Background & aims: Patients with solid tumors who undergo chemotherapy have an increased risk of hepatitis B virus (HBV) reactivation, but a low proportion of these patients are screened for HBV infection and guidelines make conflicting recommendations. Further, the cost-effectiveness of newer treatments for HBV prophylaxis has not been examined for this population. We aimed to analyze the cost-effectiveness of HBV screening before chemotherapy for patients with solid tumors.
Methods: We compared 3 HBV screening strategies (screen all, screen only high-risk patients, or screen none) using a Markov model of a population of adults in the United States who initiated chemotherapy for a solid tumor. We modeled use of entecavir prophylaxis for HB surface antigen (HBsAg)-positive patients and surveillance for HBsAg-negative patients who are positive for HBV core antibody. The Markov cycle length was 1 year, with model simulation for up to 5 years.
Results: The screen all strategy was the most cost effective, with an incremental cost-effectiveness ratio of $42,761 compared to screening only high-risk patients. The screen none strategy was less effective and less costly than screening all patients or only high-risk patients. The screen-all strategy was the most cost effective for all estimates of prevalence of HBsAg-positive patients and estimates of HBV reactivation in HBsAg-positive patients. Screening only high-risk patients was the most cost-effective strategy when more than 25% of high-risk patients were screened for HBV infection.
Conclusions: In a Markov model analysis, we found screening all patients with solid tumors for HBV infection before chemotherapy to be the most cost-effective strategy. Guidelines should consider recommending HBV tests for patients initiating chemotherapy.
Keywords: Cancer Treatment; Detection; ICER; Immune Suppression; Viral Infection.
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