Cost-Effectiveness Analysis of Tisagenlecleucel in the Treatment of Relapsed or Refractory B-Cell Acute Lymphoblastic Leukaemia in Children and Young Adults in Spain.

PURPOSE: Tisagenlecleucel, a chimeric antigen receptor T-cell (CAR-T) therapy, is a promising alternative for the management of children and young adults with relapsed and refractory B-cell acute lymphoblastic leukemia (r/r ALL). The aim of this study was to determine whether treatment with tisagenlecleucel is a cost-effective intervention compared with salvage chemotherapy in paediatric and young adult patients with r/r ALL in Spain.
MATERIALS AND METHODS: A partitioned survival model of monthly cycles with three health states was used (event-free survival, progressive/relapsed disease and death). A lifetime time horizon and the Spanish National Health System perspective were adopted. During the first 5 years, permanence in the different health states was determined according to the results in the clinical studies. In successive years, mortality tables of the Spanish general population adjusted by standardized mortality rate for survivors of childhood cancer were used. Clinical, economic, and quality of life parameters were drawn from clinical trials and the literature. Only direct health costs (pharmacological costs and the costs derived from health resource use) were included. The robustness of the results was evaluated in a sensitivity analysis.
RESULTS: This cost-effectiveness analysis showed a greater benefit (10.10 and 8.97 life-years gained [LYGs] and quality-adjusted life-years [QALYs] gained, respectively) and a higher cost (€ 258,378.40) for tisagenlecleucel compared to salvage chemotherapy. The resulting incremental cost-effectiveness and cost-utility ratios were € 25,576.80 per LYG and € 28,818.52 per QALY gained, respectively. In the sensitivity analysis, all the results were below € 50,000/QALY.
CONCLUSION: Tisagenlecleucel would represent a cost-effective intervention for the treatment of children and young adults with r/r ALL in Spain.

Introduction

Acute lymphoblastic leukaemia (ALL) is the most common neoplasm in children, accounting for 75–80% of cases of paediatric leukaemia and 25% of tumours diagnosed in children.1,2

In recent decades substantial improvements have occurred in the treatment of ALL, which have contributed to the cure rate rising from <10% in the 1960s to >80% at present.3,4 However, refractory disease and relapse remain important challenges in the disease management.

Between 15% and 20% of children and young adults with ALL are estimated to have refractory disease or relapses (r/r ALL).5–8 These patients have a very poor prognosis and the survival rate may be <10% after two or more relapses.6

Children and young adults with r/r ALL generally receive salvage chemotherapy to achieve complete remission (CR) and become candidates for allogeneic hematopoietic stem cell transplantation (HSCT), a potentially curative procedure. However, allogeneic HSCT is viable only in patients who respond to chemotherapy and have an adequate donor,9 and is associated with numerous potentially life-threatening short, medium- and long-term complications (infections, hepatic veno-occlusive disease, acute or chronic graft-versus-host disease) which have a substantial impact on the survival and the quality of life of patients.10–12

Chimeric antigen receptor T-cell (CAR-T) therapies are a promising alternative for the management of children and young adults with r/r ALL. CAR-T therapies are based on the genetic modification of the patient’s lymphocytes in order to target and kill the tumour cells. CAR-T production requires the patient’s lymphocytes to be extracted from the blood by apheresis and modified in the laboratory, adding a gene that codes for a chimeric antigen receptor (CAR). These modified and expanded cells are infused into the patient intravenously.13,14

Tisagenlecleucel is the first CAR-T therapy indicated for the treatment of paediatric and young adult patients up to 25 years of age with B-cell ALL that is refractory, in relapse post-transplant (HSCT) or in second or later relapse, and is the first gene therapy financed by the Spanish National Health System (NHS).14,15

The safety and efficacy of treatment with tisagenlecleucel in paediatric and young adult patients with r/r B-cell ALL were evaluated in the pivotal ELIANA study and in two supportive studies (ENSIGN and B2101J).13,16-19 In the pivotal ELIANA study, among infused patients (n = 75), the overall remission rate within 3 months was 81.3%, the median overall survival (OS) was 19.1 months, and the probability of survival at 6 and 12 months were 90.3% and 76.4%, respectively.14,19 The most frequent adverse events (AE) of special interest were cytokine release syndrome (CRS) (77.3%), infections (42.7%), neurological events (40.0%), cytopenias not resolved by day 28 (37.3%), febrile neutropenia (34.7%) and tumour lysis syndrome (4.0%).19

The objective of this study was to determine whether treatment with tisagenlecleucel is a cost-effective intervention compared with salvage chemotherapy in paediatric and young adult patients with r/r ALL within the indications supported by the Spanish NHS.

Materials and Methods

An economic evaluation of direct health costs was carried out from the perspective of the NHS using cost-effectiveness and cost-utility analyses.

We used a lifetime time horizon to capture all costs and benefits of the introduction of tisagenlecleucel. As recommended by national pharmacoeconomic guidelines when the time horizon of the analysis is >1 year, a discount rate of 3% per year was applied to costs and benefits.20,21

Patients

A population of paediatric and young adult patients up to 25 years of age with B-cell ALL that is refractory, in relapse post-transplant or in second or later relapse was considered. The definition of this population is consistent with the indication of tisagenlecleucel and the clinical characteristics of the population included in the ELIANA, ENSIGN and B2101J studies.13,16-19

Treatments

To date, the clinical studies of tisagenlecleucel have included a single arm, so there is no study comparing tisagenlecleucel with any other treatment. In the present analysis, tisagenlecleucel was compared with FLA-IDA salvage chemotherapy (combination of fludarabine, cytarabine and idarubicin), which is the most frequent treatment used in the target population of tisagenlecleucel in Spain.

In the case of tisagenlecleucel, we considered the results obtained in the intention to treat (ITT) population (all enrolled patients, regardless of whether they received tisagenlecleucel infusion or not) from the pooled data of the ELIANA (NCT02435849, cut-off date: December 31, 2017), ENSIGN (NCT02228096, cut-off date: October 6, 2017) and B2101J trials (NCT01626495, cut-off date: January 30, 2017).13,16-19 In the case of the comparator, we considered the results of a study in which the efficacy of salvage chemotherapy was evaluated in children with r/r ALL,22 a population comparable to that of patients eligible to receive tisagenlecleucel.

Analysis

A partitioned survival model of monthly cycles with three health states was used: event-free survival (EFS), progressive/relapsed disease (PD/RL) and death. The model structure is shown in Figure 1. The proportion of patients in the EFS state is defined by the results of EFS with each treatment and corresponds to patients who are still free of progression. The proportion of patients in the PD/RL state is defined by the difference between the OS and EFS curves, corresponding to patients who have relapsed or have progressed and who are still alive, and the proportion of patients in the death state is determined by the OS results.

Figure 1

Structure of the cost-effectiveness model.

Effectiveness Measures

Effectiveness was expressed as quality-adjusted life years (QALY) gained and life-years gained (LYG).

During the first 5 years, LYGs were estimated using parametric curves obtained from the OS results observed in the clinical studies (tisagenlecleucel: ELIANA, ENSIGN and B2101J; salvage chemotherapy: Von Stackelberg et al).13,16-19,22 Several models were constructed according to parametric functions (exponential, Weibull, Gompertz, log-normal, log-logistic, gamma) and spline curves (with one, two, three or four nodes). Given that no curve precisely matched the results observed, OS was estimated using a curve resulting from the weighting of the different distributions. Parametric estimates and goodness-of-fit criteria were estimated for each survival distribution (). A visual comparison of the survival data based on the observed data, all considered distributions, and the weighted distribution are reported in (tisagenlecleucel) and (FLA-IDA).

From the fifth year onwards, those who remained alive were subsequently assumed long-term survivors of ALL. The long-term ALL survival was modelled using mortality tables with a mortality adjustment using the standardized mortality rate (SMR) ratio of 5-year ALL survivors published in the literature.23 Therefore, LYG were estimated using mortality tables of the Spanish general population24 applying an SMR for survivors of childhood cancer (SMR = 9.05).23 The resulting OS curve is shown in Figure 2.

Figure 2

Predicted OS curve for tisagenlecleucel and salvage chemotherapy.

Abbreviation: FLA-IDA, combination of fludarabine, cytarabine and idarubicin; OS, overall survival.

During the first 5 years, EFS was estimated in different ways for tisagenlecleucel and for the comparator. For tisagenlecleucel, parametric curves models were fitted to the EFS data. For the comparator, no EFS data were available; therefore, the EFS curve was derived from the OS curve assuming that the cumulative hazard function for EFS would be proportional to the cumulative hazard function for OS (0.83). After year 5, the same approach was used for both treatments: the cumulative survival probabilities of EFS were assumed to flatten up until they reached OS (Figure 3).

Figure 3

Predicted EFS curve for tisagenlecleucel and salvage chemotherapy.

Abbreviation: EFS, event-free survival; FLA-IDA, combination of fludarabine, cytaribine and idarubicin.

QALYs were estimated according to the time patients remained in each health state and the utilities associated with that state, determined on a scale of 0 (death) to 1 (perfect health). The utilities in each health state were obtained from the literature25 and were validated by clinical experts. Additionally, disutilities associated with treatment, the intensive care unit (ICU) stay, and HSCT were considered, and an adjustment was applied according to age (Table 1).26,27

Table 1

Utilities and Disutilities Considered in the Analysis

Health State Utility
State	Utility	Source
Utility in the EFS state	0.91	Based on Kelly et al, 2015.25
Utility in the PD/RL state	0.75
Disutilities
Input	Disutility	Comments
Disutility associated with treatment with tisagenlecleucel or with FLA-IDA	− 0.42	Based on Sung et al, 2003.26 It was applied during the hospital stay.
Disutility associated with ICU stay	− 0.91	It was assumed that during hospitalization in the ICU patients had a utility = 0.
Disutility associated with HSCT	− 0.57	Disutility based on Sung et al, 2003.26 The disutility for HSCT was assumed to last for one year.
Age-Related Utilities
Age (years)	Adjustment	Source
Age <25	1	Values based on Szende et al, 2014 after adjustment for each age range.27
Age 25–34	0.99
Age 35–44	0.97
Age 45–54	0.90
Age 55–64	0.85
Age 65–74	0.83
Age 75+	0.77

Abbreviations: EFS, event-free survival; FLA-IDA, combination of fludarabine, cytarabine and idarubicin; HSCT, haematopoietic stem cell transplantation; ICU, intensive care unit; PD/RL, progressive/relapsed disease.

Resource Use and Health Costs

The cost estimate included the costs of pharmacological treatments and the costs derived from health resource use. All costs are expressed in 2018 euros.

In the case of tisagenlecleucel, it was assumed that all candidates for tisagenlecleucel infusion would undergo leukapheresis and cryopreservation of the patient leukapheresis material, but that only 81.8% would receive tisagenlecleucel infusion.16–19 Therefore, a different resource use was considered in the case of those who would receive tisagenlecleucel infusion and those who would not. In infused patients, based on the clinical trial results, the costs of the use of the following resources were considered: bridging chemotherapy (71.3% of patients),16–19 lymphodepleting chemotherapy (96% of patients),13,16 tisagenlecleucel infusion,13,16 hospitalization (Table 2), management of AE (, and ), HSCT (16.58% of patients),16–19 follow-up (Table 3) and terminal care. In non-infused patients, the costs of salvage chemotherapy (one FLA-IDA cycle), hospitalization (Table 2), AE management (), follow-up (Table 3) and terminal care were considered.

Table 2

Hospital Stay According to Treatment

	Number of Days	Source
Patients Infused with Tisagenlecleucel
Lymphodepleting chemotherapy	13.98 days	Estimate based on ELIANA;13,16 validated by clinical experts.
Tisagenlecleucel	25.85 daysa1.78 days in ICUb	Estimate based on ELIANA;13,16 validated by clinical experts.
Patients Treated with Salvage Chemotherapy
FLA-IDA	21 days	Based on opinion of clinical experts

Notes: aAverage length of stay after tisagenlecleucel infusion (excluding ICU). bAverage days of ICU stay not due to CRS after tisagenlecleucel infusion.

Abbreviations: FLA-IDA, combination of fludarabine, cytarabine and idarubicin; ICU, intensive care unit.

Table 3

Resource Use of Tisagenlecleucel and Salvage Chemotherapy in EFS and PD/RL States

		Frequency of Visits/Tests in the EFS State				PD/RL
		Year 1	Year 2	Years 3–5	Years 5+
Consultant visit	Tisagenlecleucel	12	4	2	2	6
	Salvage chemotherapy	6			1
Blood tests	Tisagenlecleucel	16	4	2	0	6
	Salvage chemotherapy	6
Cerebrospinal fluid	Tisagenlecleucel	1	0	0	0	1
	Salvage chemotherapy	1
Electrocardiogram	Tisagenlecleucel	1	0	0	0	0
	Salvage chemotherapy	0
Bone marrow aspirate	Tisagenlecleucel	3	0	0	0	1
	Salvage chemotherapy	1
Bone marrow biopsy	Tisagenlecleucel	3	0	0	0	0
	Salvage chemotherapy	0
Echocardiogram	Tisagenlecleucel	0	0	0	0	1
	Salvage chemotherapy	1

Notes: Resource use validated by clinical experts.

Abbreviations: EFS, event-free survival; PD/RL, progressive/relapsed disease.

In the case of the comparator, the pharmacological costs of salvage chemotherapy (FLA-IDA), hospitalization costs (Table 2), costs of the management of AE (), costs of HSCT (43.14% of patients),22 follow-up (Table 3) and terminal care costs were considered.

The cost of treatment was estimated according to the ex-factory price (EFP) of each drug in the database of the General Council of Official Associations of Pharmacists (CGCOF) after applying the corresponding discount according to Royal Decree Law (RDL) 8/201028,29 (Table 4).

Table 4

Drug Prices Before and After the Discount According to RDL 8/2010

Treatment	EFP	Discount RDL 8/2010	EFP - Discount RDL 8/2010
Tisagenlecleucel (1.2 x 106 to 6 x 108 cells dispersion for infusion)	€ 320,000.00	4%	€ 307,200.00
Cyclophosphamide (1 g, 1 vial)	€ 10.40	15%	€ 8.84
Etoposide (20 mg/mL, 1 vial, 5 mL)	€ 5.03	–	€ 5.03
Fludarabine (25 mg/mL, 1 vial, 2 mL)	€ 49.77	–	€ 49.77
Cytarabine (1 g, 1 vial, 10 mL)	€ 14.38	–	€ 14.38
Idarubicin (5 mg, 1 vial, 5 mL)	€ 40.90	–	€ 40.90

Abbreviations: EFP, ex-factory price; RDL, royal decree Law.

The costs of treatment were calculated assuming wastage, and considering the therapeutic schedule in a patient with the baseline characteristics of the patients included in the ELIANA, ENSIGN and B2101J studies (41.69 kg and 1.3 m2). The treatment schedules and doses considered in the analysis were validated by clinical experts and are described in Table 5.14

Table 5

Treatment Dosages Considered in the Model

Treatment		Drug	Dosagea
Intervention Treatment: Tisagenlecleucel
Lymphodepleting chemotherapyb	Regimen 1	Fludarabine	30 mg/m2 IV daily for 4 days
		Cyclophosphamide	500 mg/m2 IV daily for 2 days
	Regimen 2	Cytarabine	500 mg/m2 IV daily for 2 days
		Etoposide	150 mg/m2 IV daily for 3 days
CAR-T infusion		Tisagenlecleucel	For patients 50 kg and below: 0.2 to 5 x 106 CAR-positive viable T cells/kg body weight.For patients above 50 kg: 0.1 to 2.5 x 108 CAR-positive viable T cells (non-weight based).
Comparator Treatment: Salvage Chemotherapy
FLA-IDA		Fludarabine	30 mg/m2 IV daily (5 doses)
		Cytarabine	2,000 mg/m2 IV daily (5 doses)
		Idarubicin	8 mg/m2 IV daily (3 doses)

Notes: aDosages validated by clinical experts. bBased on the ELIANA study, it was considered that 94.67% of patients received regimen 1; and 1.33% of patients, regimen 2.13,14

Abbreviations: CAR, chimeric antigen receptor; FLA-IDA, combination of fludarabine, cytarabine and idarubicin; IV, intravenous.

The unit costs of health resources were obtained from the literature and from national databases (Minimum Basic Data Set and eSalud) (Table 6).30–32

Table 6

Unit Costs of Health Resources Used in the Analysis

Resources	Unit Cost
Hospitalizations
General hospitalization (haematology) (cost/day)a	€ 915.72
ICU stay (cost/day)	€ 1,470.36
Other Health Resources
Cryopreservation	€ 1,109.35
Leukapheresis	€ 1,640.58
Day hospital visit	€ 220.90
Specialist visit	€ 86.46
Electrocardiogram	€ 40.12
Blood tests	€ 99.51
Cerebrospinal fluid	€ 317.85
Bone marrow aspirate	€ 280.42
Echocardiogram	€ 102.68
Bone marrow biopsy	€ 280.42
Subsequent HSCT costb	€ 88,237.91
Terminal care costc	€ 6,041.74

Notes: aEstimated from the cost of the stay equivalent to DRGICD-9-CM 204 “Lymphoid leukaemia” and the length of stay for this ICD-9-CM stipulated in the Minimum Basic Data Set (CMBD).31 bThe costs of HSCT include: cost of allogeneic HSCT process (Cost 803-ALOGENIC BONE MARROW TRANSPLANTATION); cost of resource use resulting from obtaining hematopoietic stem cells (weighted according to the sources of hematopoietic stem cells, based on data from the Annual Report on HSCT of the National Transplant Organization); and cost of follow-up for 2 years. Details of the estimate pending publication. cEstimated from: Nuño-Solinís et al.30

Abbreviations: HSCT, hematopoietic stem cell transplantation; ICU, intensive care unit.

Finally, the costs derived from the management of grade III/IV AEs with an incidence of ≥5% in the two treatment options were considered. The AE rates of tisagenlecleucel were obtained from the ELIANA study and those of salvage chemotherapy from Raetz et al.13,16,19,33 shows the AEs considered in the analysis, with the proportion of patients in both treatment arms and the unit cost. The costs of AEs were obtained from the literature and the eSalud database.32

Additionally, in patients treated with tisagenlecleucel, the costs of treatment with intravenous immunoglobulin (IVIG) during the duration of B-cell aplasia recorded in the ELIANA study were collected, considering that 73.33% of infused patients would receive IVIG for 11.4 months, resulting in a cost per event of € 12,775.99 (see detail in the supplementary material ).13,16,34

Sensitivity Analysis

A deterministic sensitivity analysis was performed to confirm the robustness of the model and evaluate the influence of variations in the parameters with the greatest uncertainty. As recommended by the main Spanish pharmacoeconomic guidelines, discount rates of 0% and 5% were applied for costs and benefits, and the effect of modifications in the time horizon (20 and 50 years, compared with the lifetime horizon in the base case) was evaluated.20,21 Additionally, the effect of variations in different parameters was evaluated, including, among others, variations in the length of IVIG treatment (EFS; versus 11.4 months in the base case), the point from which long-term ALL survival data for OS are considered (after 2 years vs 5 years in the base case), the estimated efficacy based on alternative parametric functions, the utilities considered (ELIANA; versus the estimate based on the literature in the base case), the proportion of transplanted patients, and the unit costs of all resources considered in the model (± 25%). The details of the analysis are shown in the supplementary material ( and ).

Results

Results of the Base Case

The addition of tisagenlecleucel to the treatment of patients aged up to 25 years with r/r ALL provided an additional gain in effectiveness over salvage chemotherapy of 10.10 LYGs and 8.97 QALYs (Table 7).

Table 7

Results of the Cost-Effectiveness and Cost-Utility Analysis. Base Case

	Tisagenle-cleucel	FLA-IDA	Incremental
Costs
Pre-treatmenta	€ 27,694.64	–	€ 27,694.64
Treatment	€ 276,381.25	€ 20,062.68	€ 256,318.57
Drug	€ 251,378.83	€ 832.65	€ 250,546.18
Hospitalization	€ 25,002.42	€ 19,230.03	€ 5,772.39
Adverse events	€ 31,244.21	€ 34,098.83	€ -2,854.61
Follow-up	€ 5,978.91	€ 869.07	€ 5,109.83
EFS	€ 4,415.65	€ 473.25	€ 3,942.40
PD/RL	€ 1,563.25	€ 395.82	€ 1,167.43
Subsequent HSCTb	€ 11,964.46	€ 38,063.41	€ -26,098.95
Terminal care	€ 4,161.61	€ 5,952.68	€ -1,791.07
Total costs	€ 357,425.07	€ 99,046.67	€ 258,378.40
Effectiveness
LYGs	10.97	0.87	10.10
EFS	10.05	0.62	9.43
PD/RL	0.92	0.25	0.67
QALYs	9.43	0.46	8.97
EFS	8.86	0.56	8.30
PD/RL	0.69	0.19	0.50
ICER (€ per LYG):	€ 25,576.80
ICUR (€ per QALY gained):	€ 28,818.52

Notes: aThe cost of pre-treatment includes the cost of bridging chemotherapy, lymphodepleting chemotherapy and the costs of hospitalization for bridging chemotherapy and lymphodepleting chemotherapy. bThe costs of HSCT include: cost of allogeneic HSCT (Cost 803-ALOGENIC BONE MARROW TRANSPLANTATION); cost of resource use resulting from obtaining hematopoietic stem cells (weighted according to the sources of hematopoietic stem cells, based on data from the Annual Report on HSCT of the National Transplant Organization); and cost of follow-up for 2 years. Details of the estimate pending publication. The figures in bold represent subtotals and totals.

Abbreviations: EFS, event-free survival; FLA-IDA, combination of fludarabine, cytarabine and idarubicin; HSCT, haematopoietic stem cell transplantation; ICER, incremental cost-effectiveness ratio; ICUR, incremental cost-utility ratio; LYG, life year gained; PD/RL, progressive/relapsed disease; QALY, quality-adjusted life year.

The introduction of tisagenlecleucel entailed an additional total cost of € 258,378.40. In the case of tisagenlecleucel, the main cost determinant was the pharmacological cost while, in the case of FLA-IDA, it was the cost derived from HSCT (Table 7).

Taking these results into account, an incremental cost-effectiveness ratio (ICER) of € 25,576.80/LYG and an incremental cost-utility ratio (ICUR) of € 28,818.52/QALY was estimated.

In short, the results of this analysis show that tisagenlecleucel would be a cost-effective intervention compared with salvage chemotherapy, considering a willingness-to-pay threshold of € 30,000/QALY.

Results of the Sensitivity Analysis

The sensitivity analysis showed that the results of the model are robust, since all variations result in an ICUR below € 50,000/QALY. The details of all the results are shown in the supplementary material ( and ).

In the tornado diagram (Figure 4), the changes in parameters that most affected the results were those made in the discount rate for costs and benefits (0–5%; 3% base case), the pharmacological cost of tisagenlecleucel (± 25%) and age of onset (1–25 years; 12 years base case). Even so, all modifications resulted in an ICUR below € 40,000/QALY.

Figure 4

Results of the deterministic sensitivity analysis. Tornado diagram.

Abbreviations: AE, adverse event; ALL, acute lymphoblastic leukaemia; CI, confidence interval; CRS, cytokine release syndrome; EFS, event-free survival; HSCT, haematopoietic stem cell transplantation; PD/RL, progressive/relapsed disease; QALY, quality-adjusted life-year; SMR, standardized mortality ratio

In the analysis of scenarios ( in the supplementary material), the modification of the time horizon (20 years; vs lifetime in the base case) and different OS parametric functions are the most influential variations in the results, in all cases resulting in an ICUR below € 50,000/QALY.

Discussion

The therapeutic value of tisagenlecleucel in patients with r/r ALL has been widely recognized by the health systems of various European Union countries, including Spain, which NHS has incorporated tisagenlecleucel into its portfolio of services at unprecedented speed for a high-cost, high-complexity treatment.15,35

To date, three economic evaluations of tisagenlecleucel for the treatment of paediatric r/r ALL have been carried out, all in the United States and from the perspective of the health service payer.36–38 Additionally, a report by the National Institute for Health and Care Excellence (NICE) recommended the use of tisagenlecleucel for paediatric r/r ALL within the Cancer Drugs Fund39 and a report from the Institute for Clinical and Economic Review concluded that tisagenlecleucel could be cost-effective in this indication.40 In these evaluations, tisagenlecleucel was compared with blinatumomab,38,39 and with salvage chemotherapy based on the use of clofarabine monotherapy37,40 or other agents.36,38

The present study is the first cost-effectiveness and cost-utility analysis of tisagenlecleucel in a European country. Our results show that treatment with tisagenlecleucel would be a cost-effective intervention compared with salvage chemotherapy in paediatric and young adult patients with r/r ALL in Spain, providing a gain of 9.03 QALYs and an ICUR below € 30,000/QALY, a cost-utility threshold commonly accepted in Spain.21,41 Likewise, the introduction of tisagenlecleucel would also be associated with an incremental gain of 10.10 LYGs, with an ICER of € 25,576.80/LYG.

Although the QALYs gained in the present study are similar to those estimated by Whittington et al37 and Sarkar et al,36 and somewhat lower than those found by Lin et al,38 the ICUR estimated in this study from the NHS perspective (€ 28,818.52/QALY) is clearly lower than that observed in the previous reports. This could be due, mainly, to the fact that the difference in the price of tisagenlecleucel between Spain and the US is more than € 200,000. Likewise, comparisons between our study and the US economic evaluations should be made with caution, due to differences in the methodologies used and the variability inherent to carrying out analyses in different settings.

In the previous reports, the costs and results of tisagenlecleucel were considered on the assumption that all patients received the tisagenlecleucel infusion (per-protocol population analysis). However, in the present study, costs and efficacy results were considered in the candidate population to receive tisagenlecleucel, which includes both infused and non-infused patients (ITT population analysis), taking into account the results observed in clinical trials. Considering the clinical and economic results in the ITT population reflects a more realistic approach to the results expected in clinical practice, and was the option recommended by clinical experts.

Currently, in Spain, patients with r/r ALL receive salvage chemotherapy in order to achieve a CR that allows HSCT and, therefore, this therapeutic intervention has been considered as the comparator. However, in clinical practice, a high proportion of patients treated with salvage chemotherapy do not achieve CR, do not have a compatible donor, die before being able to receive HSCT or develop complications during salvage chemotherapy that contraindicate the HSCT realization. For this reason, in the cost estimates of the comparator, the proportion of patients receiving HSCT observed in the same study that was used as a source of effectiveness data was considered.22 Likewise, as the rate of transplantation observed in the clinical trials of tisagenlecleucel (16.58%) was considered, the present study provides a view closer to real clinical practice than previous reports.37,38 In any case, the sensitivity analysis of the present study showed that neither variations in the proportion of transplanted patients or the cost of HSCT had a significant impact on the results.

In the cost-effectiveness study conducted by Lin et al,38 the efficiency of tisagenlecleucel was based on confirmation of the long-term effectiveness results without the requirement for HSCT in a substantial proportion of patients. However, in the present analysis, considering that 16.58% of patients treated with tisagenlecleucel would receive HSCT, tisagenlecleucel would remain a cost-effective option. Likewise, to assess the effect of variations on the proportion of transplanted patients, in the sensitivity analysis a range in HSCT carried out of between 11.33% and 21.83% was considered. In all cases, the results were below € 30,000/QALY.

In economic evaluations in other countries, tisagenlecleucel was compared with blinatumomab and clofarabine monotherapy.37–39 However, these options would not be adequate in our setting. Blinatumomab has a negative financing opinion42,43 and, in the opinion of clinical experts, clofarabine monotherapy is not considered a treatment option for these patients in Spain. Therefore, conservatively, we chose to estimate the costs of salvage chemotherapy based on FLA-IDA, the most frequent salvage chemotherapy used in Spain.

However, in some patients, blinatumomab might be used as a foreign drug, which would mean a significant increase in pharmacological costs for the comparator, with a modest effect in terms of efficacy. In children with r/r ALL, blinatumomab has shown a response rate44–47 somewhat higher than that observed with salvage chemotherapy15,19,48 but lower than that observed with tisagenlecleucel in the ELIANA study (81.3% at 3 months).14,19

The present study has some limitations due to the limitations in the clinical trials on which it is based. The most important is the difficulty in establishing comparisons with other treatments and in estimating the long-term effectiveness results. Secondly, the follow-up of the studies of tisagenlecleucel is limited, which requires extrapolations of long-term efficacy. Clinical studies to determine the effectiveness of tisagenlecleucel in real life are needed. However, in the sensitivity analysis, the effect of variations in long-term modelling assumptions was evaluated in order to consider the patient’s lifetime, and in no case did the results exceed € 50,000/QALY, confirming the robustness of the results.

Another parameter influenced by the limitations in the follow-up of studies of tisagenlecleucel is the duration of IVIG treatment. Therefore, in the sensitivity analysis, a scenario was considered in which patients would receive IVIG while free of progression (compared with 11.4 months in the base case), resulting in an ICUR of € 38,247.21/QALY. Therefore, even supposing that patients received IVIG during the entire remission period, tisagenlecleucel would be a cost-effective treatment option, taking into account the thresholds used in cost-effectiveness studies of orphan drugs, which can exceed € 100,000/QALY.49,50

The introduction of CAR-T therapies in the NHS poses important medical, logistical and economic challenges, but also offers opportunities to improve efficiency. Given the scarcity of data on the long-term effectiveness of treatments, the adoption of risk-sharing agreements or innovative pay-by-results schemes is a very useful option for managing uncertainty. The adoption of this type of agreements will reduce the costs associated with treatment with tisagenlecleucel and improve the efficiency of the management of children and young adults with r/r ALL.

Conclusion

The results of this study show a greater benefit for tisagenlecleucel vs salvage chemotherapy in the treatment of r/r ALL in Spain. From the NHS perspective, tisagenlecleucel would represent a cost-effective intervention for the treatment of children and young adult patients with r/r ALL.