Introduction
Multiple myeloma is a common hematologic cancer in the USA, with an annual incidence of 6.5 per 100,000 persons, which increases with age until approximately 74 years [
1]. The median age at diagnosis is approximately 70 years, and the prevalence of multiple myeloma is increasing, likely due to increased life expectancy in the population [
2]. Although multiple myeloma is incurable, it is a treatment-responsive cancer, and many patients achieve long-term asymptomatic remission [
3].
Osteolytic bone disease is the hallmark of multiple myeloma and is present in approximately 75 to 80% of patients at diagnosis, depending on the detection method used [
4,
5]. The severity of bone destruction typically correlates with disease burden and prognosis [
4,
6]. Osteolytic lesions are caused by an imbalance between osteclastic and osteoblastic activities [
4].
Bisphosphonates are the standard of care recommended for managing bone disease in patients with myeloma: the American Society of Clinical Oncology (ASCO), the National Comprehensive Cancer Network (NCCN), the Mayo Clinic, and European Myeloma Network panels advocate monthly treatment with intravenous pamidronate or zoledronic acid for patients with lytic bone disease [
7]. Bisphosphonates inhibit osteoclastic activity while also possibly eliciting an indirect anti-myeloma effect [
4]. Evidence from clinical trials indicates that the use of bisphosphonates is associated with fewer skeletal-related events (clodronate and pamidronate vs placebo; zoledronic acid vs clodronate or pamidronate) and possibly greater overall survival and progression-free survival (zoledronic acid vs clodronate) [
7‐
10]. However, there is no clinical consensus on whether to continue, reduce, or stop bisphosphonates in patients who achieve a good response with primary myeloma therapies. Furthermore, bisphosphonates are associated with renal dysfunction; close monitoring of creatinine clearance (CrCl) with dose reductions in patients with reduced renal function is recommended [
11,
12]. Patients with multiple myeloma are already at an increased risk of renal impairment: it has been estimated that 46% of patients with multiple myeloma have impaired renal function at the time of diagnosis and 61% of patients with multiple myeloma develop renal impairment at some point in the course of the disease [
13,
14]. Thus, renal impairment needs to be considered when optimizing treatment of bone disease for patients with multiple myeloma.
Data are limited on the real-world use of intravenous bisphosphonates in patients with multiple myeloma. The primary objective of this analysis was to describe treatment patterns of bisphosphonate use in patients with multiple myeloma, with a focus on dosing, concomitant anti-myeloma therapy, and changes in dosing by renal function.
Methods
Study design
This retrospective observational study used oncology electronic health record (EHR) data contained in Amgen’s Oncology Services Comprehensive Electronic Records (OSCER) database, generated by Flatiron Health (New York, NY, April 30, 2016). OSCER represents a longitudinal, demographically and geographically diverse database containing data from over 250 cancer clinics representing over 1.5 million active US patients treated at community-based hematology/oncology practices and from three academic centers in the USA. Patients represent all payer types (commercial, Medicare, Medicaid, self-pay, and other). The de-identified patient-level data include structured (diagnostic details, laboratory values, and prescribed drugs) and unstructured data collected via technology-enabled chart abstraction from physician’s notes and other unstructured documents. The Institutional Review Board of each oncology practice approved collaboration to contribute data to a large longitudinal EHR database; informed patient consent was waived per the US framework for retrospective noninterventional studies. Individual patient-level data were protected against breach of confidentiality consistent with the final Health Insurance Portability and Accountability Act (HIPAA) Security Rule from the US Department of Health and Human Services.
Eligibility criteria
Eligible patients were those newly diagnosed with multiple myeloma between January 1, 2009, and April 30, 2016. Diagnosis was defined as International Classification of Diseases, Ninth Revision (ICD-9) diagnosis of 203.00 or ICD-10 diagnosis of C90.00, with an available diagnosis date, and an office visit or treatment recorded within 1 month of diagnosis. Patients were excluded if they received anti-multiple myeloma therapy or a bisphosphonate before diagnosis. Patients were followed from the index date (initial diagnosis date for multiple myeloma) until the end of the study period (April 30, 2016) or loss to follow-up or death.
Objectives
The primary study objectives were to estimate the proportion of patients with multiple myeloma receiving bisphosphonates, to estimate the average time from diagnosis to treatment with bisphosphonates, to describe dosing schedules with bisphosphonates, and to understand when bisphosphonates are administered relative to therapy lines and regimens for multiple myeloma. Secondary objectives were to identify predictors of initiation of treatment with bisphosphonates and to conduct additional analyses stratified by chronic kidney disease stage (per Kidney Disease Outcomes Quality Initiative [KDOQI]) classification.
Analysis
Bisphosphonate treatment was defined by the intravenous administration of pamidronate or zoledronic acid, including dates of administration for each patient. The dosing schedules analyzed for the bisphosphonates were less than every 4 weeks (< Q4W), Q4W, > Q4W and < Q12W, Q12W, and > Q12W, which were calculated as the time between two administrations of bisphosphonate. Gaps greater than 100 days (with patient alive and present in the database for the entire 100 days) were considered discontinuations. Switched dosing schedules were described as follows: the patient was initially on one dosing schedule and the next administered doses were more/less spaced apart; the date of the switch was the date of the first bisphosphonate administration on the new schedule. Reinitiation was defined as a patient restarting treatment after a discontinuation. The duration of treatment was calculated from the date of initiation to the end of treatment, less any time discontinued.
Timing of bisphosphonates, ever receipt of bisphosphonates, and the frequency of bisphosphonate treatment were summarized by time from diagnosis, anti-myeloma therapy, and CKD stage (measured by estimated glomerular filtration rate [eGFR]) [
15]. eGFR was calculated as outlined by Levey et al. [
16]. Patient counts, percentages, means, and medians were calculated for relevant endpoints. Renal impairment at baseline was defined by the Cockcroft-Gault formula for estimated creatinine clearance rate < 60 mL/min.
Anti-myeloma line of therapy and regimen were established based on the 90-day window upon the first administered treatment. All drugs administered in the first 90 days would be considered as a regimen. A line of therapy would end after a 90-day gap for all drugs in that regimen. Alternatively, the initiation of a new drug that was not adjunctive to the existing regimen would be considered as starting a new line.
To assess predictors of receiving bisphosphonates, a multivariate Cox regression analysis was used to assess demographic and clinical covariates. Additionally, a sensitivity analysis using only patients with at least 2 years of follow-up was conducted to assess the robustness of the analysis.
Discussion
This study examined patterns of treatment with intravenous bisphosphonates in patients with multiple myeloma from a large US-based EHR database. We found that less than two thirds of patients with multiple myeloma received treatment with a bisphosphonate, typically within the first year of diagnosis. Patients mostly received bisphosphonates on a Q4W schedule; however, most patients experienced at least one interruption in dosing. The majority of patients started their bisphosphonate during first-line therapy for multiple myeloma. Renal dysfunction and CKD stage were associated with a lower likelihood of receiving a bisphosphonate. Guidelines generally recommend bisphosphonates in all patients with multiple myeloma or all patients with bone disease [
7,
17,
18]; therefore, the two thirds of patients with multiple myeloma who received treatment with bisphosphonates in our analysis is suboptimal based on clinical guidelines. The treatment rate in our study is higher than in a previous study that found that approximately 40% of patients with multiple myeloma received intravenous bisphosphonates [
19]; this difference is likely due to varying inclusion criteria, particularly the requirement in our study that patients were seen in the oncology clinic within 1 month of diagnosis, thus insuring active follow-up in the database. Of interest, few patients received denosumab (
n = 155), but its use was sporadic and minimal; therefore, these patients were not included in the main analysis.
Among patients that received a bisphosphonate, 92% received this treatment within 1 year after myeloma diagnosis. With respect to timing of bisphosphonates with multiple myeloma therapy, most patients received bisphosphonates concomitant with first-line anti-myeloma therapy. Most bisphosphonates were dosed Q4W as recommended, but the majority of patients had interruptions in their dosing, leading to an average of 6.8 administrations in the first year of multiple myelomas diagnosis. Additionally, many patients moved to a less frequent dosing schedule over time, particularly in the 2 years after multiple myeloma diagnosis. The duration of administration of bisphosphonates was consistent with the current guidelines by the International Myeloma Working Group (IMWG), which recommend that bisphosphonates be administered for at least 12 to 24 months, and then at the physician’s discretion, because the optimal treatment duration remains unclear [
7,
20].
Although the alterations in dosing represent deviations from the current guidelines, the dosing patterns observed in this study are aligned with a recent study investigating Q4W versus Q12W dosing in patients with metastatic breast cancer, prostate cancer, or multiple myeloma, which found that the longer dosing interval did not increase the risk of skeletal-related events over the course of the 2-year study [
21].
Patient CKD stage strongly influenced bisphosphonate treatment, which is consistent with guidelines for multiple myeloma, indicating that bisphosphonates are not recommended in patients with eGFR < 30 mL/min/1.73m
2 (CKD stages 4–5) [
7]. Patients with worse CKD stage at baseline were less likely to receive bisphosphonates than patients with better classification. Up to 72% of patients with baseline CKD stage 1–3 received bisphosphonates versus 32% of patients with CKD stages 4–5. Generally, these patterns were inconsistent with NCCN and ASCO guidelines, which recommend that all patients with adequate renal function to receive bisphosphonate treatment [
7,
18].
Patients with multiple myeloma are at risk for impaired renal function, primarily due to excess monoclonal light chain production and hypercalcemia [
22]. Impaired renal function has been associated with reduced survival [
13,
23]. Improvement in renal function may increase survival; however, survival remains inferior to patients with normal renal function at diagnosis [
13,
24]. In addition to intravenous bisphosphonates, anti-multiple myeloma drugs such as lenalidomide require dose adjustments in patients with impaired renal function [
25]. In this study, we found that renal function significantly affected the likelihood of receiving treatment with an intravenous bisphosphonate. These results suggest that therapies that do not adversely affect kidney function are needed to prevent skeletal-related events in this patient group.
A notable strength of this study was the large population of patients with multiple myeloma. This population represents health-related encounters from oncology practices across the USA and represents geographic diversity as well as multiple EHR systems, payer types, and clinical pathways. These patient-level data are captured systematically and electronically from the same EHR used by practitioners to track patient care at each of the participating centers, which results in improved consistency. Our analysis was limited by unknown or missing information in some fields such as stage and ECOG at diagnosis (data not shown), which limited our model estimation for those covariates. We did not collect information on reasons for discontinuation or changes in dosing of bisphosphonates. The major limitation of this study is that a patient’s history and incidence of skeletal-related events relative to bone-targeting treatment and interruption of treatment could not be assessed in this database. Future analyses will focus on assessing skeletal-related events at multiple myeloma diagnosis and during follow-up. Lastly, there are several known risks associated with bisphosphonate use [
26,
27] that were not captured in the OSCER database, and therefore cannot be reported in our study.
In conclusion, this retrospective study, using a large real-world oncology database, showed that many patients with multiple myeloma might not receive optimal therapy for bone disease, particularly those with renal dysfunction.
Acknowledgments
The authors wish to acknowledge Miranda Tradewell and Rick Davis (Complete Healthcare Communications, LLC, an ICON plc company; Chadds Ford, PA), whose work was funded by Amgen Inc., for assistance with the writing of this manuscript.
Compliance with ethical standards
The Institutional Review Board of each oncology practice approved collaboration to contribute data to a large longitudinal EHR database; informed patient consent was waived per the US framework for retrospective noninterventional studies.
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