In this study, we evaluate the analgesic effect of strontium-89 (Sr-89) for patients with breast cancer having multiple bone metastases and identify positive predictive factors. We retrospectively evaluated 15 patients who were administered Sr-89 for painful bone metastases from breast cancer at St. Marianna University Hospital between January 2010 and April 2014. For patients receiving multiple doses, only the first dose was evaluated. Pain relief was defined as a decrease in the score of the Numeric Rating Scale (NRS) or requirement of reduced doses of pain medication 1 - 2 months after being on Sr-89 administration. The associations between pain relief owing to Sr-89 and that owing to bone scan index, interval from bone metastasis onset to Sr-89 administration, zoledronate and denosumab treatment history, hormone therapy/aromatase inhibitor history, and chemotherapy history were assessed. A logistic model was used for statistical analysis. Pain relief was observed in 11 (73.3%) of 15 patients. No statistically significant value was observed between pain relief and bone scan index, interval from bone metastasis onset to Sr-89 administration, zoledronate and denosumab treatment history, hormone therapy/aromatase inhibitor history, and chemotherapy. Thus, Sr-89 was effective for 70% of patients with breast cancer bone metastases, although positive predictive factors for pain relief could not be determined.
The incidence of bone metastases is particularly high in patients with hormone-dependent cancers such as breast and prostate cancers. Drug therapy with nonsteroidal antiinflammatory drugs (NSAIDs) and narcotics is often used to relieve pain. Zoledronic acid and denosumab are often concomitantly used for delaying the onset of skeletal complications such as increased pain, pathologic fractures, and spinal cord compression. Because external beam radiation provides relief from bone metastasis-induced pain, it is frequently selected for cases in which pain relief from drug therapy is insufficient. External beam radiation is often challenging in cases of multiple bone metastases because the treatment is localized. In November 2007, the use of strontium-89 (Sr-89) as an unsealed source therapy for relief of painful bone metastases was approved in Japan. When Sr-89 is intravenously administered, it is taken up by all sites of abnormal bone turnover. Thus, unlike external beam radiation, a single intravenous dose results in irradiation of multiple bone metastases throughout the skeleton.
However, in breast cancer with bone metastasis, the pain relief rate and predictive factors remain unknown. Therefore, we aimed to evaluate the analgesic effect of Sr-89 in patients with bone metastases from breast cancer and assess the presence of any pain relief predictive factors.
We reviewed the radiological information system and medical history charts of breast cancer patients who received Sr-89 for painful bone metastases from breast cancer at St. Marianna University Hospital between April 2008 and May 2014 and included 23 patients.
However, 8 breast cancer patients who received Sr-89 for pain relief were excluded because their pain control evaluations were insufficient. Finally, the study population comprised 15 patients who received Sr-89 for painful bone metastases from breast cancer at St. Marianna University Hospital between January 2010 and April 2014. This study was approved by the ethics committee of St. Marianna University School of Medicine (No. 2757).
Sr-89 was administered three times to one patient; however, data only from the first administration were included in the current analysis. All 15 patients were women, and their median age at the time of Sr-89 administration was 58 range, 30 - 73) years. 7 patients were Luminal type, 5 patients were HER2 type, and 3 patients were triple negative type. At the time of Sr-89 administration, nine patients were concomitantly taking narcotics (oxycodone by 7 patients and fentanyl citrate by 2). Six patients were using NSAIDs only.
Using the electronic medical record system, we recorded data such as pain levels before Sr-89 and bone scan index (BSI); duration from bone metastasis onset; diagnosis based on PET-CT, bone scintigraphy, CT, or MRI until Sr-89 administration; use of zoledronate or denosumab; presence/absence of hormone/ aromatase inhibitor therapy; and presence/absence of concomitant chemotherapy.
Patients exhibiting improvement according to the Numeric Rating Scale (NRS) or reduced dosage or reduced frequency of painkiller use (NSAIDs, narcotics) 1 - 2 months after being on Sr-89 administration were defined as those experiencing analgesia.
Before Sr-89 administration, bone scintigraphy was necessary. Approximately 2.5 - 3.5 h after administering 370 - 925 MBq 99mTc-MDP, whole-body anterior and posterior images and localized images were acquired using a scintillation camera (ECAM or GXA-7200; Cannon Medical System: Ohtawara Japan). ECAM had a capture rate of 18 cm/min and a matrix size of 256 × 1024, and GCA-7200 had a capture rate of 17.5 cm/min and a matrix size of 256 × 1024. We used BONE NAVI version 1 (FUJIFILMRI pharma, Co. Ltd. Tokyo Japan) for bone scintigraphy analysis. Bone scan index (BSI) was calculated as the percentage of weight of summed abnormal hot spots to the entire skeleton. We used BONE NAVI version 1 to calculate BSI automatically. In 15 patients undergoing 99mTc-MDP bone scintigraphy before Sr-89 administration, BSI was calculated using BONE NAVI version 1. The median value of BSI was 3.038 (range 0.22 - 12.265).
The median duration from bone metastasis onset until Sr-89 administration was 13 (0 - 51) months.
At the time of Sr-89 administration, zoledronate was being used concomitantly by 10 patients and denosumab by 4.
2 patients were receiving progesterone, 6 were being treated with aromatase inhibitors, and 1 was receiving exemestane.
Chemotherapeutic agents were used concomitantly for 8 patients (S-1 for 1 patient, capecitabine for 1, doxifluridine + cyclophosphamide for 1, docetaxel + trastuzumab for 1, trastuzumab for 3, trastuzumab + pertuzumab for 1).
Adverse events owing to Sr-89 were evaluated using the National Cancer Institute’s Common Terminology Criteria (CTCAE V3.0).
We used a logistic model to assess pain relief. The significance level was set as ≤5%. Statistical processing was performed using the R software.
The patient’s characteristics are given in
Significant analgesia was observed in 11 (73.7%) of 15 patients. The dosage of painkillers (including the frequency of rescue) was observed in 5 patients (33.3%), and improvement in NRS was observed in 6 patients (40.0%).
The relationship between BSI and pain relief owing to Sr-89 was not statically significant (odds ratio: 0.869, 95% CI: 0.695 - 1.150, p = 0.322).
In 1 patient, bone metastasis diagnosis onset until Sr-89 administration was 0 month, and in 2 patients, bone metastasis diagnosis onset until Sr-89 administration was 1 month. These patients received Sr-89 in early stage of bone metastasis. In 12 patients, one metastasis diagnosis onset until Sr-89 administration was 5 to 51 months. The relationship between duration from bone metastasis diagnosis onset until Sr-89 administration was not statically significant (odds ratio: 0.958, 95% CI: 0.879 - 1.040, p = 0.329).
Number of patients | 15 |
---|---|
Sex | All females |
Age (years) | Median 58 (30 - 73) |
subtype | Luminal: 7 HER2: 5 Triple negative:3 |
BSI (Bone Scan Index) | Median 3.028 (0.22 - 12.265) |
Duration from bone metastasis diagnosis onset until Sr-89 administration (months) | Median 23 (0 - 51) |
Zoledronate and denosumab | Zoledronate: 10 (66.7%) Denosumab: 4 (26.7%) No: 1 (6.6%) |
Hormonal agents | Yes: 9 (60%) No: 6 (40%) |
Chemotherapeutic agents | Yes: 8 (53.3%) No: 7 (46.7%) |
In 10 patients, zoledronic acid and Sr-89 was used in combination and significant analgesia was observed in 6 (60.0%) patients. In 4 patients, denosumab and Sr-89 was used in combination and significant analgesia was observed in 4 (100.0%) patients. The relationship between zoledronic acid or denosumab and pain relief owing to Sr-89 was not statically significant (odds ratio: 1.330, 95% CI: 0.089 - 20.70, p = 0.837).
In 9 patients, hormonal agents and Sr-89 was used in combination and significant analgesia was observed in 7 (77.8%) patients. In 6 patients, hormonal agents and Sr-89 was not used in combination and significant analgesia was observed in 4 (66.7%) patients. The relationship between hormonal agents and pain relief owing to Sr-89 was not statically significant (odds ratio: 1.750, 95% CI: 0.173 - 17.70, p = 0.635).
In 8 patients, chemotherapeutic agents and Sr-89 was used in combination and significant analgesia was observed in 5 (62.5%) patients. In 7 patients, chemotherapeutic agents and Sr-89 was not used in combination and significant analgesia was observed in 6 (75.0%) patients. The relationship between chemotherapy and pain relief owing to Sr-89 was not statically significant (odds ratio: 0.278, 95% CI: 0.021 - 3.58, p = 0.326).
In this study, we found that Sr-89 improve the bone metastatic pain in 70% patients with breast cancer bone metastases, although we were unable to determine positive predictive factors for pain relief.
For breast cancer patients with bone metastases who do not achieve enough pain relief from pain medication, external beam radiation is frequently selected. However, a limitation of external beam radiation is its purely local effect, rendering it ineffective if there are multiple indistinct painful sites. After pain at the most intense site is improved by external beam radiation, pain is then frequently experienced at other locations, requiring multiple external beam treatments. External beam therapy is contraindicated when interstitial pneumonia is present in the radiation field [
Although comparison is difficult owing to different quantitative pain assessment methods being used, pain relief was observed by either reduced doses of painkillers or lower NRS in 11 of 15 patients (73.3%), a result similar to that of Baziotis et al. and Fuster et al.
Various reports predicting the pain-relieving capabilities of Sr-89 have been published. Dafermou et al. compared osteoblastic and mixed bone metastases by radiography and found that pain relief was observed in 61.6% of cases of osteoblastic bone metastases and 62.5% of cases of mixed metastases, whereas the pain relief effect was just 42.9% in osteolytic bone metastases. Although there was not significant difference (P = 0.07), the results show that the pain relief effect tended to be diminished in osteolytic bone sites [
Kraeber reported that in 94 cases of prostate cancer metastasis to the bone, pain relief owing to Sr-89 was observed at about the same rate in cases with 10 or fewer metastases and cases with widespread bone metastases (77%, 75%), but a significant difference (P = 0.005) was observed in the rates of complete disappearance of pain in cases with 10 or fewer metastases (54%) and widespread bone metastases (24%) [
McEwan et al. reported observing more pain improvement effect in the early stages of bone metastasis [
In our study, Sr-89 was effective in 70% of cases; however, positive predictive factors for pain relief could not be determined. In addition, external beam radiation, BSI, and duration from bone metastasis diagnosis onset until Sr-89 administration were not predictive factors for pain relief.
This study had limitations. First, the sample size of the study was small. Second this study had a retrospective design. Therefore, further accumulation of patients and Ko
In patients with breast cancer bone metastases, Sr-89 is effective in 70% of cases, although positive predictive factors for pain relief remained unknown.
We thank Kazuho Suyama of Nihon Koukan Hospital Director of Urology for help in this research.
The authors declare no conflicts of interest regarding the publication of this paper.
Okada, Y., Abe, T., Shinozaki, M., Sakaino, S., Gomi, H., Nakajima, Y., Kojima, Y., Uejima, T. and Tsugawa, K. (2018) Strontium-89 Therapy for Breast Cancer Bone Metastases: Pain Relief Effects and Predictive Factors. Advances in Breast Cancer Research, 7, 250-257. https://doi.org/10.4236/abcr.2018.74016