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. 2016 Jul 21;4(3):E365–E370. doi: 10.9778/cmajo.20150130

The current and future financial burden of hospital admissions for heart failure in Canada: a cost analysis

Dat T Tran 1, Arto Ohinmaa 1, Nguyen X Thanh 1, Jonathan G Howlett 1, Justin A Ezekowitz 1, Finlay A McAlister 1, Padma Kaul 1
PMCID: PMC5047807  PMID: 27730101

Abstract

Background:

Heart failure is a costly health condition and a major public health concern. We sought to examine the costs of hospital admissions for heart failure between fiscal years 2004 and 2013 in Canada and to model the future costs to 2030.

Methods:

Canadian Institutes for Health Information Discharge Abstract Database was used to identify admissions to hospital with heart failure as the primary diagnosis between fiscal years 2004 and 2013. Multiple linear regression models were used to calculate the trend in prevalence and extrapolate these to 2030. Canadian Institutes for Health Information patient cost estimates were used to identify costs of hospital admissions for heart failure. Generalized linear models were used to estimate average annual costs per heart failure patient. We conducted a sensitivity analysis including all admissions for heart failure in any diagnostic field.

Results:

In 2013, 45 600 (95% confidence interval [CI]: 43 800-47 200) patients were admitted with heart failure as the primary diagnosis, accounting for $482 (95% CI $464-$500) million. By 2030, we estimate 54 000 (95% CI 49 000-60 000) patients and costs of $722 (95% CI $650-$801) million, with older adults (age ≥ 80 yr) accounting for 52% of costs. Including admissions for which heart failure was a secondary diagnosis increases the total cost to $2.8 (95% CI $2.6-$3.0) billion in 2030.

Interpretation:

As in other developed countries, hospital costs related to heart failure in Canada are on the rise. Older adults are the main consumers of such hospital services. Strategies to improve outpatient care to reduce rates of admission for heart failure are needed.


Heart failure is a costly health condition and a major public health problem. It is estimated that 2%-3% of the population in developed countries has heart failure, and the prevalence increases to 8% among patients aged more than 75 years.1 Heart failure is the single most common reason for hospital admission.2,3 In the United States, it was projected that there would be 8.5 million people (3% of the US population) with heart failure in 2030, which would cost the US health system $53 billion.4

It has been hypothesized that a combination of improved survival in heart failure patients5-7 and population aging8 is expected to increase the burden of this condition in Canada. However, little is known as to the current and future financial burden of heart failure on the Canadian health care system.

The objectives of our study were to examine hospital admission costs for heart failure between fiscal years 2004 and 2013 in Canada and, based on these costs, model the future prevalence and admission costs to 2030. Although long-term heart failure prevalence and costs in Canada may change as a result of new therapies or changes in management strategies, forecasts based on current trends can serve as useful benchmarks to examine the effects of future innovations on health care costs.

Methods

Annual volume of patients from 2004 to 2013 (all of Canada except Quebec)

The Canadian Institute for Health Information Hospital Discharge Abstract Database from 2004 to 2013 for all Canadian provinces and territories except Quebec was used to identify hospital admissions with a primary diagnosis of heart failure (International Statistical Classification of Diseases and Related Health Problems, 10th revision, code I50).

Canadian population estimates for the same period from Statistics Canada9 (minus Quebec) were used as denominators to calculate annual prevalence rates per 100 000 population by sex and age (< 60 yr, 60-69 yr, 70-79 yr and ≥ 80 yr). Patients with multiple admissions for heart failure during the same year were counted once.

Estimating national volume of heart failure patients from 2004 to 2013 (including Quebec)

We did not have data on admissions for heart failure for the province of Quebec. To calculate national estimates for the burden of heart failure, we assumed the prevalence rates of hospital admission for heart failure in Quebec to be the average across all other provinces and territories and used multiple linear regression (natural logarithm of prevalence rate as the dependent variable) with fiscal year, sex, age group and the interaction between sex and age as independent variables in the model. Joinpoint regression was used5,10-12 to detect significant changes in annual prevalence rates between 2004 and 2013. We recorded significant turning points at an α level of 0.05 to use as a knot in the multiple linear regression model. Model assumptions (homoscedasticity, normality of residuals, and the linearity of relationships between the outcome and fiscal year as a continuous predictor) were checked and explored for unusual and influential observations by examining residuals and leverage values. The number of patients was derived by multiplying the estimated prevalence rate from the multiple linear regression model with the Canadian population (including Quebec) for each age and sex group for each year.

Annual hospital costs per heart failure patient from 2004 to 2013

The cost of each admission to hospital was obtained from the Canadian Institute for Health Information, where the patient cost estimates were made using an algorithm that took case mix groups, resource intensity weight, cost per weighted case and length of stay into consideration. This calculation provides average costs incurred through the direct care of hospital inpatients (e.g., inpatient nursing, diagnostic and therapeutic costs).13,14 For case mix groups that did not have cost available in the Canadian Institute for Health Information data, we used the Ontario Case Costing Initiative15 instead. All costs were converted to 2014 dollars using the Bank of Canada inflation calculator.16 Annual inpatient costs for a heart failure patient were derived by summing costs of all hospital admissions of that patient in a year. We fitted a generalized linear model with gamma distribution and log link to estimate average annual admission costs per patient for the entire study period (2004-2013). The variables included in the model were fiscal year, patient sex and age group. Other patient factors were not included because they were already incorporated into the Canadian Institute for Health Information patient cost estimate algorithm.

The annual total hospital admission costs associated with heart failure in Canada from 2004 to 2013 were derived by multiplying the estimated number of patients admitted with the annual hospital cost per patient.

Projection of heart failure prevalence and costs from 2014 to 2030

We assumed that the trend seen during 2004 to 2013 would continue. The coefficients from the multiple linear regression and generalized linear models described earlier were used to predict the expected prevalence rate and admission cost per heart failure patient for each year from 2014 to 2030. We used Canadian population estimates (medium population growth - M5) from 2014 to 20308,17 to calculate the expected number of heart failure patients for each year. The annual total admission costs for 2014-2030 were then derived by multiplying the expected number of admitted patients with the annual admission cost per patient.

Sensitivity analyses

We conducted 3 sensitivity analyses. First, we examined the uncertainty around our annual cost estimates by varying the estimated average annual admission cost per patient within its 95% confidence interval (CI). Second, we added low and high population growth scenarios8,17 into projections of prevalence and costs from 2014 to 2030. Finally, we recalculated prevalence and cost estimates based on admissions for which heart failure was coded as either a primary or secondary diagnosis. Our primary analysis is based on admission for which heart failure was coded as the primary diagnosis. However, heart failure has been shown to be associated with other conditions, such as acute coronary syndromes and renal disease. It is therefore possible that when heart frailure is present as a secondary diagnosis, it could contribute to hospital costs.

Results

Characteristics of the study population (all provinces except Quebec)

Between 2004 and 2013, there were 421 121 hospital admissions with a primary diagnosis of heart failure in Canada, excluding Quebec (Table 1). The mean expected length of stay for an admission increased from 7.5 days in 2004 to 8.3 days in 2013. However, the median acute length of stay remained stable at 6 days. The number of admissions and patients both reached the lowest point in 2007 and then increased. Female patients outnumbered male patients in the first 3 years. Patient mean age increased over time, as did the proportion of patients over the age of 80 years. Diabetes, chronic obstructive pulmonary and renal diseases were the most common comorbidities among heart failure patients. The largest increase in comorbidity rate was for diabetes, which increased from 29.3% in 2004 to 45.7% in 2013. Proportion of patients with more than 1 admission with heart failure as the primary diagnosis per year increased from 17.9% in 2004 to 18.8% in 2013.

Table 1: Characteristics of heart failure patients admitted to hospital, 2004-2013 (excluding Quebec).

Characteristic 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013
Admissions to hospital, no. 43 102 42 039 41 033 40 390 40 899 41 084 41 585 42 298 43 163 45 528
Mean ELOS*, d      (SD) 7.5
(4.1)
7.5
(4.1)
7.7
(4.4)
7.8
(4.7)
7.9
(4.8)
8.0
(5.0)
8.1
(5.1)
8.3
(5.1)
8.4
(5.3)
8.3
(5.3)
Median aLOS (IQR) 6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
6
(3-11)
Patients 34 311 33 600 32 876 32 542 33 004 32 995 33 144 33 753 34 365 36 142
Male/female ratio 0.96 0.98 0.98 1.00 1.02 1.01 1.01 1.01 1.03 1.04
Mean age, yr (SD) 76.8
(12.1)
76.9 (12.4) 77.1
(12.3)
77.1
(12.5)
77.2
(12.5)
77.1
(12.7)
77.6
(12.4)
77.6
(12.5)
77.8
(12.6)
77.9
(12.7)
Patient proportion by age group, yr,  %†
< 60 8.8 9.2 8.8 9.0 9.2 9.0 8.4 8.6 8.5 8.6
60-69 13.5 13.7 13.5 13.8 13.7 14.5 14.0 13.8 13.7 14.0
70-79 29.8 28.7 27.8 27.1 27.0 26.2 25.7 25.1 24.6 23.8
≥ 80 47.8 48.4 50.0 50.1 50.2 50.3 51.9 52.5 53.2 53.6
Patient comorbidity,  %
AMI 11.7 11.7 12.0 11.9 12.7 11.6 11.6 11.1 10.5 9.6
COPD 19.5 19.4 20.1 19.7 20.5 20.2 21.0 21.1 20.7 20.2
Dementia 5.2 5.1 5.4 5.2 5.5 5.3 5.9 6.0 5.9 5.9
Diabetes 29.3 30.4 40.0 40.9 40.6 45.0 44.7 44.9 45.5 45.7
Renal 19.0 20.0 18.6 18.0 18.8 14.6 14.4 14.2 13.9 14.3
Patients with > 1 admission, % 17.9 17.7 17.8 17.4 17.4 17.6 18.2 18.4 18.6 18.8

Note: aLOS = acute length of stay, AMI = acute myocardial infarction, COPD = chronic obstructive pulmonary diseases, ELOS = expected length of stay, IQR = interquartile range, SD = standard deviation.

*Number of days in hospital assigned to each admission based on CIHI grouping methodology.

†Total percentage may not be exactly 100% because of rounding

National volume of heart failure patients from 2004 to 2013 (including Quebec)

The results of the multiple linear regression model to estimate the prevalence rate of heart failure hospital admissions over time for each age and sex group are shown in Appendix 1 (available at www.cmajopen.ca/content/4/3/E365/suppl/DC1). These rates declined over time in all groups (Figure 1). The prevalence rates were more than 100 times higher in the oldest compared with the youngest groups in both sexes. Hospital admissions for heart failure were more prevalent in men in all age groups.

Figure 1.

Figure 1

Prevalence rates of hospital admissions for heart failure (HF) in Canada, 2004-2013.

In contrast to the declining trend in hospital admission prevalence rates, the absolute number of heart failure patients admitted to hospital increased over time. There were 34 311 patients admitted with heart failure in 2004, and this number increased to 36 142 in 2013 (Table 1). Extrapolating to include Quebec, we estimated 44 400 (95% CI 42 500-46 300) patients were admitted in 2004, and 45 600 (95% CI 43 800-47 200) in 2013, with a primary diagnosis of heart failure.

Annual admission costs per patient from 2004 to 2013

Results of the generalized linear model estimating annual admission cost per heart failure patient are presented in Appendix 1. Admission costs increased by 1.4% annually and were higher for men and younger patients. The average per patient costs in 2004 and 2013 were estimated at $9700 and $11 000, respectively (Table 2).

Table 2: Annual hospital admission cost for patients admitted to hospital for heart failure (in 2014 dollar values).

Characteristic 2004 2007 2010 2013
Mean cost per patient, $ 9 679 10 092 10 522 10 970
Women, yr
    All ages 9 543 9 950 10 374 10 816
    < 60 10 044 10 472 10 918 11 383
    60-69 9 917 10 339 10 780 11 239
    70-79 9 498 9 903 10 325 10 765
    ≥ 80 8 714 9 085 9 472 9 876
Men, yr
    All ages 9 816 10 234 10 670 11 125
    < 60 10 331 10 771 11 230 11 709
    60-69 10 200 10 635 11 088 11 560
    70-79 9 770 10 186 10 620 11 073
    ≥ 80 8 963 9 345 9 743 10 158

Total admission costs from 2004 to 2013 increased gradually (Figure 2). Using 2014 dollar values, the total cost was $415 (95% CI $397-$432) million in 2004 and $482 (95% CI $464-$500) million in 2013, equivalent to a 1.7% annual increase during this period. In 2013, older adults (age ≥ 80 yr) accounted for 48.1% of costs; patients aged 70-79 years, 60-69 years and less than 60 years accounted for 27%, 16.2% and 8.7% of costs, respectively.

Figure 2.

Figure 2

Estimated admission costs for heart failure and number of heart failure patients, 2004-2013, and projected for 2014-2030 (in 2014 $ values). Error bars incidate 95% confidence intervals.

Projection of prevalence and costs from 2014 to 2030

Results of cost projection to 2030 are presented in Appendix 2 (available at www.cmajopen.ca/content/4/3/E365/suppl/DC1). We estimated about 48 000 (95% CI 45 000-51 000) patients in 2020 and about 54 000 patients (95% CI 49 000-60 000 patients) in 2030. Annual admission costs per patient were projected to increase to about $12 000 in 2020 and about $14 000 in 2030. Total admission costs were projected to increase to $722 (95% CI $650-$801) million in 2030 (Figure 2). This reflects a 49.8% increase from 2013 to 2030. The older adults (age ≥ 80 yr) were projected to account for 52% of total costs in 2030.

Sensitivity analyses

Varying annual admission cost per patient within its 95% CI led to a maximum deviation of 1% of total costs in 2013. The deviation increased to 5.8% in 2030. This translated to a range of total admission costs from $477 to $487 million and from $681 to $764 million in 2013 and 2030, respectively.

Compared with medium population growth, low population growth resulted in 1500 fewer projected heart failure patients and high population growth resulted in an additional 2500 projected patients in 2030. Consequently, the low population growth scenario would be associated with a $22 million reduction and the high population growth scenario would be associated with an additional $33 million in admission costs.

Results of prevalence and cost estimates based on admissions with heart failure as either the primary or secondary diagnosis are provided in Appendix 3 (available at www.cmajopen.ca/content/4/3/E365/suppl/DC1). Extending the analyses to include admissions with heart failure as a secondary diagnosis more than tripled (n = 175 201 [95% CI 164 185-186 838]) the estimate of patients admitted to hospital with heart failure in 2030. Consequently, total costs associated with heart failure were projected to be $2.82 (95% CI $2.65-$3.01) billion in 2030.

Interpretation

Patients who were admitted to hospital with a primary diagnosis of heart failure cost the Canadian health care system $415 million in 2004 and $482 million in 2013. These admissions therefore accounted for 0.8% of hospital spending in 2013.18 We estimate that the cost of admissions with heart failure as the primary diagnosis will increase substantially by 2030 to about $720 million (50% increase from 2013), assuming the current patterns continue. Older adults (age ≥ 80 yr) are the largest consumers of hospital services associated with heart failure. Including admissions where heart failure is a secondary diagnosis increased the cost estimate to $2.8 billion by 2030.

Inpatient prevalence rates are declining in both sexes. This might be due to improved management of heart failure in outpatient clinics.19 However, the absolute number of patients admitted to hospital is increasing. This is largely due to the change in population demographics. Statistics Canada has projected marked increases in the oldest age groups where heart failure is most prevalent: the proportion of people aged 80 years and over is expected to increase by 73% in the next 15 years, from 1.1 million people (4.1% of total population) in 2015 to 1.9 million (6.1% of total population) in 2030.8 Our estimate of the increasing trend in the absolute number of heart failure patients admitted to hospital is more conservative than that reported previously.20 This is probably because we focused on hospital admission with a primary diagnosis of heart failure. Extending the analysis to include admissions where heart failure was coded as a secondary diagnosis more than tripled our estimates of the number of patients admitted. Furthermore, we used more recent data (of 10 consecutive years up to 2013) and thus were able to take into account the slightly decreasing trends in admission prevalence in all age groups, whereas the previous study by Johansen and colleagues used only a single data point of fiscal year 1996/97.20

We projected that a patient admitted to hospital with a primary diagnosis of heart failure would cost the health care system about $14 000 per year in 2030. This is higher than the average cost of $8200 in the United States (converted to 2014 Canadian dollars assuming admission accounts for 80% of medical costs4 and 80% of patients with heart failure are admitted21). This could be explained by our use of case mix groups, which take comorbidities into consideration, whereas the US study modelled medical costs attributable to heart failure only. Furthermore, patterns of care may also account for the difference in cost estimates between the 2 countries. We have previously shown that heart failure patients in Canada have lengths of stay that are longer than their US counterparts.22

Limitations

We assumed that the trend in hospital admission patterns seen during 2004 to 2013 would continue. Long-term heart failure prevalence and costs in Canada may change as a result of new therapies or changes in management strategies. It should be noted that the continuous widening of 95% CIs of the estimates (Figure 2) suggests increased uncertainty over time.

We did not have hospital admissions data from Quebec and assumed prevalence rates in that province to be the mean across all other provinces and territories. However, we examined variation across provinces and found no statistically significant difference in prevalence rates between provinces where we have data. This result strengthened our assumption.

Finally, this study only included hospital costs and does not include other costs, such as physician, outpatient and drug costs, which are of increasing importance as the management of heart failure shifts from the inpatient to the outpatient setting.19 However, about 80% of total medical costs associated with heart failure can be attributed to hospital costs.4,23

Conclusion

As with other developed countries, the hospital resources related to the care of heart failure patients in Canada are increasing. Hospital admissions for which heart failure is the primary diagnosis cost the country $482 million in 2013, and these costs are projected to increase to $720 million by 2030. Including costs where heart failure is the secondary diagnosis increased the total cost in our estimates to a sobering $2.8 billion by 2030. Older adults are the main consumers of hospital services associated with heart failure. Strategies to improve outpatient care to reduce admission rates are needed, as are innovations that provide seamless, cost-effective and evidence-based interventions from the emergency department through to discharge. Although long-term projection is subject to assumptions and uncertainties, we believe that our study offers a reasonable indication of future resource needs for heart failure in inpatient settings from today's perspective.

Supplemental information

For reviewer comments and the original submission of this manuscript, please see www.cmajopen.ca/content/4/3/E365/suppl/DC1

Supplementary Material

Online Appendices

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