Achieving optimal response at 12 months is associated with a better health-related quality of life in patients with chronic myeloid leukemia: a prospective, longitudinal, single center study

The introduction of imatinib in the year 2001 dramatically changed the treatment paradigm for patients with Philadelphia chromosome-positive (Ph+) chronic myeloid leukemia (CML) [1]. A number of studies revealed that imatinib as a first-line therapy induced a higher probability of achieving cytogenetic and molecular responses compared with previous therapies in CML patients in the chronic phase (CML-CP) [2, 3]. The 10-year progression-free survival (PFS) and overall survival (OS) rates were shown to be > 80% with imatinib [4]. In the past decade, second-generation tyrosine kinase inhibitors (TKIs) such as nilotinib and dasatinib further contributed to the remarkable improvement in clinical efficacy in terms of major molecular response (MMR, BCR-ABL^IS ≤ 0.1%) and molecular response 4.5 (MR4.5, BCR-ABL^IS ≤ 0.0032%) rates than imatinib as observed in the ENESTnd [5], DASISION [6], and ENESTchina [7] trials, despite no difference in the survival benefit compared with imatinib.

With the advent of TKIs, the life expectancy of patients with CML-CP is expected to be as normal as that of the general population [8]. Improvement in survival associated with treatment, necessitates the need for better understanding on the health-related quality of life (HRQoL) profile in these patients and is now recognized as an important component in the management of CML. Several studies have shown that imatinib significantly improves HRQoL in patients with CML-CP compared with hydroxyurea or interferon [9, 10]; younger aged patients and female patients had lower HRQoL scores than the general population. Furthermore, increasing age, lower level of education, more co-morbidities, advanced phase of CML, low-grade adverse events, and high out-of-pocket expenses for TKI therapy were significantly associated with an impaired HRQoL profile [9‐17]. Decreased HRQoL may be associated with poor adherence to TKI therapy, which is a key factor contributing to treatment failure and unfavorable prognosis in patients with CML.

Several landmark studies have proved that early responses to TKI therapy are important milestones of survival [18‐20], and patients treated with second-generation TKIs achieve a faster response than those treated with imatinib. Estimated PFS rates at 4 years in patients receiving nilotinib 300 mg twice daily who achieved early molecular response (EMR; BCR-ABL^IS ≤ 10% at 3 months) and who failed to achieve EMR were 95.2 and 82.9% (P = .0061), respectively, and estimated OS rates at 4 years were 96.7 and 86.7% (P = 0.0116), respectively [18]. Therefore, the question whether relatively early responses with TKI therapy could influence HRQoL outcomes in patients with CML-CP during long-term treatment remains unanswered. Most of the studies on HRQoL in patients with CML receiving TKI therapy are cross-sectional [14, 21] and longitudinal studies with long-term follow-ups, with a limited number of such studies in Asian patients are rare.

The primary objective of the current longitudinal single-center study was to prospectively explore patient-reported HRQoL profiles to identify demographic and clinical variables and treatment responses within 1 year with respect to HRQoL subscales in patients with CML-CP enrolled in the Evaluating Nilotinib Efficacy and Safety in Clinical Trials-China (ENESTchina) study. The secondary objective of the study was to compare the clinical efficacy of nilotinib and imatinib.

This prospective longitudinal study found that achieving optimal response at 12 months improved HRQoL including better RP and RE during TKI therapy in newly diagnosed patients with CML-CP treated with imatinib or nilotinib. Achieving optimal response at 12 months also significantly improved PCS over time with a 5-year follow-up. Moreover, early optimal response is associated with favorable long-term outcomes including low rates of treatment failure, disease progression, and deaths. The probability of achieving optimal response at 12 months was higher with nilotinib compared to imatinib.

Similar to previous reports [25‐27], our study also revealed that patients with CML-CP on front-line TKI who did not achieve early optimal response at 3, 6, and 12 months had higher probabilities of treatment failure and disease progression to AP or BP. Trask et al. [13] reported that individuals with CML in the AP or BP had poorer HRQoL than those in the CP using functional assessment of cancer therapy-leukemia (FACT-Leu). However, in the current study, all SF-36 patient-reported outcome (PRO) questionnaires (the most well-established generic HRQoL measure) were collected from patients only in the CML-CP and not in CML-AP. There are studies conducted in the recent past that have assessed the HRQoL using both narrative and quantitative techniques among patients with CML [10, 12, 13, 15, 28, 29]; however, the use of standardized PRO tools simplifies the data analysis and interpretation.

Our findings showed that achieving optimal response at 12 months was associated with more favorable HRQoL. Although optimal response at 3 months was associated with higher FFS and PFS rates, it had no impact on the HRQoL profile of patients. It is possible that achieving optimal response at 6 months was associated with a tendency for a state of well-being compared with those with a non-optimal response, as indicated in the small number of patients studied. Armstrong et al. reported that adalimumab treatment resulted in a statistically significant and clinically relevant reduction in disease severity that was associated with QoL improvement in patients with psoriasis compared with placebo [30]. Hess et al. reported that patients with mantle cell lymphoma achieving a partial or better clinical response showed an improvement in FACT-Lym total scores [31]. Similarly, our results reflect that effective TKI treatment leads to an improvement in physical and mental health in patients with CML, suggesting that TKI therapy responses within 1 year can possibly predict both future treatment outcomes and physical and mental well-being of patients with CML-CP. The SPIRIT2 trial, a comparison study between imatinib and dasatinib in newly diagnosed patients with CML, showed no significant difference in HRQoL with generic and cancer-specific instruments [32]. In the current study, although the HRQoL outcome did not vary with the use of different TKIs (imatinib or nilotinib), the use of nilotinib was identified as an independent factor associated with achieving optimal response at 6 and 12 months. Therefore, in comparison to imatinib, nilotinib-induced response may indirectly benefit HRQoL outcomes in patients with CML-CP.

As reported earlier [16, 17, 28], younger patients (age < 40 years) and patients with a bachelor’s degree or higher had better physical and/or mental health. Previous studies have reported that male patients had better physical and mental health than female patients [16, 21, 28]. In contrast, female gender was associated with better SF and RE in the present study; however, higher SF scores in female patients at baseline may have contributed to their better SF during therapy.

There were some limitations in the current study. The small sample size was the primary limitation to detect the true effect of variables (PF, SF, and RE) on achieving response. A larger sample size would have supported interpretation of the results by means of achieving statistical significance rather than a simple estimation of tendency between optimal response at 6 months and PF, SF, and RE. Further, the SF-36 questionnaire may not be sensitive enough to detect QoL changes in the CML population because it is not a cancer-specific instrument. In addition, the study population was relatively young and in good health due to stringent criteria of excluding patients with co-morbid conditions, organ impairment, or severe or uncontrolled medical conditions. These findings show that better responses at 12 months (or 6 months) were associated with better HRQoL, and the results should be confirmed in future studies with a larger sample size including all age groups.

Achieving an early optimal response associated with nilotinib may not only help patients in attempting the treatment-free remission (TFR), but also to have better HRQoL. Nilotinib is the first and only TKI to include information on stopping the therapy in patients with Ph + CML-CP as approved by both the European Commission [33] and the United States [34]. When Hochhaus et al. evaluated the impact of TFR on patient’s QoL prior to, during, or after TFR, no effect of stopping the treatment was observed; in addition, the reported levels of anxiety/depression were similar between during and after TFR [35].

In conclusion, the use of TKI (imatinib or nilotinib) did not show any impact on HRQoL outcomes during TKI therapy. Each subscale score of HRQoL at baseline between patients achieving optimal response and those not achieving optimal response at 3, 6, or 12 months during TKI therapy was similar. Achieving optimal response by 12 months was not only associated with longer survival and lower rates of treatment failure and disease progression but also better HRQoL in newly diagnosed patients with CML-CP on front-line TKI. Further studies with larger sample sizes are required to confirm these findings.