Economic Evaluation of Nivolumab Versus Docetaxel for the Treatment of Advanced Squamous and Non-squamous Non-small Cell Lung Cancer After Prior Chemotherapy in China

Lung cancer is the most common type of cancer and the leading cause of cancer deaths in China, with an estimated 774,323 new cases and 690,567 deaths in 2018 [1]. The age-standardised incidence of lung cancer in China was 35.1 per 100,000 in 2018, and the age-standardised mortality rate was 30.9 per 100,000 [1]. About 80–85% of lung cancer cases are categorised as non-small cell lung cancer (NSCLC), which includes the histology subtypes squamous and non-squamous [2]. Approximately 25–30% of all lung cancers are squamous-cell carcinomas [2].

The majority of NSCLC cases are diagnosed at an advanced stage (IIIB or IV), when the cancer has already spread to distant sites [3]. The prognosis for advanced NSCLC (aNSCLC) is poor [3]. Data from the US National Cancer Institute Surveillance, Epidemiology, and End Results (SEER) Program report that 57% of lung and bronchus cancers had already spread distally at time of diagnosis, and the estimated 5-year survival rate (all races, both sexes, based on the SEER 18 database, 2009–2015) for cancer diagnosed at this stage was 5.2% [3]. In addition to the mortality burden, aNSCLC substantially impairs quality of life (QOL) for patients [4, 5] and their caregivers [6, 7].

Some patients with NSCLC have genetic factors that contribute to tumour progression, such as epidermal growth factor receptor (EGFR) mutations or anaplastic lymphoma kinase (ALK) alterations [8]. In Western countries, EGFR mutations were found in approximately 16–20% of cases of NSCLC (or aNSCLC) [9, 10]; the frequency of EGFR mutations is much higher in China (around 40–50%) [11‐13]. ALK alterations have been found to occur in about ≤ 10% of patients with NSCLC (or aNSCLC) in China (8–10%) [12, 13] and Western countries (4%) [10]. Although targeted therapies are available for patients with NSCLC who have genomic alterations [10], treatment options that can prolong survival for those who test negative for EGFR/ALK aberrations have been limited.

In June 2018, nivolumab, a programmed death-1 immune checkpoint-inhibitor, was approved in China for the treatment of locally advanced or metastatic NSCLC after prior platinum-based chemotherapy in adult patients without EGFR or ALK aberrations by the National Medical Products Administration (NMPA; formerly China National Drug Administration) [14], based on positive Phase III clinical trial results [15‐17]. In global trials (CheckMate 017 [15] and CheckMate 057 [16]), nivolumab significantly improved the primary endpoint of overall survival (OS) in a broad population of previously treated patients, and was associated with reduced frequency of grade 3/4 adverse events (AEs) and improved QOL versus docetaxel in patients with squamous or non-squamous aNSCLC, respectively [15, 17‐19]. Outcomes of nivolumab in CheckMate 078, which was conducted in Asian patients (90.7% Chinese) with squamous or non-squamous aNSCLC without ALK or EGFR aberrations [17], were consistent with those in the global trials [20], implying that outcomes in this context were not impacted by Asian ethnicity.

The Chinese clinical guidelines (2020) second-line therapy class I recommendation for patients with stage IV non-squamous NSCLC with performance status 0–2 is nivolumab, docetaxel or pemetrexed and the class II recommendation is pembrolizumab (for patients with PD-L1 ≥ 1) or atezolizumab [21]. The class I recommendation for patients with stage IV squamous with performance status of 0–2 is nivolumab or docetaxel; the class II recommendation for second-line treatment is pembrolizumab (for patients with PD-L1 ≥1), atezolizumab, gemcitabine or vinorelbine monotherapy, or afatinib (if not eligible for chemotherapy or immuno-oncology treatment) [21]. Patients with NSCLC and a performance status of 3–4 are to receive best supportive care [21].

Our objective was to evaluate the economic value of nivolumab versus docetaxel in the treatment of squamous and non-squamous aNSCLC after prior chemotherapy in adults without EGFR/ALK aberrations in China, applying the most relevant available data to the specific context of China. At the time of analysis nivolumab was not reimbursed in China.

Clinical trial results demonstrated that nivolumab is associated with substantial increased survival benefits versus docetaxel in both squamous and non-squamous aNSCLC [15‐17]. To our knowledge, this analysis is the first economic evaluation of nivolumab in patients with aNSCLC in China that utilises the totality of the available clinical evidence for nivolumab in pre-treated NSCLC. The results indicate that nivolumab would be associated with extended survival and quality-adjusted survival benefits in squamous aNSCLC (an additional 1.489 LYs [undiscounted; 1.226 discounted LYs]) and 1.034 QALYs) and in non-squamous aNSCLC (an additional 1.228 LYs [undiscounted; 0.995 discounted LYs] and 0.833 QALYs), and incremental costs of ¥214,353 (US$31,829 [37]) in squamous aNSCLC and ¥158,993 (US$23,608) in non-squamous aNSCLC versus docetaxel. The ICER for nivolumab versus docetaxel was ¥207,388 (US$30,794) per QALY gained in squamous aNSCLC and ¥190,919 (US$28,349) per QALY gained in non-squamous aNSCLC.

The ICER value is considered as one of the decision-making criteria for payers; however, no officially recognised willingness-to-pay threshold has been set in China to date. In early 2018, the International Society for Pharmacoeconomics and Outcomes Research issued a report to define elements of value in healthcare, which indicated that several potential elements could be incorporated to produce further scenarios for different value-assessment settings [38]. Although there is no current consensus on the dimensions of value in China, a consideration of these can strategically support payers in their decision making to: (1) improve the efficiency and performance of health insurance funding; (2) lead the value orientation of the drug quality system; and (3) build a high-quality, value-based service delivery system [39].

Although there is no officially recognised willingness-to-pay threshold in China, a threshold of 3× per-capita gross domestic product (GDP) per QALY has been used frequently in Chinese cost-effectiveness analyses [40‐42]. In China, the per-capita national GDP in 2019 (based on end-of-year population) was ¥70,078 (US$10,406) [43], with considerable regional disparity reflecting China’s unbalanced economic development. These regional variations present a key challenge in determining a national willingness-to-pay threshold. For squamous aNSCLC, the ICER for nivolumab versus docetaxel in our analysis was ¥207,388 (US$30,794) per QALY, approximately 3.0× the 2019 national per-capita GDP and about 0.8× the 2019 per-capita GDP in Beijing or Shanghai. For non-squamous aNSCLC, the ICER for nivolumab versus docetaxel in our analysis was below the threshold of 2.7× the 2019 national per-capita GDP (¥190,919 [US$28,349] per QALY).

The base-case cost-effectiveness results for nivolumab versus docetaxel in aNSCLC in China are comparable with published estimates for other lung cancer therapies in aNSCLC in China (Table 4) [40, 44, 45]. Icotinib or gefitinib as first-line treatments for aNSCLC had ICERs of ¥135,890 (US$19,809) to ¥195,407 (US$28,485) per QALY versus pemetrexed plus cisplatin, and osimertinib had an ICER of ¥329,836 (US$48,081) per QALY versus chemotherapy in aNSCLC after progression following first-line EGFR tyrosine kinase inhibitor therapy.

The results of the cost-effectiveness analyses of nivolumab versus docetaxel for patients with squamous/non-squamous histology in the present study were also similar to previously published studies of nivolumab in other countries that used comparable time horizons and approach. The reported gains were 1.28/1.03 LY and 0.85/0.67 LY for Sweden and Canada, respectively [46] and 1.49/1.23 LY for the UK [26]. Nivolumab is approved for reimbursement in most countries, and such approvals and widespread use suggest acceptable value for money [14, 47, 48]. But, because of differences in healthcare systems, costs, and economic development, caution should be applied when comparing results across countries.

Two recent cost-effectiveness studies in China for nivolumab versus docetaxel in NSCLC have been reported. In Liu et al, nivolumab resulted in a LY gain of 0.30 (~3.6 months) versus docetaxel over a lifetime horizon, compared with incremental LYs of 1.235 and 1.330 for patients with squamous and non-squamous histology, respectively, in the present analysis [49]. Thus, the Liu et al study reports a substantially higher ICER value for nivolumab versus docetaxel (US$93,307 per QALY) [49] compared to the present histology-specific results. These differences may be explained by differing methods used to select survival extrapolation and for the validation process for long-term estimates. Liu et al. fitted Weibull parametric models to digitised docetaxel survival curves from CheckMate 078 [49]. However, the extrapolations appear to underpredict the Kaplan–Meier data from the trial and no validation was undertaken to increase confidence in their clinical plausibility and coherence with other data sources [17, 49]. Liu et al have further assumed proportional hazards, which may not be appropriate given that unlike chemotherapies, I-O therapies can be associated with delayed but durable responses, which can translate into improved long-term survival [50]. Thus, I-O treatments are often associated with complex hazard functions, which limit the reliability of standard parametric models, especially with short duration of follow-up [50, 51]. To address this, the analyses in the present study utilised independent parametric curves for nivolumab and docetaxel that not only provided a better fit to the respective underlying trial but also underwent extensive validation (including clinical validation) to increase the reliability of the outcomes. However, it is important to note that survival extrapolation was validated with external data from the USA, as long-term data—such as those from SEER—are not available in a Chinese population.

A second study by Zhang et al in 2020 reported the cost effectiveness of second-line nivolumab versus docetaxel for platinum-treated aNSCLC from a Chinese health service system perspective [52]. This study considerably underestimated the survival benefit for nivolumab and docetaxel, as well as the incremental benefit of nivolumab in terms of QALYs, resulting in a comparably high ICER value (US$ 72,128 per QALY) [52]. The authors estimated that OS at the end of 2 years was close to zero; however, in the CheckMate 078 study in predominately Chinese patients, 28% and 18% of patients were alive at 2 years and 19% and 12% were alive at 3 years in nivolumab and docetaxel groups, respectively [25, 52].

Although the first published economic assessment of nivolumab in second-line+ NSCLC was based on treat-to-progression dosing [53], subsequent health technology assessment opinions indicate that a 2-year treatment-stopping rule may be appropriate and reflective of clinical practice [27, 32, 33, 35, 36, 54]. Moreover, the long-term survival benefits of I-O therapies in second-line+ NSCLC trials with stopping rules (CheckMate 003) have shown to be similar to those without stopping rules (CheckMate 017 and 057) [55] and in CheckMate 078, very few (< 9%) patients were treated for longer than 2 years [56]. Additional data of the effects of stopping treatment at 2 years will emerge with the 2-year stopping rule now widely adopted in NSCLC trials [57‐61] and future trials.

In our model, several factors may potentially overestimate costs with nivolumab and therefore our reported ICERs should be considered conservative. First, disease management costs were assumed to be equal for nivolumab and docetaxel. However, it is likely that treatment-specific monitoring costs (a disease management component cost that could not be estimated specifically due to lack of data) would be lower for nivolumab owing to its improved safety profile versus docetaxel. Second, improved survival and QOL with nivolumab may reduce the use of traditional Chinese medicine and other pseudo-adjuvants, which are widely procured by hospitals for cancer patients receiving chemotherapy in China. Pseudo-adjuvants were reported to account for 28.1% of total procurement costs for all anti-tumour drugs in Shanghai in 2015 [62]. Our model did not consider the concurrent use of these non-cancer-directive treatment agents in the chemotherapy arm and did not account for any increase in the use of traditional Chinese medicine with docetaxel. Only docetaxel was considered as a relevant comparator, reflecting the standard of care in China at the time of our study, which is a limitation of this analysis. Third, the model did not consider the possibility of administering nivolumab in the outpatient setting due to its favourable safety profile and convenience, while patients receiving chemotherapy in China will usually be hospitalized [63]. In a study of 1002 patients, only one was treated in the outpatient setting (Bristol Myers Squibb data on file). Administration of nivolumab in an outpatient setting could have the potential to save resources associated with inpatient treatment and reduce the pressure on hospitals.

In addition to the cost elements described, nivolumab may provide a good illustration of the broader societal value that can be achieved through improved health outcomes. A study in Canada explored these issues via an analysis of nivolumab in squamous aNSCLC from a broad societal perspective, including costs and benefits related to caregiver burden, value to current non-patients based on the probability that they may become sick in the future (value of insurance), the option value of treatment and the value placed by patients with cancer on durable survival gains (value of hope) [53]. The study found that about half of the incremental benefit of nivolumab was omitted when using a conventional payer perspective [53]. Our analysis included only direct costs to the healthcare payer in China without considering wider societal benefits; thus, it would likely produce a higher estimate of the ICER of nivolumab. Including other dimensions of value, such as those explored in the Canadian study, could better describe the value offered by nivolumab in this setting to patients in China, their families and to society, and therefore better inform decision making. Even if the scientific spill-over of these broader value dimensions cannot be incorporated into the current economic model, this information is useful to enrich the perspectives of value assessment in China in the future.

Since its launch in China, nivolumab has presented an additional treatment option with important clinical value and long-term survival prospects for previously treated patients. Our model has demonstrated the economic value of nivolumab, which would be further improved when considering the patient assistance programme or its potential inclusion in the national reimbursement drug list, as a price reduction/discount would likely be required.

This is the first economic evaluation undertaken for nivolumab in a Chinese context using patient-level data. Nivolumab was associated with survival and quality-adjusted survival benefits at incremental cost versus docetaxel in aNSCLC. Nivolumab is therefore expected to deliver direct healthcare benefits to Chinese patients and value to the Chinese healthcare system. The true clinical and economic value of nivolumab is expected to be greater than estimated herein, as this analysis adopted a traditional healthcare payer perspective, where not all treatment benefits and costs of relevance to society have been captured.