Author of

• 17958

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  MA14 - Immunotherapy in Advanced NSCLC: Biomarkers and Costs (ID 394)

  • Event: WCLC 2016
  • Type: Mini Oral Session
  • Track: Advanced NSCLC
  • Presentations: 1
  • Moderators:M. Reck, D.R. Spigel
  • Coordinates: 12/06/2016, 16:00 - 17:30, Strauss 2

  • 17969

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    MA14.11 - An Estimate of the Economic Impact of Immunotherapy Relative to PD-L1 Expression in Brazil - An Update with Brazilian Costs (ID 4251)

    16:00 - 17:30  |  Author(s): H. Babiker
    • Abstract
    • Presentation
    • Slides

    Background:
    Delivering high quality cancer care at an affordable cost is one of the main challenges for health care professionals and policy makers, especially in low- and middle-income countries. The objective of our study is to assess the economic impact of nivolumab and pembrolizumab with and without the use of PD-L1 as a biomarker in Brazil.
    
    Methods:
    We developed a decision-analytic model to determine the cost-effectiveness of PD-L1 assessment and the second-line treatment with NIVO or PEMBRO versus docetaxel. The model used outcomes data from randomized clinical trials and drug acquisition costs were estimated using current prices in Brazil. Thereafter, we used Brazilian epidemiologic data to estimate the economic impact.
    
    Results:
    We included three RCTs (two with NIVO and one with PEMBRO). The estimated number of cases eligible for therapy with immune checkpoint inhibitors is 4,733. Treating all patients with NIVOLUMAB would cost US$ 173 million dollars each year, representing an increase of 21% in current Brazilian expenses for cancer drugs acquisition. Treating only patients with PD-L1 > 1% with NIVOLUMAB would cost 93 million dollars every year, leading to an increase of 11.3% in expenses for cancer drugs acquisition. However, with such selection, up to 46% of cases would not be treated and 315 years of life would be lost compared to treating all patients regardless of PD-L1 expression. The cost of each year-of-life saved was improved by PD-L1 selection (from US$ 196,000 to US$ 164,000). Table 1 summarizes our findings for five different scenarios of treatment. The results were similar with NIVOLUMAB and PEMBROLIZUMAB.

    SCENARIO	QALY GAIN	ICER (US$)	LIFE-YEARS SAVED	YEARS OF LIFE NOT SAVED	% NOT TREATED	TOTAL COST (US$)	IMPACT ON TOTAL CANCER DRUG EXPENDITURE	COST/LYS (US$)
    NIVO ALL COMERS	0.148	129 K	885	0	0%	173 Million	21.1%	196 K
    NIVO PD-L1 > 1%	0.201	108 K	570	315	46%	93	11.3%	164 K
    PEMBRO PD-L1 > 1%	0.138	137 K	666	NA	34%	100	12.1%	150 K
    NIVO ALL SQ/ > 1% NSQ	0.216	99 K	738	147	35%	116	14.0%	157 K
    PEMBRO PD-L1 > 50%	0.164	116 K	285	NA	72%	43	5.2%	151 K

    
    
    Conclusion:
    The use of PD-L1 expression as a biomarker for treatment with immune checkpoint inhibitors decreases the overall economic impact and the cost per life-year saved. Further study and societal discussion is needed in order to find the optimal strategy for patient selection.
    
    

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• 17998

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  OA17 - Aspects of Health Policies and Public Health (ID 397)

  • Event: WCLC 2016
  • Type: Oral Session
  • Track: Regional Aspects/Health Policy/Public Health
  • Presentations: 1
  • Moderators:M. Kneussl
  • Coordinates: 12/06/2016, 16:00 - 17:30, Schubert 1

  • 17999

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    OA17.01 - Estimate of Economic Impact of Immune Checkpoint Inhibitors for NSCLC Relative to PD-L1 Expression in the US (ID 4133)

    16:00 - 17:30  |  Author(s): H. Babiker
    • Abstract
    • Presentation
    • Slides

    Background:
    Delivering high-quality cancer care at an affordable cost is the main challenge for health care professionals and policy makers. Immunotherapy achieved encouraging results in NSCLC. PD-L1 expression is being studied as a predictive biomarker. The objective of our study is to assess the economical impact of NIVO and PEMBRO with and without the use of PD-L1 as a biomarker in the US.
    
    Methods:
    We developed a decision-analytic model to determine the cost-effectiveness of PD-L1 assessment and second-line treatment with NIVO or PEMBRO versus docetaxel. The model used outcomes data from RCTs and costs from the US. We included the costs of adverse events and post-progression therapies. Thereafter, we used American epidemiology data to estimate the impact of the treatment.
    
    Results:
    We included three RCTs (two with NIVO and one with PEMBRO). The estimated number of cases eligible was 37,638. Treating all patients with NIVOLUMAB would cost 1.6 billion dollars each year, increasing total oncology drug expenditure in the US by 4%. Treating only patients with PD-L1 > 1% with NIVOLUMAB would cost US$ 850 million each year and would increase total oncology drug expenditure by 2%. However, with such patient selection up to 46% of cases would not be treated and 2,509 fewer life-years would be saved. The cost of each year-of-life saved was improved by PD-L1 selection (from US$ 223,000 to US$ 186,000 thousand). Table 1 summarizes our findings. Results were similar with NIVOLUMAB and PEMBROLIZUMAB.

    Scenario	QALY gain	ICER U$	Life-Years Saved	Years of life not saved	Not Treated	%	Total Cost U$	Impact on Total Cancer Drug Expenditure	Cost/LYS U$
    					37,638	100
    NIVO ALL COMERS	0.148	124K	7,043	0	0	0	1.6 bi	4%	223K
    NIVO PD-L1 > 1%	0.201	91K	4,534	2,509	17,389	46	850 mi	2%	186K
    PEMBRO PD-L1 > 1%	0.138	116K	5,302	NA	12,685	34	971 mi	2%	183K
    NIVO ALL SQ/>1% NSQ	0.216	93K	5,868	1,175	13,303	35	1 bi	3%	178K
    PEMBRO PD-L1 > 50%	0.164	97K	2,270	NA	26,912	72	420 mi	1%	184K

    
    
    Conclusion:
    The use of PD-L1 expression as a biomarker for treatment with immunotherapy decreases the overall economic impact and the cost per life-year saved. Nevertheless, the number of life-years saved with this strategy would be significantly smaller than if we choose to treat all patients. Further study and societal discussion is warranted in order to find the optimal strategy for patient selection.
    
    

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