BACKGROUND: Specialized multidisciplinary clinics have been shown to reduce mortality in heart failure (HF). Our objective was to evaluate the cost-effectiveness of this model of care delivery. METHODS: We performed a cost-effectiveness analysis, with a 12-year time horizon, from the perspective of the Ontario Ministry of Health and Long-term Care, comparing a standard care cohort, consisting of all patients admitted to hospital with HF in 2005, to a hypothetical cohort treated in HF clinics. Survival curves describing the natural history of HF were constructed using mortality estimates from the Enhanced Feedback for Effective Cardiac Treatment (EFFECT) study. Survival benefits and resource uptake associated with HF clinics were estimated from a meta-analysis of published trials. HF clinics costs were obtained by costing a representative clinic in Ontario. Health-related costs were determined through linkage to administrative databases. Outcome measures included life expectancy (years), costs (in 2008 Canadian dollars) and the incremental cost-effectiveness ratio (ICER). RESULTS: HF clinics were associated with a 29% reduction in all-cause mortality (risk ratio [RR] 0.71; 95% confidence interval [CI] 0.56-0.91) but a 12% increase in hospitalizations (RR 1.12; 95% CI 0.92-1.135). The cost of care in HF clinics was $52 per 30 patient-days. Projected life-expectancy of HF clinic patients was 3.91 years, compared to 3.21 years for standard care. The 12-year cumulative cost per patient in the HF clinic group was $66,532 versus $53,638 in the standard care group. The ICER was $18,259/life-year gained. CONCLUSIONS: HF clinics appear to be a cost effective way of delivering ambulatory care to HF patients.
BACKGROUND: Specialized multidisciplinary clinics have been shown to reduce mortality in heart failure (HF). Our objective was to evaluate the cost-effectiveness of this model of care delivery. METHODS: We performed a cost-effectiveness analysis, with a 12-year time horizon, from the perspective of the Ontario Ministry of Health and Long-term Care, comparing a standard care cohort, consisting of all patients admitted to hospital with HF in 2005, to a hypothetical cohort treated in HF clinics. Survival curves describing the natural history of HF were constructed using mortality estimates from the Enhanced Feedback for Effective Cardiac Treatment (EFFECT) study. Survival benefits and resource uptake associated with HF clinics were estimated from a meta-analysis of published trials. HF clinics costs were obtained by costing a representative clinic in Ontario. Health-related costs were determined through linkage to administrative databases. Outcome measures included life expectancy (years), costs (in 2008 Canadian dollars) and the incremental cost-effectiveness ratio (ICER). RESULTS: HF clinics were associated with a 29% reduction in all-cause mortality (risk ratio [RR] 0.71; 95% confidence interval [CI] 0.56-0.91) but a 12% increase in hospitalizations (RR 1.12; 95% CI 0.92-1.135). The cost of care in HF clinics was $52 per 30 patient-days. Projected life-expectancy of HF clinic patients was 3.91 years, compared to 3.21 years for standard care. The 12-year cumulative cost per patient in the HF clinic group was $66,532 versus $53,638 in the standard care group. The ICER was $18,259/life-year gained. CONCLUSIONS: HF clinics appear to be a cost effective way of delivering ambulatory care to HF patients.
Authors: Santanu Guha; S Harikrishnan; Saumitra Ray; Rishi Sethi; S Ramakrishnan; Suvro Banerjee; V K Bahl; K C Goswami; Amal Kumar Banerjee; S Shanmugasundaram; P G Kerkar; Sandeep Seth; Rakesh Yadav; Aditya Kapoor; Ajaykumar U Mahajan; P P Mohanan; Sundeep Mishra; P K Deb; C Narasimhan; A K Pancholia; Ajay Sinha; Akshyaya Pradhan; R Alagesan; Ambuj Roy; Amit Vora; Anita Saxena; Arup Dasbiswas; B C Srinivas; B P Chattopadhyay; B P Singh; J Balachandar; K R Balakrishnan; Brian Pinto; C N Manjunath; Charan P Lanjewar; Dharmendra Jain; Dipak Sarma; G Justin Paul; Geevar A Zachariah; H K Chopra; I B Vijayalakshmi; J A Tharakan; J J Dalal; J P S Sawhney; Jayanta Saha; Johann Christopher; K K Talwar; K Sarat Chandra; K Venugopal; Kajal Ganguly; M S Hiremath; Milind Hot; Mrinal Kanti Das; Neil Bardolui; Niteen V Deshpande; O P Yadava; Prashant Bhardwaj; Pravesh Vishwakarma; Rajeeve Kumar Rajput; Rakesh Gupta; S Somasundaram; S N Routray; S S Iyengar; G Sanjay; Satyendra Tewari; Sengottuvelu G; Soumitra Kumar; Soura Mookerjee; Tiny Nair; Trinath Mishra; U C Samal; U Kaul; V K Chopra; V S Narain; Vimal Raj; Yash Lokhandwala Journal: Indian Heart J Date: 2018-06-08
Authors: Mark Roberts; Louise B Russell; A David Paltiel; Michael Chambers; Phil McEwan; Murray Krahn Journal: Value Health Date: 2012 Sep-Oct Impact factor: 5.725
Authors: Swara Bajpai; Lauren Wood; Jamie A Cannon; Daniel I Chu; Robert H Hollis; Drew J Gunnells; Karin M Hardiman; Gregory D Kennedy; Melanie S Morris Journal: Am J Surg Date: 2021-12-04 Impact factor: 3.125
Authors: Yanhong Li; Wayne C Levy; Matthew P Neilson; Stephen J Ellis; David J Whellan; Kevin A Schulman; Christopher M O'Connor; Shelby D Reed Journal: J Card Fail Date: 2014-06-02 Impact factor: 5.712