Ribociclib plus letrozole in patients with hormone receptor-positive, HER2-negative advanced breast cancer with no prior endocrine therapy: subgroup safety analysis from the phase 3b CompLEEment-1 trial
Article Category: Research Article
Pubblicato online: 17 mag 2022
Pagine: 238 - 247
Ricevuto: 25 feb 2022
Accettato: 08 apr 2022
DOI: https://doi.org/10.2478/raon-2022-0020
© 2022 Simona Borstnar, Marketa Palacova, Aleksandra Łacko, Constanta Timcheva, Einav Nili Gal-Yam, Konstantinos Papazisis, Juraj Beniak, Pavol Kudela, Gábor Rubovszky, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Among females, breast cancer is the most frequently diagnosed cancer in all regions of the world, with the exception of Eastern Africa, and is one of the leading causes of cancer deaths globally.1 Breast cancer accounted for over two million new cases (11.6% of cancer diagnoses globally) and over 626,000 deaths (6.6% of cancer deaths globally) in 2018.2 Male breast cancer is a much rarer malignancy, accounting for less than 1% of all breast cancer diagnoses, and with an incidence of less than 1% in men.3
Despite advances in the understanding of the pathogenesis of breast cancer that has led to improvements in the management of advanced breast cancer, it remains a serious and incurable disease, affecting pre, peri and postmenopausal women, as well as men, across a range of comorbidities, differing functional status and quality of life (QoL). Breast cancer is a heterogeneous disease that features a number of distinct histological, intrinsic molecular, and clinical subtypes differentiated by gene profiles, and also by estrogen, progesterone, and HER2 receptors as surrogate markers, all with prognostic and predictive significance.4 Hereditary factors may also influence treatment.
Although hormone receptor-positive (HR+) an d human epidermal growth factor receptor-negative (HER2−) breast cancer is the most common form of breast cancer, with the best survival pattern overall, HR+/HER2− status is associated with poorer survival in advanced-stage disease.5 Endocrine therapy is recommended by major international treatment guidelines as first-line treatment for the majority of patients with advanced breast cancer.6, 7, 8, 9
Third-generation aromatase inhibitors such as anastrozole, letrozole, and exemestane were, until recently, considered standard-of-care for first-line endocrine therapy, demonstrating improved time to treatment progression and enhanced survival duration and a more acceptable tolerability profile than older endocrine agents such as tamoxifen.8, 9 Another endocrine therapy, the selective estrogen receptor (ER) degrader, fulvestrant, has been shown to significantly improve progression-free survival (PFS) and duration of response compared with anastrozole in endocrine therapy-naïve HR+ locally-advanced or metastatic breast cancer patients.10
Breast cancer recurrence and the refractory nature of advanced disease remain a major clinical challenge, and new therapeutic approaches to delay the development of endocrine resistance across the diversity of patient populations with advanced breast cancer are required. A key mechanism for the development of endocrine resistance is understood to involve interactions between the estrogen receptor and growth factor receptor signaling mediated by the phosphatidylinositol-3-kinase (PI3K)/ protein kinase B (AKT)/mammalian target of rapamycin (mTOR) pathway, the mitogen-activated protein kinase (MAPK) pathway, or the cyclin D1/ cyclin-dependent kinase (CDK)-retinoblastoma tumor suppressor (Rb) cell cycle regulation pathway.11, 12, 13 CDK4/6 overexpression, which is regularly observed in HR+ breast cancer, is a key mediator of endocrine resistance.14
An increasing understanding of the role of the CDK 4 and 6 pathway in the cell cycle regulation and downstream signaling responsible for over-proliferation of cancer cells has resulted in the development of a number of agents that target the CDK4/6/Rb pathway.11, 12, 13, 14 CDK4/6 inhibitors have become established as important targeted agents for cancer treatment,7, 9 and their use to inhibit cell-cycle progression been shown to be an effective therapeutic strategy in HR+ breast cancer, with the potential of overcoming or delaying endocrine resistance.15, 16, 17
Currently, three CDK4/6 inhibitors have been approved for the tr eatment of HR+/HER2− advanced breast cancer: abemaciclib (LY-2835219; Eli Lilly), palbociclib (PD-0332991; Pfizer), and ribociclib (LEE011; Novartis). These oral, highly selective CDK inhibitors represent an important therapeutic development in the treatment of breast cancer.
Ribociclib is an orally bioavailable selective small-molecule inhibitor of CDK4/6 that acts by binding to the adenosine triphosphate (ATP)-binding cleft of CDK4 and CDK6.18 The MONALEESA (Mammary Oncology Assessment of LEE011’s Efficacy and Safety) trials (MONALEESA-2, MONALEESA-3, and MONALEESA-7)17,19, 20, 21 were designed to investigate the use of ribociclib in a variety of different clinical breast cancer settings.
In the pivotal phase 3, double-blind, placebocontrolled MONALEESA-2 trial in the first-line setting in postmenopausal patients with HR+/HER2-advanced breast cancer, ribociclib plus letrozole in combination with endocrine therapy significantly improved PFS and overall survival (OS) compared with placebo plus letrozole.17, 22
Subsequent trials demonstrated significant improvements in PFS and OS when ribociclib was used in combination with fulvestrant (postmenopausal patients with advanced breast cancer who were treatment naïve or had received prior endocrine therapy in the advanced setting or with progression during or within 12 months after finishing adjuvant endocrine therapy) or in combination with oral tamoxifen or a nonsteroidal aromatase inhibitor (pre/perimenopausal women with ovarian function suppression with the gonadotropin-releasing hormone (GnRH) agonist goserelin).17,19, 20, 21
A recent analysis of data from MONALEESA-7 showed that ribociclib in combination with endocrine therapy clinically and statistically significantly prolonged OS compared with endocrine therapy alone in premenopausal patients with HR+/HER2-advanced breast cancer.23 After a median of 53.5 months of follow-up, the median OS was 58.7 versus 48.0 months (HR, 0.763; 95% CI 0.608–0.956) for ribociclib plus endocrine therapy versus endocrine therapy alone, which translates to a 24% reduction in relative risk of death related to the CDK4/6 inhibitor. This is the first time that adding a CDK4/6 inhibitor (or another targeted agent) to endocrine therapy has been shown to significantly improve OS.
Similarly, ribociclib plus fulvestrant significantly improved OS compared with fulvestrant plus placebo in postmenopausal patients in the MONALEESA-3 trial.24 After a median follow-up of 39.4 months, the median OS was not reached in the ribociclib plus fulvestrant group and 40.0 months in the fulvestrant plus placebo group (hazard ratio [HR] 0.724, p = 0.00455). The advantage in OS was consistent across all patient subgroups and, together with the results of MONALEESA-7, confirm the benefit of ribociclib in combination with multiple treatment combinations in pre- and postmenopausal patients with HR2+, HER2−, advanced breast cancer.
Indeed, the ongoing MONALEESA clinical trials program has consistently demonstrated the clinical utility of ribociclib as an effective agent with a predictable and manageable safety profile in combination therapy regimens for advanced breast cancer.19, 20, 21
The multinational, phase 3b, CompLEEment-1 trial (ClinicalTrials.gov NCT02941926) was designed to assess the safety and efficacy of ribociclib plus letrozole in a broader patient population than the individual MONALEESA trials.25 The CompLEEment-1 study enrolled a large number of patients under a study protocol with broad inclusion criteria that allowed the enrolment of premenopausal women and males and permitted the receipt of up to one line of chemotherapy in the advanced setting prior to CDK therapy. Patients with central nervous system metastases and with an ECOG performance status of 2 were also eligible, with the result that the study population was more representative of real-world clinical practice.
The ribociclib plus letrozole regimen in the ribociclib arm of MONALEESA-2 was identical to that of CompLEEment-1, with the exception that men and premenopausal women in CompLEEment-1 also received a GnRH-agonist, as in MONALEESA-7 (MONALEESA-2 only enrolled postmenopausal women).
Patients received once-daily oral treatment with ribociclib 600 mg in a 3-weeks on/1-week-off regimen, plus letrozole 2.5 mg continuously. Men and premenopausal women also received a GnRH-agonist [goserelin 3.6 mg as a subcutaneous implant or leuprolide (leuprorelin) 7.5 mg as an intramuscular depot injection] once every 28 days. Treatment was continued until disease progression or death.
A total of 3,246 patients were enrolled and treated between November 30, 2016, and March 22, 2018, at 508 study locations throughout North and South America, Europe, Asia, South-East Asia, Israel, Russia, and the Middle East (Appendix 1). The estimated study completion date was May 2021; the data cut-off date for this analysis was November 8, 2019.
Results from the overall CompLEEment-1 patient population demonstrated the safety, tolerability, and efficacy of ribociclib plus letrozole in this large and diverse cohort of patients with HR+/ HER2− advanced breast cancer, with a safety profile consistent with the pivotal ribociclib trials and no new safety signals.26 The median time to progression (TTP) was 27.1 months, and the clinical benefit rate (CBR) in patients with measurable disease at baseline was 69.1% and the median PFS was 26.7 months.26 The quality of life of patients was maintained throughout treatment.
Eight countries from central and south European countries of the SERCE cluster took part in the CompLEEment-1 trial: Bulgaria, Czech Republic, Greece, Hungary, Israel, Poland, Slovakia, and Slovenia.
This paper presents a subanalysis of data from patients enrolled in the SERCE countries involved in CompLEEment-1. The aim of our subanalysis was to uncover a possible difference in the tolerability of the drug in our geographical group compared to global data. Possible differences could be expressed in the reporting of the frequency and grade of adverse effects by patients.
The CompLEEment-1 trial (ClinicalTrials.govIdentifier NCT02941926) is a phase 3b, single-arm, open-label, multicenter, international study to assess the safety and efficacy of ribociclib plus letrozole in men and women of any menopausal status with HR+/HER2− advanced breast cancer who have not received prior endocrine therapy for advanced disease.
The primary aim of the study is to further evaluate the overall safety and tolerability of the combination of ribociclib with letrozole in men and pre/postmenopausal women with HR+/HER2− advanced breast cancer. Secondary endpoints are to investigate tolerability and QoL and to generate safety and clinical efficacy data in a broader patient population than that of MONALEESA-2, i.e., one that also includes pre-menopausal women; men with HR+ advanced breast cancer; patients with 1 prior line of chemotherapy for advanced disease; patients with ECOG performance status of 2; patients without a clear target lesion to be followed (i.e., no measurable or bone lytic lesions).
Patients received once-daily oral treatment with ribociclib 600 mg in a 3-weeks on/1-week-off regimen, plus letrozole 2.5 mg continuously. Men and premenopausal women also received a GnRH-agonist [goserelin 3.6 mg as a subcutaneous implant or leuprolide (leuprorelin) 7.5 mg as an intramuscular depot injection] once every 28 days. Treatment was continued until disease progression or death.
The trial design is shown in Figure 1.
Figure 1
Trial Design of CompLEEment-1 showing patients enrolled in central and south European countries of the SERCE cluster.
SERCE = Southern Europe, RUC, Central Europe Countries; ECOG = Eastern Cooperative Oncology Group; HER2− = human epidermal growth factor receptor-2-negative; HR+ = hormone receptor-positive
The primary outcome measures consisted of the number of participants with adverse events (AEs) over a timeframe of approximately 36 months, as a measure of safety and tolerability. Secondary outcome measures included: Time to progression (TTP); Overall response rate (ORR); and CBR. ORR was defined as the proportion of patients with a complete response (CR) or partial response (PR) and CBR was defined with proportion of patients wit CR, PR or had stable disease (SD) for 6 months or more. Patient-reported outcomes (PRO) were also a secondary outcome measure in CompLEEment-1. However, PRO data were not available for this analysis.
The clinical impact of hepatobiliary events, neutropenia events, and QT prolongation were also analyzed. Patients were to be followed up until discontinuation of ribociclib, regardless of the reason.
The number of participants with AEs and the percentage of patients with investigator-assessed clinical benefit will also be measured during an extension phase of approximately 30 months.
The primary endpoint of safety/tolerability (number [%] of AEs, grade 3/4 AEs, and SAEs, AESI and AEs leading to treatment discontinuation and deaths, and AEs leading to dose reduction or dose interruption) was summarized descriptively in the safety analysis set.
The other secondary endpoints of ORR and CBR were summarized using descriptive statistics (N [%]) combined with 2-sided exact binomial 95% Cis.
Men and pre/postmenopausal women with locally advanced or metastatic HR+/HER2− breast cancer not amenable to curative therapy and with no prior endocrine therapy for advanced disease were eligible for the study. Patients had an Eastern Cooperative Oncology Group (ECOG) performance status ≤ 2, had received ≤ 1 line of chemotherapy for advanced disease, and had a disease-free interval (DFI) greater than 12 months from completion of (neo)adjuvant therapy if treatment included a nonsteroidal aromatase inhibitor. Adequate bone marrow and organ function were required, and a QT interval corrected using Fridericia’s formula (QTcF) of < 450 ms and a resting heart rate of ≥ 50 bpm at screening.
Patients were excluded if they had received prior treatment with a CDK4/6 inhibitor and/or systemic hormonal therapy for advanced breast cancer. Also excluded were concurrent malignancy, or malignancy ≤ 3 years prior to starting study drug (except adequately treated basal or squamous cell carcinoma, nonmelanoma skin cancer, or curatively resected cervical cancer), central nervous system metastases, unless lesions were clinically stable for ≥ 4 weeks, clinically significant heart disease and/ or recent cardiac events (e.g., uncontrolled hypertension), and/or gastrointestinal impairment or disease that might significantly alter study drug absorption.
All procedures performed in studies involving human participants were in accordance with the ethical standards of the individual institutional research committees and with the 1964 Helsinki declaration and its later amendments. Informed consent was obtained from all individual participants included in the study.
A total of 339 of the 341 patients comprising the SERCE patient population were available for the subgroup analysis. Patient characteristics at baseline for the SERCE patient population are shown in Table 1. The breast was the primary site of cancer for all patients in the SERCE population. Progesterone receptor status was positive in 82.3% of patients. One patient had HER2+ disease and two patients ER− disease. Ninety-eight percent of patients had metastatic disease at study entry. One hundred and ten patients (32.4%) had
Baseline demographic and clinical characteristics of patients in the SERCE subgroup of CompLEEment-1*
| Variable | |
|---|---|
| Age, years | 58.0 (24-88) |
| < 65 | 228 (67.3) |
| ≥ 65 | 111 (32.7) |
| Gender | |
| Female | 335 (98.8) |
| Male | 4 (1.2) |
| Child-bearing status | |
| Able to bear children | 80 (23.6) |
| Postmenopausal | 241 (71.1) |
| Sterile – of child-bearing age | 14 (4.1) |
| Unknown | 4 (1.2) |
| Race | |
| Caucasian | 330 (97.3) |
| Black | 2 (0.6) |
| Other | 4 (1.2) |
| Unknown | 3 (0.9) |
| ECOG performance status | |
| 0 | 208 (61.4) |
| 1 | 119 (35.1) |
| 2 | 12 (3.5) |
| 3 or 4 | 0 |
| BMI, kg/m2 | 26.0 (16.1–48.4) |
* Unless otherwise stated, data are median (range) or no. (%) BMI = body mass index; ECOG = Eastern Cooperative Oncology Group
The median follow-up duration was 17.5 months; 138 patients completed treatment, of whom 98 patients entered the Extension Phase of the study. Two-hundred-and-one patients discontinued treatment, primarily as a result of progressive disease (126 patients), AEs (
The disease history for the SERCE subgroup is shown in Table 2. The majority of the SERCE patient population presented with well-differentiated or moderately-differentiated histological grade disease. In almost a third of patients, the disease was primarily metastatic. In more than half of the patients (54%), the disease-free interval was > 24 months. Thirty-nine percent of patients had 3 or more metastatic sites, and visceral metastases were present in 63% of patients.
Disease history for patients in the SERCE subgroup of CompLEEment-1
| Variable | |
|---|---|
| Histological grade | |
| Well-differentiated | 29 (8.6) |
| Moderately differentiated | 165 (48.7) |
| Poorly differentiated | 76 (22.4) |
| Undifferentiated | 5 (1.5) |
| Unknown | 64 (18.9) |
| Disease stage at study entry | |
| II | 1 (0.3) |
| III | 5 (1.5) |
| IV | 333 (98.2) |
| Time median since (range) diagnosis months of primary site, | 33.7 (0.3-401.9) |
| ≤ 3 | 72 (21.2) |
| > 3 and ≤ 12 | 53 (15.6) |
| > 12 | 213 (62.8) |
| Missing | 1 (0.3) |
| Disease-free interval | |
| Newly-diagnosed disease | 110 (32.4) |
| Existing disease | 228 (67.3) |
| ≤ 12 months | 26 (7.7) |
| > 12 to ≤ 24 months | 19 (5.6) |
| > 24 months | 183 (54.0) |
| Missing | 1 (0.3) |
| Types of lesions at baseline | |
| Target only | 27 (8.0) |
| Non-target only | 106 (31.3) |
| Both target and non-target | 206 (60.8) |
| Extent of metastatic disease | |
| Bone | 254 (74.9) |
| Bone only | 75 (22.1) |
| Breast | 23 (6.8) |
| Central nervous system | 2 (0.6) |
| Visceral | 214 (63.1) |
| Skin | 14 (4.1) |
| Lymph nodes | 108 (31.9) |
| Other | 13 (3.8) |
| Number of metastatic sites | |
| 1 | 103 (30.4) |
| 2 | 105 (31.0) |
| ≥ 3 | 131 (38.7) |
A summary of AEs, including serious AEs, AEs leading to discontinuation or requiring dose adjustments, dose interruption, or additional therapy, and individual AEs occurring in ≥ 10% of patients is presented in Table 3. A total of 332 patients (97.9%) experienced an AE, which was grade ≥ 3 in 238 patients (70.2%). AEs were considered to be treatment-related in 322 patients (grade ≥ 3 in 211 patients). Treatment-related AEs led to dose adjustments or interruption in 63.1% of patients. However, treatment-related AEs that led to treatment discontinuation occurred in only 10.6% of patients. There were no fatal treatment-related events.
Summary of adverse events for patients (N = 339) in the SERCE subgroup of CompLEEment-1. Safety set in the core phase
| Event | All grades No. (%) | Grade ≥ 3 No. (%) |
|---|---|---|
| Any adverse event | 332 (97.9) | 238 (70.2) |
| Treatment-related | 322 (95.0) | 211 (62.2) |
| Serious adverse event | 62 (18.3) | 50 (14.79) |
| Treatment-related | 24 (7.1) | 18 (5.3) |
| Adverse discontinuation event leading to treatment | 44 (13.0) | 30 (8.8) |
| Treatment-related | 36 (10.6) | 22 (6.6) |
| Adverse adjustment/event interruption leading to dose | 233 (68.7) | 205 (60.5) |
| Treatment-related | 214 (63.1) | 192 (56.6) |
| Adverse therapy events requiring additional | 248 (73.2) | 96 (28.3) |
| Treatment-related | 149 (44.0) | 59 (17.4) |
| Neutropenia | 239 (70.5) | 176 (51.9) |
| Treatment-related | 234 (69.0) | 175 (51.6) |
| Nausea | 81 (23.9) | 1 (0.3) |
| Treatment-related | 71 (20.9) | 1 (0.3) |
| Leucopenia | 88 (26.0) | 26 (7.7) |
| Treatment-related | 86 (25.4) | 26 (7.7) |
| Fatigue | 65 (19.2) | 9 (2.7) |
| Treatment-related | 53 (15.6) | 5 (1.5) |
| Anemia | 61 (18.0) | 12 (3.5) |
| Treatment-related | 53 (15.6) | 6 (1.8) |
| Alanine aminotransferase increase | 54 (15.9) | 21 (6.2) |
| Treatment-related | 45 (13.3) | 18 (5.3) |
| Alopecia | 49 (14.5) | 0 (0) |
| Treatment-related | 39 (11.5) | 0 (0) |
| Vomiting | 46 (13.6) | 3 (0.9) |
| Treatment-related | 32 (9.4) | 2 (0.6) |
| Aspartate aminotransferase increase | 45 (13.3) | 11 (3.2) |
| Treatment-related | 37 (10.9) | 7 (2.1) |
| Back pain | 45 (13.3) | 3 (0.9) |
| Diarrhea | 39 (11.5) | 2 (0.6) |
| Treatment-related | 21 (6.2) | 1 (0.3) |
| Headache | 39 (11.5) | 1 (0.3) |
| Arthralgia | 36 (10.6) | 2 (0.6) |
| Treatment-related | 23 (6.8) | 2 (0.6) |
| Pruritis | 36 (10.6) | 2 (0.6) |
| Treatment-related | 30 (8.8) | 2 (0.6) |
| Rash | 34 (10.0) | 2 (0.6) |
| Treatment-related | 21 (6.2) | 2 (0.6) |
Transaminase elevations were the most common hepatobiliary AEs; treatment-related elevations of alanine aminotransferase considered serious occurred in 2 patients and led to hospitalization in 1 patient. The necessity for treatment withdrawal, dose reduction, or drug interruption related to hepatobiliary toxicity was necessary for less than 6% of patients, and aminotransferase increases recovered or resolved over time in most patients.
Myelosuppression primarily consisted of neutropenia, which occurred in 239 patients (70.5%; any grade) and was considered to be treatment-related in 228 patients (67.3%); neutropenia resolved over time in most patients. There were 3 occurrences of febrile neutropenia (0.9%) leading to hospitalization.
Eighteen patients (5.3%) had QTc prolongation (treatment-related in 17 patients), and 2 patients (0.6%) had syncope (treatment-related in 1 patients). QTc prolongation grade ≥ 3 occurred in just 3 patients (0.9%). In the majority of patients, it was not required to reduce the drug dose, interrupt or withdraw treatment, or administer additional therapy, and the QTc prolongation resolved over time. There were no cases of hepatobiliary toxicity, myelosuppression, or QTc prolongation leading to death.
A total of 3,246 patients were evaluated in the overall CompLEEment-1 study over a median follow-up duration of 25.4 months and a median duration of exposure to ribociclib of 17.5 months (range, 0.0– 33 months).26 The median TTP was 27.1 months, and the ORR was 43.6% (95% CI 41.5–45.8%). The CBR (was 69.1% (95% CI 67.1–71.1%) for patients with measurable disease at baseline.28 Median PFS was 26.7 months (95% CI 24.8–30.1%).
In the SERCE population, 230 patients (67.8%) had measurable disease at baseline, and 109 (32.2%) non-measurable disease only. Efficacy analysis of the whole SERCE subgroup (
Best overall response according to local assessment for patients in the SERCE subgroup of CompLEEment-1
| No. (%) | All patients ( |
Patients with measurable disease at baseline ( |
|---|---|---|
| Complete response | 2 (0.6) | 0 (0) |
| Partial response | 91 (26.8) | 91 (39.6) |
| Non-CR / Non-PD | 90 (26.5) | – |
| Stable disease | 108 (31.9) | 106 (46.1) |
| Progressive disease | 14 (4.1) | 11 (4.8) |
| Unknown | 34 (10.0) | 22 (9.6) |
| Overall response rate (CR + PR) | 93 (27.4) | 91 (39.6) |
| Clinical benefit ratea | 253 (74.6) | 170 (73.9) |
CR = complete response; PD = progression disease; PR = partial response; aCR + PR + stable disease /non-progressive disease ≥ 24 months
The CompLEEment-1 trial in a large, diverse pat ient cohort is the largest phase 3 clinical trial to date to evaluate the safety and efficacy of a CDK4/6 inhibitor, as well as one of the largest trials ever conducted in the advanced breast cancer setting. The use of cytotoxic chemotherapy in the first-line treatment of HR+/HER2− advanced breast cancer is still a frequent choice for many clinicians, despite the fact that most international recommendations recommend it only in the event of a visceral crisis. Therefore, results with the use of a CDK4/6 inhibitor in combination with endocrine therapy from studies such as CompLEEment-1 may help change therapy approaches for this patient population, delaying the need for chemotherapy.
This subgroup analysis of the SERCE patient population confirmed the safety and tolerability of ribociclib in combination with letrozole in patients with HR+/HER2− advanced breast cancer who have not previously received endocrine therapy for advanced disease and supports the interim efficacy data analysis of the overall CompLEEment-1 study population.
Patient populations in the SERCE subgroup were very similar to those in the overall CompLEEment-1 population. In general, efficacy data and safety data were similar. Of interest, any AEs, AEs ≥ grade 3, and treatment-related AEs, AEs leading to discontinuation or dose adjustment/interruption were slightly lower in the SERCE population. However, no reliable conclusions can be drawn for this finding.
The safety results are consistent with those observed in the pivotal MONALEESA-217, 19 and MONALEESA-721 clinical trials, despite the less restrictive inclusion and exclusion criteria of CompLEEment-1, and no new safety signals were observed.
The CompLEEment-1 and MONALEESA-2 and MONALEESA -7 studies had very similar patient populations overall, with no significant differences between the SERCE population of CompLEEment-1 and patients in MONALEESA-2 and MONALEESA-7, with the exception of a higher number of metastatic sites at baseline in the SERCE patients (≥ 3 in 38.7%
Analysis of the safety results comparing the two trials highlighted that the rate of side effects was similar, if somewhat higher in the MONALEESA-2 trial. For example, in MONALEESA-2, 98.5% (
The reversible myelosuppression associated with ribociclib in CompLEEment-1 and the MONALEESA trials reflects on-target CDK4/6 inhibition, and the elevation in aminotransferase levels, which were largely reversible with dose adjustment, have also been observed with other CDK4/6 inhibitors in combination with aromatase inhibitors.15,27,28 Ribociclib-related QTc prolongation occurred in 5% of patients and was generally manageable without the requirement to reduce the drug dose, interrupt or withdraw treatment, or administer additional therapy. Careful monitoring to detect AEs in a timely manner to limit the incidence of these events should be implemented when these agents are used in routine clinical practice.
Neutropenia, hepatobiliary toxicity, transaminase elevations, and QTc prolongation are AEs of special interest with ribociclib. Although the number of events leading to treatment discontinuation was low in our patients, the results of a study exploring whether a reduced dosing regimen of 400 mg ribociclib 3-weeks on/1-week-off may decrease the risk of AEs of special interest (ClinicalTrials. gov Identifier NCT03822468) without compromising efficacy are awaited. However, OS (which was investigated in the pivotal MONALEESA trials with ribociclib at the 600 mg dose) is not an endpoint in the study.
As noted, the CompLEEment-1 and the MONALEESA-2 and MONALEESA-7 studies had very similar patient populations, and it is of interest to compare the efficacy findings. In analyses of patients with measurable disease at baseline, the ORR was 43.6% and the CBR 69.1% in the overall CompLEEment-1 patient population and 39.6% and 73.9%, respectively, in the SERCE population, compared with 40.7% and 79.6%, respectively, in the ribociclib group of MONALEESA-217 and 50.9% and 79.9%, respectively, in MONALEESA-721, suggesting similar efficacy overall and in the SERCE subgroup.
Overall, our analysis has confirmed the safety of the drug combination and showed promising data on efficacy, with dose interruptions not higher in the CompLEEment-1 trial compared to MONALEESA-2.
The CompLEEment-1 study has a number of strengths, including the large number of patients enrolled, the broad inclusion criteria that allowed the enrolments of pre-menopausal women and males, and permitted the receipt of chemotherapy prior to CDK therapy and an ECOG performance status of 2, resulting in a study population closer to real-world clinical practice. Mature data from the full patient population of the CompLEEment-1 trial will provide further valuable information on the role of ribociclib plus letrozole in patients with HR+/HER2− advanced breast cancer.
The study also has some limitations. The median follow-up duration is as yet relatively short, limiting the number of events recorded, including disease progression and death. Of note, patients in CompLEEment-1 were followed up to the point of discontinuing ribociclib, for whatever reason, and therefore the progression follow-up is more conservative than in the pivotal trials, where patients discontinuing ribociclib for toxicity but remaining on endocrine therapy remain within the study.
Finally, the SERCE population represents only a small proportion of the full CompLEEment-1 cohort.
Of interest for future analysis when data are available are the contribution of ribociclib to health-related quality of life (HR-QoL) in our patients and the influence of concomitant medications or therapy on outcome and the incidence of side effects. Patient-reported outcomes are not yet available for CompLEEment-1. However, data from MONALEESA-2 shows that HR-QoL was consistently maintained, and in MONALEESA 7 was significantly improved from baseline in patients receiving ribociclib plus letrozole, compared to the placebo arm.21, 29
Similarly, the impact of health status (e.g., co-morbidities), AEs, and/or dose interruptions or reduction on QoL will be analyzed as data become available.
These findings from a subgroup of the large CompLEEment-1 trial support the safety and manageable tolerability profile of ribociclib in a broad range of patients with HR+/HER2-advanced breast cancer more representative of patients in real-world clinical practice than those enrolled in the pivotal clinical trials.