Cost-Effectiveness of Low-Field Intraoperative Magnetic Resonance in Glioma Surgery

Sergio Garcia-Garcia; Borja García-Lorenzo; Pedro Roldan Ramos; Jose Juan Gonzalez-Sanchez; Diego Culebras; Gabriela Restovic; Estanis Alcover; Imma Pons; Jorge Torales; Luis Reyes; Laura Sampietro-Colom; Joaquim Enseñat

doi:10.3389/fonc.2020.586679

Cost-Effectiveness of Low-Field Intraoperative Magnetic Resonance in Glioma Surgery

Front Oncol. 2020 Nov 2:10:586679. doi: 10.3389/fonc.2020.586679. eCollection 2020.

Affiliations

¹ Department of Neurological Surgery, Hospital Clinic, Barcelona, Spain.
² Assessment of Innovations and New Technologies Unit, Hospital Clínic, University of Barcelona, Barcelona, Spain.
³ Economic and Financial Management Department, Hospital Clinic, Barcelona, Spain.

Abstract

Object: Low-field intraoperative magnetic resonance (LF-iMR) has demonstrated a slight increase in the extent of resection of intra-axial tumors while preserving patient`s neurological outcomes. However, whether this improvement is cost-effective or not is still matter of controversy. In this clinical investigation we sought to evaluate the cost-effectiveness of the implementation of a LF-iMR in glioma surgery.

Methods: Patients undergoing LF-iMR guided glioma surgery with gross total resection (GTR) intention were prospectively collected and compared to an historical cohort operated without this technology. Socio-demographic and clinical variables (pre and postoperative KPS; histopathological classification; Extent of resection; postoperative complications; need of re-intervention within the first year and 1-year postoperative survival) were collected and analyzed. Effectiveness variables were assessed in both groups: Postoperative Karnofsky performance status scale (pKPS); overall survival (OS); Progression-free survival (PFS); and a variable accounting for the number of patients with a greater than subtotal resection and same or higher postoperative KPS (R-KPS). All preoperative, procedural and postoperative costs linked to the treatment were considered for the cost-effectiveness analysis (diagnostic procedures, prosthesis, operating time, hospitalization, consumables, LF-iMR device, etc). Deterministic and probabilistic simulations were conducted to evaluate the consistency of our analysis.

Results: 50 patients were operated with LF-iMR assistance, while 146 belonged to the control group. GTR rate, pKPS, R-KPS, PFS, and 1-year OS were respectively 13,8% (not significative), 7 points (p < 0.05), 17% (p < 0.05), 38 days (p < 0.05), and 3.7% (not significative) higher in the intervention group. Cost-effectiveness analysis showed a mean incremental cost per patient of 789 € in the intervention group. Incremental cost-effectiveness ratios were 111 € per additional point of pKPS, 21 € per additional day free of progression, and 46 € per additional percentage point of R-KPS.

Conclusion: Glioma patients operated under LF-iMR guidance experience a better functional outcome, higher resection rates, less complications, better PFS rates but similar life expectancy compared to conventional techniques. In terms of efficiency, LF-iMR is very close to be a dominant technology in terms of R-KPS, PFS and pKPS.

Keywords: Karnofsky performance status; cost-effectiveness; glioma; incremental cost-effective ratio; intraoperative magnetic resonance; progression-free survival (PFS); technology assessment.