The incidence was defined as the proportion of new cases of older adults with pre-frailty or frailty in 2015 among non-frail older adults at baseline in 2011. The 95% confidence intervals were also presented. The prevalence and incidence were stratified by the following variables: gender, age groups (65-74 years, 75-84 years and ≥85 years); highest educational level completed (primary, secondary, tertiary); self-rated health (excellent, very good, good, fair, poor); polypharmacy (taking at least 5 different drugs per typical day; no, yes), number of chronic diseases (0-1; ≥2), country (for the European sample) and regions (for the Slovenian sample). The variable polypharmacy was only available in 2015, therefore this variable could not be used for the analysis of the incidence. Age standardization was used to present the prevalence of frailty and pre-frailty by countries and Slovenian regions. The 2013 European standard population was used (18). A multiple logistic regression model was used to evaluate factors associated with the prevalence of frailty and pre-frailty in the Slovenian and European sample. Variable self-rated health was categorized in three groups, because some categories had no frequencies for frailty ((i) excellent/very good/good, (ii) fair, (iii) poor). A variable number of chronic diseases was included in the model as a scale variable. Adjusted odds ratios (OR) and 95% confidence intervals (CI) were presented. A multiple logistic regression model for the incidence was not performed due to small sample size.
The prevalence (95% CI) of frailty in Slovenia and Europe were 14.2% (12.7-15.6) and 15.4% (14.8-15.9), respectively (Table 1). The corresponding prevalence of pre-frailty (95% CI) were 41.8% (39.8-43.8) for Slovenia and 44.4% (43.6-45.2) for Europe. The characteristics of the prevalence for Slovenia and Europe are very similar. The prevalence was higher in women and it increased with age. Older adults with higher education were less exposed to frailty. The prevalence of frailty in older adults with polypharmacy or multiple chronic diseases was two to three times higher than in older adults without polypharmacy or multiple chronic diseases.
The prevalence of pre-frailty and frailty in Slovenia and Europe.
| Variable | Sample |
Pre-frailty |
Frailty |
|||
|---|---|---|---|---|---|---|
| Slovenia | Europe | Slovenia | Europe | Slovenia | Europe | |
| 2,286 | 37,471 | 41.8 (39.8-43.8) | 44.4 (43.6-45.2) | 14.2 (12.7-15.6) | 15.4 (14.8-15.9) | |
| Male | 990 | 16,833 | 38.2 (35.2-41.2) | 42.2 (41.5-42.9) | 11.8 (9.8-13.8) | 12.0 (11.5-12.5) |
| Female | 1,296 | 20,638 | 44.6 (41.9-47.3) | 46.2 (45.6-46.9) | 16.0 (14.0-18.0) | 18.1 (17.6-18.6) |
| 65-74 years | 1,300 | 21,006 | 38.5 (35.8-41.1) | 41.5 (40.9-42.2) | 6.4 (5.1-7.7) | 8.2 (7.8-8.6) |
| 75-84 years | 770 | 12,834 | 45.8 (42.3-49.4) | 48.5 (47.7-49.4) | 22.2 (19.3-25.1) | 20.3 (19.6-21.0) |
| ≥85 years | 216 | 3,631 | 47.7 (41.0-54.3) | 46.5 (44.9-48.2) | 32.4 (26.2-38.6) | 39.6 (38.0-41.2) |
| primary | 863 | 17,371 | 48.1 (44.8-51.4) | 47.5 (46.8-48.3) | 21.3 (18.6-24.1) | 21.4 (20.8-22.0) |
| secondary | 1,076 | 12,258 | 39.7 (36.8-42.6) | 42.7 (41.8-43.5) | 11.0 (9.1-12.8) | 11.0 (10.5-11.6) |
| tertiary | 341 | 7,228 | 32.8 (27.9-37.8) | 40.1 (39.0-41.3) | 6.5 (3.8-9.1) | 7.8 (7.2-8.4) |
| excellent | 58 | 1,828 | 20.7 (10.3-31.1) | 24.7 (22.7-26.6) | /b | 1.4 (0.9-2.0) |
| very good | 148 | 5,237 | 22.3 (18.2-26.4) | 30.4 (29.1-31.6) | /b | 1.9 (1.5-2.2) |
| good | 954 | 13,332 | 34.8 (31.8-37.8) | 43.9 (43.1-44.8) | 4.0 (2.7-5.2) | 5.6 (5.2-6.0) |
| fair | 723 | 12,459 | 54.1 (50.4-57.7) | 54.7 (53.8-55.6) | 13.8 (11.3-16.3) | 19.8 (19.1-20.5) |
| poor | 402 | 4,604 | 46.5 (41.6-51.4) | 41.8 (40.3-43.2) | 46.3 (41.4-51.1) | 52.6 (51.2-54.1) |
| no | 1,524 | 21,620 | 41.6 (39.1-44.1) | 45.3 (44.7-46.0) | 10.1 (8.6-11.6) | 10.4 (10.0-10.8) |
| yes | 477 | 10,442 | 48.2 (43.7-52.7) | 48.4 (47.4-49.3) | 32.9 (28.7-37.1) | 32.0 (31.1-32.9) |
| 0-1 | 903 | 15,506 | 35.1 (32.0-38.2) | 38.9 (38.1-39.7) | 7.6 (5.9-9.3) | 7.1 (6.7-7.5) |
| ≥2 | 1,381 | 21,949 | 46.2 (43.6-48.8) | 48.3 (47.6-49.0) | 18.4 (16.4-20.4) | 21.2 (20.7-21.7) |
aSum of N for specific variable may be smaller than total N due to missing data.
bThere were no frail older adults in Slovenia with excellent or very good self-rated health.
Age-standardized prevalence of frailty and pre-frailty in Slovenia compared to other European countries is presented in Table 2. Slovenia was rated 7th among the 17 countries, with Switzerland having the lowest prevalence of frailty (6.8% (5.5-8.1)). Regional differences in the age-standardized prevalence of frailty and pre-frailty in Slovenia are presented in Table 3 and Figure 1. The regions with the highest prevalence of frailty were the northeastern regions Koroška (21.3%), Podravska (22.7%), and Pomurska (27.0%). The prevalence in these regions was more than twice as high compared to the regions in central Slovenia with the lowest prevalence of frailty.
Figure 1
Age-standardized prevalence of pre-frailty (A) and frailty (B) across Slovenian geographical regions.
Age-standardized prevalence of pre-frailty and frailty across European countries. The countries are listed from the lowest to the highest prevalence of frailty.
| Country | Age-standardized prevalence of Frailty (95% CI) | Age-standardized prevalence of Pre-frailty (95% CI) |
|---|---|---|
| Switzerland | 6.8 (5.5-8.1) | 41.0 (37.9-44.0) |
| Sweden | 8.4 (7.3-9.5) | 41.5 (39.1-43.9) |
| Denmark | 10.3 (8.8-11.9) | 38.2 (35.3-41) |
| Germany | 11.4 (9.9-13) | 39.9 (37.4-42.5) |
| Luxembourg | 13.1 (10.3-16) | 45.5 (40.5-50.6) |
| Czech Republic | 14.8 (13.3-16.4) | 43.6 (41.2-46) |
| Austria | 15.4 (13.7-17.2) | 36.9 (34.2-39.5) |
| Belgium | 16.4 (15-17.9) | 44.7 (42.3-47.2) |
| France | 16.7 (15-18.4) | 45.6 (42.8-48.5) |
| Estonia | 17.7 (16.2-19.2) | 53.1 (50.5-55.6) |
| Spain | 18.7 (17.2-20.2) | 47.2 (44.8-49.6) |
| Greece | 20.2 (18.4-22) | 47.7 (45-50.4) |
| Italy | 21.7 (19.9-23.5) | 48.3 (45.8-50.8) |
| Croatia | 22.4 (19.4-25.4) | 45.1 (41.2-49) |
| Portugal | 27.1 (23.4-30.7) | 45.5 (41.1-49.9) |
| Poland | 27.5 (23.9-31.1) | 48 (43.5-52.5) |
Age-standardized prevalence of pre-frailty and frailty across geographical regions in Slovenia. The regions are listed from the lowest to the highest prevalence of frailty.
| Slovenian region | Age-standardized prevalence of Frailty (95% CI) | Age-standardized prevalence of Pre-frailty (95% CI) |
|---|---|---|
| Gorenjska/Upper Carniola | 8.5 (4.6-12.4) | 38.7 (30.3-47.1) |
| Zasavska/Central Sava | 10.0 (3.1-16.8) | 32.9 (19.7-46.1) |
| Osrednjeslovenska/ Central Slovenia | 10.3 (7.2-13.3) | 39.8 (34.1-45.5) |
| Jugovzhodna Slovenija/ Southeast Slovenia | 11.6 (6.3-17.0) | 44.3 (33.5-55.0) |
| Notranjsko-kraška/ Littoral-Inner Carniola | 12.0 (4.1-19.8) | 35.3 (20.2-50.4) |
| Spodnjeposavska/ Lower Sava | 13.3 (6.3-20.3) | 49.2 (35.4-62.9) |
| Obalno-kraška/ Coastal-Karst | 14.8 (8.2-21.5) | 40.6 (29.0-52.2) |
| Goriška Gorizia | 17.0 (10.0-23.9) | 44.2 (33.1-55.3) |
| Savinjska/Savinja | 19.5 (13.8-25.2) | 44.6 (36.1-53.1) |
| Koroška/Carinthia | 21.3 (12.2-30.4) | 43.2 (31.4-55.1) |
| Podravska/Drava | 22.7 (16.9-28.4) | 41.7 (34.3-49.1) |
| Pomurska/Mura | 27.0 (16.6-37.4) | 46.9 (34.8-58.9) |
| 14.9 (13.3-16.5) | 42.5 (39.8-45.2) |
Factors associated with pre-frailty and frailty in the adjusted model are presented in Table 4. The results for gender differences in Slovenia did not reach statistical significance (OR 1.39; 95% CI 0.89-2.19), although significant differences were shown for Europe. Age had a significant impact on frailty, with high adjusted-odds ratios for the 75-84-year and ≥85-year age groups compared to the 6574-year age group for both Europe and Slovenia. A higher educational level was significantly associated with lower adjusted odds of frailty in Europe, but the results for Slovenia were not statistically significant. Polypharmacy was associated with higher odds of frailty even after adjustment for number of chronic diseases and other cofactors (OR (95% CI): 2.89 (2.59-3.22) for Europe and 3.25 (1.93-5.48) for Slovenia). Also, the number of chronic diseases was significantly associated with increased odds of frailty. After adjusting for all included variables, regional differences showed increased odds (OR, 95% CI) for frailty in the following regions: Podravska (5.03, 2.00-12.6), Pomurska (4.44, 1.44-13.7), Koroška (3.95, 1.33-11.7), Spodnjeposavska (3.37, 1.03-11.0), and Savinjska (3.11, 1.19-8.15), compared to the reference region with the lowest prevalence (Gorenjska).
Factors associated with pre-frailty and frailty in Slovenia and Europe.
| Variable | Pre-frailty | Frailty | ||
|---|---|---|---|---|
| Slovenia | Europe | Slovenia | Europe | |
| Adjusted ORa |
Adjusted ORb |
Adjusted ORa |
Adjusted ORb |
|
| Gender | ||||
| Male | reference | reference | reference | reference |
| Female | 1.46 (1.16-1.85)* | 1.36 (1.29-1.43)* | 1.39 (0.89-2.19) | 1.79 (1.61-1.97)* |
| 65-74 years | reference | reference | reference | reference |
| 75-84 years | 1.65 (1.28-2.12)* | 1.60 (1.51-1.69)* | 5.03 (3.08-8.22)* | 3.07 (2.76-3.40)* |
| ≥85 years | 3.06 (1.93-4.85)* | 3.41 (3.03-3.84)* | 21.7 (10.6-44.7)* | 15.9 (13.5-18.8)* |
| primary | reference | reference | reference | reference |
| secondary | 0.71 (0.55-0.91)* | 0.83 (0.77-0.88)* | 0.88 (0.54-1.43) | 0.67 (0.59-0.75)* |
| tertiary | 0.51 (0.35-0.73)* | 0.76 (0.70-0.82)* | 0.92 (0.45-1.89) | 0.52 (0.45-0.60)* |
| excellent/very good/good | reference | reference | reference | reference |
| fair | 2.47 (1.93-3.16)* | 2.34 (2.20-2.49)* | 4.58 (2.75-7.61)* | 6.12 (5.47-6.85)* |
| poor | 7.63 (4.75-12.26)* | 6.57 (5.68-7.60)* | 54.6 (28.1-105.9)* | 62.6 (52.3-74.9)* |
| no | reference | reference | reference | reference |
| yes | 1.72 (1.23-2.40)* | 1.58 (1.47-1.69)* | 3.25 (1.93-5.48)* | 2.89 (2.59-3.22)* |
| 1.14 (1.04-1.25)* | 1.13 (1.11-1.15)* | 1.20 (1.03-1.40)# | 1.22 (1.18-1.26)* | |
aVariables used in the adjusted model: gender, age group, highest educational level, self-rated health, polypharmacy, number of chronic diseases, geographical region. Nagelkerke R square=0.266 (pre-frailty); 0.670 (frailty). Omnibus test p<0.001.
bVariables used in the adjusted model: gender, age group, highest educational level, self-rated health, polypharmacy, number of chronic diseases, country. Nagelkerke R square = 0.208 (pre-frailty); 0.646 (frailty). Omnibus test p<0.001.
*p < 0.01
#p = 0.019
The 4-year incidence (95% CI) of frailty was 4.4% (2.1-6.7) in Slovenia and 5.4% (4.9-5.9) in Europe (Table 5). The 4-year incidence of pre-frailty (95% CI) was 37.8% (32.3-43.3) and 39.2% (38.0-40.4) in Slovenia and Europe, respectively. All included variables have a similar association to the incidence of frailty as to the prevalence of frailty. The incidence was increased in female gender and older age groups, and decreased with higher educational level. Older adults with poorer self-rated health at baseline had increased incidence of frailty. The incidence of frailty was higher in older adults with more chronic diseases.
The incidence of pre-frailty and frailty in Slovenia and Europe.
| Variable | Sample |
Pre-frailty |
Frailty |
|||
|---|---|---|---|---|---|---|
| Slovenia | Europe | Slovenia | Europe | Slovenia | Europe | |
| 294 | 6902 | 37.8 (32.3-43.3) | 39.2 (38.0-40.4) | 4.4 (2.1-6.7) | 5.4 (4.9-5.9) | |
| Male | 141 | 3426 | 30.5 (22.9-38.1) | 36.2 (34.6-37.8) | 5.0 (1.4-8.5) | 4.9 (4.2-5.7) |
| Female | 153 | 3476 | 44.4 (36.6-52.3) | 42.3 (40.6-43.9) | 3.9 (0.8-7.0) | 6.0 (5.2-6.7) |
| 65-74 years | 209 | 5031 | 36.4 (29.8-42.9) | 35.8 (34.5-37.1) | 1.9 (0.1-3.8) | 3.4 (2.9-3.9) |
| 75-84 years | 79 | 1716 | 40.5 (29.7-51.3) | 48.3 (45.9-50.6) | 10.1 (3.5-16.8) | 9.9 (8.5-11.3) |
| ≥85 years | 6 | 155 | 50.0 (10.0-90.0) | 52.3 (44.4-60.1) | 16.7 (0.0-46.5) | 22.6 (16-29.2) |
| primary | 77 | 2646 | 51.9 (40.8-63.1) | 44.0 (42.1-45.9) | 6.5 (1.0-12.0) | 7.8 (6.8-8.8) |
| secondary | 146 | 2540 | 36.3 (28.5-44.1) | 36.3 (34.5-38.2) | 3.4 (0.5-6.4) | 4.1 (3.4-4.9) |
| tertiary | 70 | 1571 | 24.3 (14.2-34.3) | 35.3 (32.9-37.6) | 4.3 (0.0-9.0) | 3.4 (2.5-4.3) |
| excellent | 23 | 650 | 30.4 (11.6-49.2) | 24.2 (20.9-27.4) | 4.3 (0.0-12.7) | 1.5 (0.6-2.5) |
| very good | 57 | 1529 | 35.1 (22.7-47.5) | 33.2 (30.9-35.6) | 3.5 (0.0-8.3) | 2.8 (2.0-3.6) |
| good | 129 | 2942 | 40.3 (31.8-48.8) | 38.9 (37.2-40.7) | 1.6 (0.0-3.7) | 4.6 (3.8-5.3) |
| fair | 76 | 1628 | 35.5 (24.8-46.3) | 49.8 (47.4-52.2) | 9.2 (2.7-15.7) | 9.9 (8.4-11.3) |
| poor | 9 | 149 | 55.6 (23.1-88.0) | 57.7 (49.8-65.7) | 11.1 (0.0-31.6) | 18.1 (11.9-24.3) |
| 0-1 | 167 | 3742 | 37.1 (29.8-44.4) | 36.0 (33.5-36.5) | 4.2 (1.2-7.2) | 4.0 (3.4-4.6) |
| ≥2 | 127 | 3160 | 38.6 (30.1-47.1) | 44.2 (42.5-45.9) | 4.7 (1.0-8.4) | 7.2 (6.3-8.1) |
*Sum of N for specific variable may be smaller than total N due to missing data.
Age-standardized 4-year incidence of frailty in Slovenia and Europe were 6.6% (3.0-10.1) and 8.3% (7.5-9.2), respectively. Age-standardized 4-year incidence of pre-frailty was 40.2% (32.7-47.6) in Slovenia and 42.3% (40.7-43.9) in Europe. National and regional differences in the age-standardized incidence of frailty and pre-frailty are not shown, because the sample size for each country and each region was too small.
There is little data on the prevalence and incidence of frailty in Slovenia, wherefore the present study provides further knowledge of the characteristics of frailty in Slovenia, also comparing the results to other European countries.
The age-standardized prevalence of frailty in Slovenia in our study was 14.9% (95% CI: 13.3-16.5), which is similar to the European average prevalence of 16.4 (95% CI 16.016.8) in our study. In Slovenia, 42.5% (39.8-45.2) of older adults were pre-frail, comparable to the 44.5% (43.9-45.2) of pre-frail older adults in Europe. These results are in accordance with other published literature on the prevalence of frailty, although the results vary greatly depending on the age range, settings and frailty measure used. A meta-analysis (19) published in 2018 reported the pooled prevalence of frailty 17.4% (14.4-20.7). When including only studies for the Fried frailty phenotype method, the pooled prevalence was 12.7% (10.9-14.5) (19). Another study (8) on SHARE survey data reported overall standardized prevalence of frailty 7.7% (7.5-8.0) among the population of people aged 50 years and older. This suggests that the prevalence is almost double when including only older adults age 65 years and older.
Our study confirms the differences between European countries published in other studies, with smaller frailty prevalence in Switzerland and northern European countries and higher frailty prevalence in southern and eastern European countries (7, 8). The age-standardized prevalence of frailty in Slovenia in our study is lower than in many other European countries, included in this study. We used age-standardization to enable better comparison of the prevalence between countries, and the logistic regression model confirmed significant differences between countries using age, sex, and other potential confounding variables in the model. However, the possibility of residual confounding or possible methodological differences in study samples from different countries should be taken into account. Nevertheless, our results are in accordance with some other results reporting relatively good health, quality of life and lifestyle measures in Slovenia compared to other European countries (17, 18), e.g. lower prevalence of older adults with multiple chronic diseases, lower out-of-pocket expenses for health-care, lower prevalence of smoking, and good nutritional habits (17-19) among older adults in Slovenia.
The age-standardized prevalence of frailty was unequal across different geographical regions of Slovenia (Figure 1). This study is the first to report regional differences in frailty in our country. Age-standardized prevalence of frailty was the highest in northeastern Slovenian regions, where the prevalence was above 20%. The lowest frailty prevalence was around 10% and was found in central Slovenian regions. Multiple logistic regression model showed statistically significant association between geographical regions and prevalence of frailty, independent of other cofactors. The results are statistically significant even after adjustment for age, education, and other characteristics that might influence these differences. These findings are in agreement with other studies that showed worse health indicators in northeastern Slovenian regions (20). The regional differences have already been recognized and addressed in national health programs in recent years (21).
Factors associated with frailty prevalence in Slovenia were age, geographical region, self-rated health, number of chronic diseases, and polypharmacy. In addition to the listed variables, also gender and education were significantly associated with pre-frailty in Slovenia. One other research (9) explored factors associated with frailty in Slovenia on a sample of 143 older adults from one region of Slovenia. This study reports increased frailty with age, female gender, people with chronic diseases and multiple medications, lower education, living alone, unhealthy diet, less exercise and not being socially active. No adjustment or multiple analysis was performed in that study (9). Another study of 40 individuals aged 55 years and older from one region of Slovenia showed significant association between frailty and self-reports of poor health after controlling for age and gender (22). In our study, female gender was associated with higher odds of pre-frailty, but not frailty, although frailty prevalence was higher in women than men (adjusted OR 1.39; 95% CI 0.89-2.19). This might be due to smaller sample size for frailty prevalence compared to pre-frailty prevalence, but further studies are needed to explore this finding. Age was significantly associated with pre-frailty and frailty in Slovenia, with a marked increase in the adjusted odds ratio in ≥85 years age group. Older adults with higher levels of education have a lower prevalence of frailty, which is in accordance with other published literature (3, 17). Nonetheless, in Slovenia only the association to pre-frailty was significant, but not the association to frailty, after adjusting for other cofactors. Older adults with frailty report poorer self-rated health compared to non-frail older adults. There were no participants with excellent or very good self-rated health among frail older adults in Slovenia. Older adults with more chronic diseases and polypharmacy have higher odds for frailty and pre-frailty. The association between polypharmacy and frailty remains statistically significant after adjustment for number of chronic diseases and other cofactors. The association between polypharmacy and frailty was confirmed in a systematic review (23), but the causal relationship remains unclear. Some longitudinal studies suggest the independent influence of polypharmacy on frailty risk (23, 24) and further research is necessary to evaluate the possible benefits of reducing polypharmacy in frail older adults. It would also be interesting to explore the association between nutrition, physical activity and frailty among Slovenian older adults in further studies, since these factors are suggested as effective interventions in frailty (25).
The incidence of frailty is not well described at the population level as is the prevalence of frailty. The recent systematic review and meta-analysis (6) found great variation in frailty incidence not only due to differences in settings, age groups, and frailty method used, but also different time of follow-ups and different transitions between frailty states. In this meta-analysis (6) the pooled incidence of frailty among non-frail individuals at baseline over a median follow-up of 3 years was 4.6%. The overall 4-year incidence of frailty in our study was 5.4% (4.9-5.9) for Europe, and 4.4% (2.1-6.7) for Slovenia. The incidence of frailty and pre-frailty in our study increased with age, lower levels of education and a higher number of chronic diseases. Interestingly, non-frail older adults that reported poorer self-rated health at baseline were at increased risk of frailty after a 4-year follow-up. Unfortunately, the sample size in this case was too small to enable analysis of regional differences in the incidence of frailty.
Our results place Slovenia among countries with lower frailty prevalence; nevertheless, the overall prevalence of frailty will likely increase in the following years mainly due to population aging (26). Current science describes frailty as reversible and preventable syndrome, wherefore early frailty identification is essential part of frailty management (26, 27). Nevertheless, the management of frailty in clinical practice remains challenging due to the heterogeneity of the clinical manifestation of frailty, lack of standard definition of frailty and limited evidence on the effective strategies to manage frailty (28, 29). Current guidelines in frailty management at individual level recommend appropriate physical activity and nutrition, and managing polypharmacy or potentially inappropriate medication use, implemented within individual patient-tailored approach such as comprehensive geriatric assessment (1, 28, 29, 30, 31). Examples of frailty management at the public health level include increasing awareness of frailty among health practitioners and general population as well as screening for frailty (28). Our results suggest priority groups based on geographical regions, age groups and other characteristics. However, future research is needed regarding the health, economic and humanistic outcomes of various strategies in frailty management (28). The strengths of our study include using a large multinational and multidisciplinary database that enabled evaluation of regional differences in Slovenia and analysis of other factors associated with frailty in our country. Using one data source also facilitated relevant comparison of Slovenian data to other European countries. Furthermore, the most validated method of defining frailty was used, namely the Frailty phenotype. Several potential confounding factors were accounted for in the multiple regression analysis, nevertheless other potential cofactors might be interesting to explore in relation to frailty in Slovenia, e.g. nutritional habits and physical activity. Another limitation is the small sample size for the incidence analysis, therefore regional differences and other associated factors for frailty incidence in Slovenia could not be explored. The SHARE survey population does not include hospitalized patients in the study, which should be noted when interpreting the results of our study.
Among the population of older adults aged 65 years and older in Slovenia, 14% are frail and 42% are pre-frail. During a 4-year follow-up, 4% of non-frail older adults become frail and 38% become pre-frail. Factors associated with increased frailty in Slovenia are age, self-rated health, number of chronic diseases and polypharmacy. Female gender and education are significantly associated with pre-frailty in Slovenia, but not frailty per se. There are significant differences in frailty and pre-frailty across geographical regions of Slovenia, with the lowest prevalence in central Slovenian regions (around 10%) and the highest frailty prevalence in north-eastern Slovenian regions (above 20%).