Avram E Denburg1, Nazeefah Laher1,2, Innocent Mutyaba3,4, Suzanne McGoldrick4, Joyce Kambugu3, Erica Sessle5, Jackson Orem3,4, Corey Casper4,6. 1. The Hospital for Sick Children, University of Toronto, Toronto, Ontario, Canada. 2. Wellesley Institute, Toronto, Ontario, Canada. 3. Uganda Cancer Institute, Makerere University, Kampala, Uganda. 4. Fred Hutchinson Cancer Research Center, Seattle Children's Hospital, Seattle, Washington. 5. PATH, Seattle, Washington. 6. Infectious Disease Research Institute, University of Washington School of Medicine, Seattle, Washington.
Abstract
BACKGROUND: Perceptions of high cost and resource intensity remain political barriers to the prioritization of childhood cancer treatment programs in many low- and middle-income countries (LMICs). Little knowledge exists of the actual cost and cost-effectiveness of such programs. To improve outcomes for children with Burkitt lymphoma (BL), the most common childhood cancer in Africa, the Uganda Cancer Institute implemented a comprehensive BL treatment program in 2012. We undertook an economic evaluation of the program to ascertain the cost-effectiveness of BL therapy in a specific LIC setting. METHODS: We compared the treatment of BL to usual care in a cohort of 122 patients treated between 2012 and 2014. Costs included variable, fixed, and family costs. Our primary measure of effectiveness was overall survival (OS). Patient outcomes were determined through prospective capture and retrospective chart abstraction. The cost per disability-adjusted life-year (DALY) averted was calculated using the World Health Organization's Choosing Interventions That Are Cost-Effective (WHO-CHOICE) methodology. RESULTS: The 2-year OS with treatment was 55% (95% CI, 45% to 64%). The cost per DALY averted in the treatment group was US$97 (Int$301). Cumulative estimate of national DALYs averted through treatment was 8607 years, and the total national annual cost of treatment was US$834,879 (Int$2,590,845). The cost of BL treatment fell well within WHO-CHOICE cost-effectiveness thresholds. The ratio of cost per DALY averted to per capita gross domestic product was 0.14, reflecting a very cost-effective intervention. CONCLUSION: This study demonstrates that treating BL with locally tailored protocols is very cost-effective by international standards. Studies of this kind will furnish crucial evidence to help policymakers prioritize the allocation of LMIC health system resources among noncommunicable diseases, including childhood cancer.
BACKGROUND: Perceptions of high cost and resource intensity remain political barriers to the prioritization of childhood cancer treatment programs in many low- and middle-income countries (LMICs). Little knowledge exists of the actual cost and cost-effectiveness of such programs. To improve outcomes for children with Burkitt lymphoma (BL), the most common childhood cancer in Africa, the Uganda Cancer Institute implemented a comprehensive BL treatment program in 2012. We undertook an economic evaluation of the program to ascertain the cost-effectiveness of BL therapy in a specific LIC setting. METHODS: We compared the treatment of BL to usual care in a cohort of 122 patients treated between 2012 and 2014. Costs included variable, fixed, and family costs. Our primary measure of effectiveness was overall survival (OS). Patient outcomes were determined through prospective capture and retrospective chart abstraction. The cost per disability-adjusted life-year (DALY) averted was calculated using the World Health Organization's Choosing Interventions That Are Cost-Effective (WHO-CHOICE) methodology. RESULTS: The 2-year OS with treatment was 55% (95% CI, 45% to 64%). The cost per DALY averted in the treatment group was US$97 (Int$301). Cumulative estimate of national DALYs averted through treatment was 8607 years, and the total national annual cost of treatment was US$834,879 (Int$2,590,845). The cost of BL treatment fell well within WHO-CHOICE cost-effectiveness thresholds. The ratio of cost per DALY averted to per capita gross domestic product was 0.14, reflecting a very cost-effective intervention. CONCLUSION: This study demonstrates that treating BL with locally tailored protocols is very cost-effective by international standards. Studies of this kind will furnish crucial evidence to help policymakers prioritize the allocation of LMIC health system resources among noncommunicable diseases, including childhood cancer.
Authors: Wilfred Ngwa; Beatrice W Addai; Isaac Adewole; Victoria Ainsworth; James Alaro; Olusegun I Alatise; Zipporah Ali; Benjamin O Anderson; Rose Anorlu; Stephen Avery; Prebo Barango; Noella Bih; Christopher M Booth; Otis W Brawley; Jean-Marie Dangou; Lynette Denny; Jennifer Dent; Shekinah N C Elmore; Ahmed Elzawawy; Diane Gashumba; Jennifer Geel; Katy Graef; Sumit Gupta; Serigne-Magueye Gueye; Nazik Hammad; Laila Hessissen; Andre M Ilbawi; Joyce Kambugu; Zisis Kozlakidis; Simon Manga; Lize Maree; Sulma I Mohammed; Susan Msadabwe; Miriam Mutebi; Annet Nakaganda; Ntokozo Ndlovu; Kingsley Ndoh; Jerry Ndumbalo; Mamsau Ngoma; Twalib Ngoma; Christian Ntizimira; Timothy R Rebbeck; Lorna Renner; Anya Romanoff; Fidel Rubagumya; Shahin Sayed; Shivani Sud; Hannah Simonds; Richard Sullivan; William Swanson; Verna Vanderpuye; Boateng Wiafe; David Kerr Journal: Lancet Oncol Date: 2022-05-09 Impact factor: 54.433
Authors: Solomon Kibudde; Eve Namisango; Annet Nakaganda; Mackuline Atieno; Joy Bbaale; Martin Nabwana; Fatia Kiyange; Meg O'brien; Emmanuel Bk Luyirika; Jackson Orem Journal: Afr Health Sci Date: 2022-03 Impact factor: 1.108