The treatment patterns, efficacy, and safety of nab^®-paclitaxel for the treatment of metastatic breast cancer in the United States: results from health insurance claims analysis

Taxanes are some of the most active chemotherapeutic agents in the treatment of breast cancer [1‐3]. However, sensory neuropathy, neutropenia, and significant toxicities—such as severe hypersensitivity reactions, which require substantial premedication with high doses of steroids and antihistamines—have been reported in patients treated with solvent-based (sb) taxanes (ie, paclitaxel and docetaxel) [4‐6]. An albumin-bound formulation of paclitaxel (Abraxane®, nab-paclitaxel) was developed in an effort to overcome the toxicities associated with sb-paclitaxel and improve efficacy [7]. Preclinical studies have shown that nab-paclitaxel delivers a 33 % higher paclitaxel concentration to tumors and demonstrates enhanced transport across endothelial cell monolayers compared with sb-paclitaxel [7]. Recently published population pharmacokinetic data on nab-paclitaxel compared with sb-paclitaxel demonstrated more rapid and greater tissue penetration and slower elimination of paclitaxel [8]. nab-Paclitaxel was approved by the US Food and Drug Administration in January 2005 for the treatment of breast cancer after failure of combination chemotherapy, including anthracyclines, for metastatic disease or relapse within 6 months of adjuvant chemotherapy [9].

The safety and efficacy of single-agent nab-paclitaxel have been well established in clinical trials of patients with metastatic breast cancer (MBC) (Table 1) [10‐13]. In a phase three trial [10], nab-paclitaxel dosed at 260 mg/m² every 3 weeks (q3w) vs sb-paclitaxel dosed at 175 mg/m² q3w demonstrated a significantly higher overall response rate (33 % vs 19 %; P = 0.001) and a significantly longer time to tumor progression (5.3 vs 3.9 months; P = 0.006). The incidence of grade 4 neutropenia was significantly lower with nab-paclitaxel compared with sb-paclitaxel. Although the incidence of grade 3 sensory neuropathy was significantly higher with nab-paclitaxel compared with sb-paclitaxel, it was manageable with dose modifications and treatment interruptions and improved to grade ≤ 2 in a median of 22 days. Although the 260 mg/m² q3w nab-paclitaxel monotherapy regimen is indicated for the treatment of patients with MBC, other doses and schedules of nab-paclitaxel have been explored in clinical trials. In a phase two trial, three different nab-paclitaxel regimens (300 mg/m² q3w, 100 mg/m², or 150 mg/m² given weekly for the first 3 of 4 weeks [qw 3/4]) were compared with docetaxel 100 mg/m² q3w for the treatment of chemotherapy-naive patients with MBC [12, 13]. Results from this trial indicated that the 150 mg/m² qw 3/4 dose of nab-paclitaxel was a significantly more effective regimen than docetaxel [13]. Median overall survival (OS) was 33.8 months compared with 22.2, 27.7, and 26.6 months for nab-paclitaxel 100 mg/m² qw 3/4, nab-paclitaxel 300 mg/m² q3w, and docetaxel, respectively [13]. The frequency of grade 3/4 neutropenia, febrile neutropenia, and fatigue was lower in all nab-paclitaxel arms compared with docetaxel. The incidence of grade 3 sensory neuropathy was higher for the 300 mg/m² q3w and 150 mg/m² qw 3/4 nab-paclitaxel regimens vs docetaxel, which may be related to the higher median dose intensities associated with these two nab-paclitaxel dose regimens (100 and 101 mg/m²/week, respectively), compared with docetaxel (33 mg/m²/week) [13]. The median time to improvement of sensory neuropathy to ≤ grade 2 was 20 to 22 days for nab-paclitaxel compared with 41 days for docetaxel [13].

nab-Paclitaxel has also been studied in combination with other cytotoxic or targeted agents for the treatment of MBC (Table 1) [14‐19]. Results of phase two trials of nab-paclitaxel in combination with gemcitabine and oral capecitabine have demonstrated efficacy and favorable tolerability. The results of other clinical trials have shown that nab-paclitaxel is a reasonable substitution for sb-taxanes in combination with targeted agents such as bevacizumab, trastuzumab, and lapatinib for the treatment of MBC [16‐21].

Breast cancer is a heterogeneous disease with various clinical and biological features [22]. Multiple molecular alterations and cellular pathway dysregulations may occur during disease development and progression [23]. Some types of breast cancers are more aggressive than others, and sensitivity to treatment may differ [24, 25]. To get a real-world look at nab-paclitaxel treatment patterns, efficacy, and safety since market approval, we carried out a claims-based retrospective analysis using a large US commercial health insurance database and selected women undergoing treatment with nab-paclitaxel for MBC.

Consistent with the National Comprehensive Cancer Network guidelines [1], our analysis indicated that nab-paclitaxel was most often prescribed as second-line or later therapy and administered as monotherapy. When nab-paclitaxel was used in combination, the targeted agents (e.g., bevacizumab, trastuzumab, or lapatinib) were most often prescribed. Patients treated with nab-paclitaxel in the first line appeared to have favorable survival relative to patients treated in later lines of therapy. However, the treatment effect of nab-paclitaxel as first-line therapy may have been overestimated because the criteria for first-line therapy required patients to be treated for at least 30 days. Therefore, patients who discontinued treatment early may not have been captured. Overall, the safety and efficacy profiles of nab-paclitaxel in this setting of US women with MBC were consistent with clinical trial experience (Table 1) [10‐19].

Our analysis showed a median OS of 17.4 months for the overall population of patients with MBC who received various doses, schedules, and regimens of nab-paclitaxel across all lines of therapy. These results are in line with those of a phase two trial [11] and the pivotal phase three trial [10], which showed a median OS of 14.6 and 15.0 months, respectively, in patients receiving nab-paclitaxel monotherapy (260–300 mg/m² q3w) for ≥ first-line treatment of MBC (Table 1). In a phase two trial of chemotherapy-naive patients with MBC, median OS was 22.2 to 33.8 months for weekly and 27.7 months for q3w nab-paclitaxel [13]. The OS claims for first-line therapy (monotherapy: median of 20.8 months; weekly median of 21.6 months) are similar to the median OS values reported in the phase two trial for the nab-paclitaxel 100 mg/m² weekly arm (22.2 months). Notably, treatment duration with nab-paclitaxel was much longer in the phase two trial (6.9 months), which may account for the longer OS results vs this claims analysis.

For the patients who received nab-paclitaxel monotherapy, the median TNTD was 5.8 months, similar to the reported median time to disease progression of patients with MBC who received nab-paclitaxel monotherapy (260–300 mg/m² q3w) for ≥ first-line treatment in the phase two and phase three trials: 6.1 and 5.3 months, respectively [10, 11]. However, the median TNTD in the claims analysis was shorter than the median PFS reported in the phase two trial of patients receiving first-line nab-paclitaxel monotherapy: median PFS of 11.1 months with 300 mg/m² q3w nab-paclitaxel and 12.8 to 12.9 months with 100 to 150 mg/m² weekly nab-paclitaxel [12].

This analysis also supports clinical trial data indicating that patients with poor prognostic characteristics derive a clinical benefit from nab-paclitaxel therapy. Patients treated with nab-paclitaxel who were aged ≤ 50 years or had ≥ 3 metastases had outcomes comparable with those of the overall population (median OS: 15.6 months). These results are also similar to those from a retrospective analysis of patients from the pivotal phase three trial who received therapy later than first line and had ≥ 3 metastases (median OS: 13.0 months) [26]. Furthermore, in a separate retrospective analysis of patients with poor prognosis, a favorable survival benefit was demonstrated in patients with visceral dominant metastases (OS: 15.1–32.1 months) or a short disease-free interval (OS: 14.6–19.1 months) who received nab-paclitaxel as first-line therapy [27]. Results from this claims analysis are similar to those for the intent-to-treat population of those trials as well (Table 1) [10, 13].

Median TNTD and OS for patients who received nab-paclitaxel–based combination therapy were in line with results of clinical trials of nab-paclitaxel–based combination therapy (Table 1) [14‐19]. Our analysis showed that, when used in combination, nab-paclitaxel was most often given with bevacizumab (58 %), and bevacizumab combination therapy was more often initiated in the first line (81 %). It is noted that longer survival and TNTD were observed in the first line for combination therapy vs monotherapy (23.0 vs 20.8 months and 8.5 vs 6.7 months, respectively). In 2011, bevacizumab for the treatment of breast cancer was revoked by the US Food and Drug Administration [28]. The effect of this was reflected in a marked decrease (nearly 70 %) in the rate of nab-paclitaxel combination therapy use after 2011 and was likely due to bevacizumab being revoked (data not shown). At this time it is unclear what the optimal combination partner is for nab-paclitaxel in patients with human epidermal growth factor receptor 2–negative MBC. Currently a phase two/three trial is under way to determine the efficacy and safety of nab-paclitaxel in combination with gemcitabine or carboplatin in patients with triple-negative MBC [29].

The common adverse events identified in the clinical trials were also explored in this claims-based study. The occurrence of select known nab-paclitaxel toxicities (eg, neutropenia, peripheral neuropathy, anemia, infections, and nausea and vomiting) ranged from 15 % to 26 % and was lower than that noted in clinical trials (Table 1) [10‐19]. In particular, the frequency of reported neuropathy was relatively low (<15 %) compared with that reported in clinical trials for nab-paclitaxel [10‐12], indicating that this adverse event may have been underrepresented in the claims database. This is likely explained in part by the more robust patient monitoring and collection of safety data in the clinical trial setting. In addition, claims data for analysis tend to bias toward underreporting in comparison with prospective National Cancer Institute Common Terminology Criteria for Adverse Events documentation.

Although claims analyses are extremely valuable for the efficient and effective examination of healthcare outcomes, treatment patterns, and healthcare resource utilization, it is challenging to compare our study findings with those from clinical trials. Historical trials of nab-paclitaxel recruited patients according to highly restrictive criteria, and the patients received a specific line of nab-paclitaxel therapy, treatment regimen, or treatment schedule during the study period. For example, the phase two trials often targeted first-line therapy with various doses and schedules, whereas the pivotal phase three trial mixed lines of therapy at a q3w dose/schedule (Table 1). In addition, claims analyses are unable to estimate disease progression. TNTD may be perceived as a weak surrogate for PFS because a potential time lapse between disease progression and initiation of a new line of therapy is not captured. This in effect could overestimate a benefit of treatment. Estimating an overall response rate and determining the grade of toxicities are also not feasible using claims data.

Furthermore, because claims are collected for the purpose of payment and not research, inherent limitations in our claims analysis included the potential for incorrect reporting of diagnosis codes, mixing patients with early-stage breast cancer with patients with MBC, missing information on hormone receptor status, misinterpreting disease-onset dates, misclassifying the line of therapy, and inaccurately estimating actual drug dosages and schedules. However, the application of a well-defined algorithm, including the combination of diagnoses, procedures, and medications, reduced the potential for false-positive cases and the misclassification of line of therapy.

nab-Paclitaxel is administered more frequently as a single agent on a weekly schedule and as second-line or later therapy to patients with MBC in a US healthcare system. This analysis demonstrates the use of nab-paclitaxel weekly or q3w and its use for the treatment of patients aged ≤ 50 years or with ≥ 3 metastatic sites. The benefit observed in this US healthcare system is consistent with that from previously reported clinical trials. No new safety signals were identified. Furthermore, our analysis showed that, when used in combination, nab-paclitaxel was most often combined with bevacizumab in first-line therapy. However, because the accelerated approval of bevacizumab for MBC was withdrawn due to the lack of an OS advantage in the RIBBON-1 and AVADO trials [28], bevacizumab is no longer used as standard therapy in MBC. Additional nab-paclitaxel combination partners are being evaluated in patients with MBC, including gemcitabine or carboplatin in patients with triple-negative MBC [29]. Identification of an optimal nab-paclitaxel combination regimen may provide additional options for patients with MBC. Finally, outcomes of this real-world claims analysis are consistent with the data demonstrated in key clinical trials, affirming the effectiveness and manageable safety profile of nab-paclitaxel across all lines of therapy in patients with MBC.