Breast Cancer Treatment–induced Bone Loss

How many of your patients on hormone ablation therapy for breast cancer are at high risk for fracture?

Whether your patients are losing bone mass due to treatment for breast cancer, help protect their bone health with Prolia^®.¹

Breast Cancer Treatment–induced Bone Loss Indication

Prolia^® is indicated as a treatment to increase bone mass in women at high risk for fracture receiving adjuvant aromatase inhibitor therapy for breast cancer.

Estrogen molecule for illustration purposes only.

In the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines^®), denosumab is included as a treatment option to increase bone density and reduce risk of fractures in postmenopausal women on aromatase inhibitor therapy.²

National Comprehensive Cancer Network^® (NCCN^®) makes no warranties of any kind whatsoever regarding their content, use, or application and disclaims any responsibility for their application or use in any way.

Among Women with Breast Cancer

Aromatase inhibitor therapy results in estrogen depletion, leading to bone loss and increased fracture risk.³

How does aromatase inhibitor (AI) therapy put women with breast cancer at high risk for fracture?

Fracture: Patients with breast cancer receiving (AI) therapy are more likely to experience a fracture than those not receiving aromatase inhibitor AI therapy⁵

Data from a claims-based retrospective cohort study conducted from 1998 to 2005, involving patients with breast cancer, without bone metastases, and no previous osteoporosis, osteopenia, or fracture
claims, receiving AI therapy (n = 1,354) versus those
not receiving AI therapy (n = 11,014).⁵

CI = confidence interval; RR=relative risk.

Calcium and vitamin D supplementation alone may not be sufficient to prevent bone loss and fractures in patients receiving AI therapy⁴

How does AI therapy put women with breast cancer at high risk for fracture?

BMD: The most pronounced rate of bone loss at the lumbar spine, measured by BMD, occurs within the first year of AI therapy (-2.3%)^6,7

Data from a randomized, double-blind, multicenter, prospective substudy performed within the ATAC (Arimidex, Tamoxifen, Alone or in Combination) trial assessing BMD changes at the lumbar spine and total hip in postmenopausal women with nonmetastatic breast cancer receiving anastrozole or tamoxifen therapy.^6,7

Calcium and vitamin D supplementation alone may not be sufficient to prevent bone loss and fractures in patients receiving AI therapy⁴

See how a phase 3 BMD study assessed how Prolia^® can protect against aromatase inhibitor–induced bone loss^1,4

Prolia^® was proven to protect against aromatase inhibitor–induced bone loss in a phase 3 study^1,4

Study design (CTIBL-HALT)^1,4

A 2-year, randomized, multinational, double-blind, phase 3 study assessing the effects of Prolia^® vs placebo on BMD

Women with nonmetastatic breast cancer receiving AI (N = 252)

†Patients were instructed to take 1,000 mg of calcium and 400 IU of vitamin D supplementation only.

Primary endpoint:

Percent change in: Lumbar spine BMD from baseline to 12 months

Exploratory endpoints:

Percent change in:

Lumbar spine BMD from baseline to 24 months
Total hip BMD from baseline to 24 months
Femoral neck BMD from baseline to 24 months

CTIBL-HALT = cancer treatment–induced bone loss due to hormone ablation therapy; SC = subcutaneous.

Prolia^® increased BMD in patients on AI therapy for breast cancer in a pivotal trial^1,4

Primary Endpoint: Significant increase (5.5%) in BMD at the lumbar spine compared with placebo at 12 months (p < 0.0001)¹

Mean percent change in BMD at 12 months^1,4

Mean Percent Change in Lumbar Spine BMD at 12 Months. See references below.

Exploratory Endpoints: Prolia^® demonstrated a continued increase in BMD at key sites through 24 months¹

Lumbar Spine
Total Hip
Femoral Neck

Mean percent change in BMD at 24 months^1,4

Mean Percent Change in Lumbar Spine BMD at 24 Months. See references below.

CI = confidence interval; CTIBL-HALT = cancer treatment–induced bone loss due to hormone ablation therapy.

Mean percent change in BMD at 24 months^1,4

Mean Percent Change in Total Hip BMD at 24 Months. See references below.

CTIBL-HALT = cancer treatment–induced bone loss due to hormone ablation therapy.

Mean percent change in BMD at 24 months^1,4

Mean Percent Change in Femoral Neck BMD at 24 Months. See references below

CTIBL-HALT = cancer treatment–induced bone loss due to hormone ablation therapy.

Prolia^® safety profile was established in a pivotal phase 3 trial over a 2-year period⁴

Prolia^® safety and tolerability were evaluated in a pivotal phase 3 trial over a 2-year period⁴

Safety: Prolia^® safety and tolerability were evaluated in a pivotal trial in women with breast cancer and bone loss from AI therapy over a 2-year period⁴

The overall incidence of adverse events was similar between Prolia^® and placebo (91% vs 90%, respectively).⁴

Adverse events ( 10% frequency in each treatment group)⁴

	Placebo (n = 120)	Prolia^® (n = 129)
Arthralgia	25.0%	24.0%
Pain in extremity	11.7%	14.7%
Back pain	12.5%	14.0%
Fatigue	14.2%	13.2%

Musculoskeletal pain has also been reported in clinical trials¹
The percentage of patients who withdrew from the study due to adverse events was 0.8% and 4.2% for the Prolia^® and placebo groups, respectively¹
The incidence of serious adverse events was 14.7% in the Prolia^® group and 9.2% in the placebo group¹

CTIBL-HALT=cancer treatment–induced bone loss due to hormone ablation therapy.

Important Safety Information

Prolia^® is contraindicated in patients with hypocalcemia, in women who are pregnant and in patients with a history of systemic hypersensitivity to any component of the product. Patients receiving Prolia^® should not receive XGEVA^®. Clinically significant hypersensitivity, hypocalcemia, osteonecrosis of the jaw, atypical femoral fracture, multiple vertebral fractures following the discontinuation of Prolia^® treatment, serious infections, dermatologic adverse reactions, musculoskeletal pain, and suppression of bone turnover have been reported in patients receiving Prolia^®. Prolia^® may cause fetal harm. It is not known whether Prolia^® is excreted in human milk.

Please see additional Important Safety Information below, as well as Prescribing Information.

If you have a clinical inquiry or would like to report an adverse event related to Prolia^®, please visit www.amgen.com.

Learn about the largest and longest study of fracture risk among women receiving AI therapy for nonmetastatic breast cancer³

A phase III study evaluated fracture risk in over 3400 women with nonmetastatic breast cancer³

The Adjuvant Denosumab in Breast Cancer (ABCSG-18) trial: The largest study and longest follow-up evaluating fracture risk in postmenopausal^* women receiving AI therapy for nonmetastatic breast cancer³

Primary Endpoint

Time to first clinical fracture^†

Bone-related Secondary Endpoints

Percentage change in BMD in the total lumbar spine, total hip, and femoral neck from baseline to 36 months
Incidence of new vertebral fractures from baseline to 36 months
Incidence of new or worsening of pre-existing vertebral fractures from baseline to 36 months

Exploratory Endpoints

Percentage change in BMD in the total lumbar spine, total hip, and femoral neck from baseline to 12 and 24 months
Incidence of new vertebral fractures from baseline to 12 and 24 months
Incidence of new or worsening of vertebral fractures from baseline to 12 and 24 months

*Women were considered postmenopausal if they had a bilateral oophorectomy, were 60 years old, or were < 60 years old but had follicle-stimulating hormone (FSH) and estradiol levels in the postmenopausal range.³

†Clinically evident fractures—excluding the skull, face, fingers, and toes—with associated symptoms.³

ABCSG-18 was the first major study to evaluate high-risk postmenopausal women with a wide range of baseline characteristics, including T-scores, age, and tumor grades³

Baseline demographics between treatment groups³

	Placebo every 6 months (n = 1709)	Prolia^® 60 mg every 6 months (n = 1711)
Age group (years)
< 50	31 (2%)	34 (2%)
50-59	448 (26%)	473 (28%)
60-69	755 (44%)	782 (46%)
70-79	414 (24%)	372 (22%)
80	61 (4%)	50 (3%)
Tumor grade
G1	338 (20%)	365 (21%)
G2/Gx	1028 (60%)	1038 (61%)
G3	339 (20%)	303 (18%)
Unknown	4 (< 1%)	5 (< 1%)
Chemotherapy before randomization
None	1287 (75%)	1288 (75%)
Adjuvant	329 (19%)	338 (20%)
Neoadjuvant	93 (5%)	85 (5%)
Start of AI treatment^‡
With denosumab/placebo	269 (16%)	270 (16%)
Before denosumab/placebo	1440 (84%)	1441 (84%)
Total lumbar spine BMD
T-score < -1.0	775 (45%)	773 (45%)
T-score -1.0	934 (55%)	938 (55%)

‡The protocol allowed administration of AI for up to 2 years prior to randomization. Median duration of AI therapy before randomization in 2881 patients was 1 month.³

Prolia^® was proven to reduce fracture risk by half vs placebo (Primary Endpoint)³

In women with nonmetastatic breast cancer being treated with an AI, Prolia^®delayed the time to first clinical fracture by 50% compared to placebo³

Percentage risk of fracture based on Kaplan-Meier time-to-event analysis within each treatment group at 6-month intervals³

$Percentage risk of fracture based on Kaplan-Meier time-to-event analysis within each treatment group at 6-month intervals. See reference below$

The hazard ratio and p value were calculated from a Cox model including treatment groups as the independent variable and stratified by the randomization stratification factors. Error bars are 95% confidence intervals.

Prolia^® reduced first clinical fracture rate at 7 years³

11.1% in the Prolia^® group vs 26.2% in the placebo group

Secondary Endpoints: Prolia^®significantly reduced the incidence of new vertebral fractures³

$Incidence of vertebral fractures at 36 months. See reference below$

New vertebral fracture at 36 months

$Incidence of vertebral fractures at 36 months. See reference below$

Prolia^® was proven to increase BMD over time (Secondary and Exploratory Endpoints)³

Prolia^® increased BMD over time (Secondary and Exploratory Endpoints)³

Continued use of Prolia^® was shown to significantly increase BMD in the lumbar spine, total hip, and femoral neck over a 3-year period in breast cancer patients taking AI therapy³

Mean recorded percentage changes in bone mineral density at total lumbar spine, total hip, and femoral neck for each treatment group at 12, 24, and 36 months^3,*

BMD at Lumbar Spine, Total Hip, and Femoral Neck

Overall BMD increases observed in this study are consistent with the results in the pivotal trial in breast cancer patients on AI therapy^3,4

*The pivotal trial in breast cancer patients on AI therapy demonstrated an increased difference in BMD from baseline at 12 months in lumbar spine (primary endpoint) and 24 months in lumbar spine, total hip, and femoral neck (exploratory endpoints) vs placebo.⁴

In the ABCSG-18 study, the incidence of adverse events or serious adverse events in the Prolia^® and placebo groups were similar³

All adverse events that occurred in more than 5% of all patients³

Adverse Events

	Placebo every 6 months [n = 1690]	Prolia^® 60 mg every 6 months [n = 1709]
Musculoskeletal and connective tissue disorders	801 (47%)	832 (49%)
Arthralgia	437 (26%)	435 (26%)
Back pain	145 (9%)	151 (9%)
Bone pain	110 (7%)	137 (8%)
Pain in extremity	85 (5%)	106 (6%)
Vascular disorders	394 (23%)	472 (28%)
Hot flush	230 (14%)	263 (15%)
Hypertension	93 (6%)	111 (7%)
General disorders and administration site conditions	244 (14%)	277 (16%)
Fatigue	98 (6%)	108 (6%)
Atypical fracture	0	0
ONJ*	0	0

*During the trial period, all potential cases of osteonecrosis of the jaw (ONJ) were adjudicated by an independent international expert panel. Thirty-one dental problems were assessed, but none were determined to meet the diagnostic criteria of ONJ.³

Serious adverse events included musculoskeletal and connective tissue disorders (eg, osteoarthritis, intervertebral disc protrusion); injury, poisoning, and procedural complications (eg, meniscus injury); nervous system disorders (eg, carpal tunnel syndrome); eye disorders (eg, cataract); and endocrine disorders (eg, goiter)³

If you have a clinical inquiry or would like to report an adverse event related to Prolia^®, please visit www.amgen.com.

IMPORTANT SAFETY INFORMATION

SEVERE HYPOCALCEMIA IN PATIENTS WITH ADVANCED KIDNEY DISEASE:

Patients with advanced chronic kidney disease are at greater risk of severe hypocalcemia following Prolia administration. Severe hypocalcemia resulting in hospitalization, life-threatening events and fatal cases have been reported. The presence of chronic kidney disease-mineral bone disorder (CKD-MBD) markedly increases the risk of hypocalcemia. Prior to initiating Prolia in patients with advanced chronic kidney disease, evaluate for the presence of CKD-MBD. Treatment with Prolia in these patients should be supervised by a healthcare provider with expertise in the diagnosis and management of CKD-MBD.

Contraindications: Prolia^® is contraindicated in patients with hypocalcemia. Pre-existing hypocalcemia must be corrected prior to initiating Prolia^®. Prolia^® is contraindicated in women who are pregnant and may cause fetal harm. In women of reproductive potential, pregnancy testing should be performed prior to initiating treatment with Prolia^®. Prolia^® is contraindicated in patients with a history of systemic hypersensitivity to any component of the product. Reactions have included anaphylaxis, facial swelling and urticaria.

Severe Hypocalcemia and Mineral Metabolism Changes: Prolia can cause severe hypocalcemia and fatal cases have been reported. Pre-existing hypocalcemia must be corrected prior to initiating therapy with Prolia. Adequately supplement all patients with calcium and vitamin D.

In patients without advanced chronic kidney disease who are predisposed to hypocalcemia and disturbances of mineral metabolism (e.g. treatment with other calcium lowering drugs), assess serum calcium and mineral levels (phosphorus and magnesium) 10 to 14 days after Prolia injection.

Same Active Ingredient: Prolia^® contains the same active ingredient (denosumab) found in XGEVA^®. Patients receiving Prolia^® should not receive XGEVA^®.

Hypersensitivity: Clinically significant hypersensitivity including anaphylaxis has been reported with Prolia^®. Symptoms have included hypotension, dyspnea, throat tightness, facial and upper airway edema, pruritus and urticaria. If an anaphylactic or other clinically significant allergic reaction occurs, initiate appropriate therapy and discontinue further use of Prolia^®.

Osteonecrosis of the Jaw (ONJ): ONJ, which can occur spontaneously, is generally associated with tooth extraction and/or local infection with delayed healing, and has been reported in patients receiving Prolia^®. An oral exam should be performed by the prescriber prior to initiation of Prolia^®. A dental examination with appropriate preventive dentistry is recommended prior to treatment in patients with risk factors for ONJ such as invasive dental procedures, diagnosis of cancer, concomitant therapies (e.g. chemotherapy, corticosteroids, angiogenesis inhibitors), poor oral hygiene, and co-morbid disorders. Good oral hygiene practices should be maintained during treatment with Prolia^®. The risk of ONJ may increase with duration of exposure to Prolia^®.

For patients requiring invasive dental procedures, clinical judgment should guide the management plan of each patient. Patients who are suspected of having or who develop ONJ should receive care by a dentist or an oral surgeon. Extensive dental surgery to treat ONJ may exacerbate the condition. Discontinuation of Prolia^® should be considered based on individual benefit-risk assessment.

Atypical Femoral Fractures: Atypical low-energy, or low trauma fractures of the shaft have been reported in patients receiving Prolia^®. Causality has not been established as these fractures also occur in osteoporotic patients who have not been treated with antiresorptive agents.

During Prolia^® treatment, patients should be advised to report new or unusual thigh, hip, or groin pain. Any patient who presents with thigh or groin pain should be evaluated to rule out an incomplete femur fracture. Interruption of Prolia^® therapy should be considered, pending a risk/benefit assessment, on an individual basis.

Multiple Vertebral Fractures (MVF) Following Discontinuation of Prolia^® Treatment: Following discontinuation of Prolia^® treatment, fracture risk increases, including the risk of multiple vertebral fractures. New vertebral fractures occurred as early as 7 months (on average 19 months) after the last dose of Prolia^®. Prior vertebral fracture was a predictor of multiple vertebral fractures after Prolia^® discontinuation. Evaluate an individual’s benefit/risk before initiating treatment with Prolia^®. If Prolia^® treatment is discontinued, patients should be transitioned to an alternative antiresorptive therapy.

Serious Infections: In a clinical trial (N = 7808), serious infections leading to hospitalization were reported more frequently in the Prolia^® group than in the placebo group. Serious skin infections, as well as infections of the abdomen, urinary tract and ear, were more frequent in patients treated with Prolia^®.

Endocarditis was also reported more frequently in Prolia^®-treated patients. The incidence of opportunistic infections and the overall incidence of infections were similar between the treatment groups. Advise patients to seek prompt medical attention if they develop signs or symptoms of severe infection, including cellulitis.

Patients on concomitant immunosuppressant agents or with impaired immune systems may be at increased risk for serious infections. In patients who develop serious infections while on Prolia^®, prescribers should assess the need for continued Prolia^® therapy.

Dermatologic Adverse Reactions: Epidermal and dermal adverse events such as dermatitis, eczema and rashes occurred at a significantly higher rate with Prolia^® compared to placebo. Most of these events were not specific to the injection site. Consider discontinuing Prolia^® if severe symptoms develop.

Musculoskeletal Pain: Severe and occasionally incapacitating bone, joint, and/or muscle pain has been reported in patients taking Prolia^®. Consider discontinuing use if severe symptoms develop.

Suppression of Bone Turnover: Prolia^® resulted in significant suppression of bone remodeling as evidenced by markers of bone turnover and bone histomorphometry. The significance of these findings and the effect of long-term treatment are unknown. Monitor patients for consequences, including ONJ, atypical fractures, and delayed fracture healing.

Adverse Reactions: The most common adverse reactions (>5% and more common than placebo) are back pain, pain in extremity, musculoskeletal pain, hypercholesterolemia, and cystitis. Pancreatitis has been reported with Prolia^®.

The overall incidence of new malignancies was 4.3% in the placebo group and 4.8% in the Prolia^® group. A causal relationship to drug exposure has not been established. Denosumab is a human monoclonal antibody. As with all therapeutic proteins, there is potential for immunogenicity.

Indication: Prolia is indicated for the treatment of postmenopausal women with osteoporosis at high risk for fracture, defined as a history of osteoporotic fracture, or multiple risk factors for fracture; or patients who have failed or are intolerant to other available osteoporosis therapy. In postmenopausal women with osteoporosis, Prolia reduces the incidence of vertebral, nonvertebral, and hip fractures.

Please see Prolia^® full Prescribing Information, including Medication Guide.

5 INDICATIONS

Suggested Pages:

QUICK RESOURCES

How many of your patients on hormone ablation therapy for breast cancer are at high risk for fracture?

Breast Cancer Treatment–induced Bone Loss Indication

Among Women with Breast Cancer

How does aromatase inhibitor (AI) therapy put women with breast cancer at high risk for fracture?

Fracture: Patients with breast cancer receiving (AI) therapy are more likely to experience a fracture than those not receiving aromatase inhibitor AI therapy⁵

How does AI therapy put women with breast cancer at high risk for fracture?

See how a phase 3 BMD study assessed how Prolia^® can protect against aromatase inhibitor–induced bone loss^1,4