Denosumab and Nivolumab Combination As 2d-line Therapy in Stage IV NSC Lung Cancer with Bone Metastases (DENIVOS)

Phase 2

Completed

• Conditions: Carcinoma, Non-Small-Cell Lung; Bone Metastases
• Interventions: Drug: Denosumab-nivolumab combination

• Registration Number: NCT03669523
• Lead Sponsor: Centre Hospitalier Annecy Genevois

Brief Summary

Bone metastases are common in Non-Small Cell Lung Cancer (NSCLC). They most often occur during disease progression. It is thought that more than half of the patients with bone metastases will have at least 1 skeletal-related event (SRE, i.e. pathological fractures, medullary compression, analgesic radiotherapy, preventive and/or analgesic surgery and hypercalcemia).

Expert and medical Society guidelines, notably European Society for Medical Oncology in 2014, then in 2016, recommended using anti-resorptive agents (bisphosphonates or denosumab) to prevent SREs, attenuate pain and improve the quality of life, and decrease the medical-economic impact of this major metastatic site. Denosumab was accorded marketing authorization in France in 2011 as an anti-resorptive agent for bone metastases to delay the occurrence of SREs in lung-cancer patients.

Immunotherapy, notably immune-checkpoint inhibitors, like nivolumab (anti-programed death-1), has recently become an integral part of the therapeutic arsenal against NSCLCs. Nivolumab was accorded marketing authorization based on the phase III CHECKMATE 017 (squamous cell NSCLCs) and CHECKMATE 057 (non-squamous cell NSCLCs) trials versus docetaxel, after the phase II CHECKMATE 063 trial.

The denosumab-nivolumab combination is commonly used in current practice but has not been evaluated prospectively. The aim of this trial is to evaluate the combination of denosumab and nivolumab in second line of NSCLC with bone metastases.

Detailed Description

Bone metastases are common in Non-Small Cell Lung Cancer (NSCLC), affecting 30-65% of the patients, depending on the series. They most often occur during disease progression (59.7% in the French Lung Cancer Group trial). The frequency of skeletal-related events (SREs) (pathological fractures, medullary compression, analgesic radiotherapy, preventive and/or analgesic surgery and hypercalcemia) is high. It is thought that more than half of the patients with bone metastases will have at least 1 SRE, with rates ranging from 55% to 62%.

Expert and medical Society guidelines, notably European Society for Medical Oncology in 2014, then in 2016, recommended using anti-resorptive agents (bisphosphonates or denosumab) to prevent SREs, attenuate pain and improve the quality of life, and decrease the medical-economic impact of this major metastatic site.

Denosumab is a humanized monoclonal antibody. It mimics the action of osteoprotegerin (OPG), thereby inhibiting osteoclastogenesis by blocking the binding of the receptor activator of nuclear factor-kappaB (RANK) to its ligand (RANKL), and thus interrupts the vicious circle between tumor cells and bone. RANK is a transmembrane protein expressed on osteoclasts, and its ligand, RANKL, is soluble and secreted by osteoblasts. Denosumab was accorded marketing authorization in France in 2011 as an anti-resorptive agent for bone metastases to delay the occurrence of SREs in lung-cancer patients. The results of 3 phase III studies evaluating the place of denosumab versus zoledronic acid have been published. Lung cancers were included in the trial examining solid tumors (other than breast and prostate) and multiple myeloma, and represented 40% of the population. In a non-inferiority analysis, the primary objective was reached with denosumab prolonging by approximately 4 months the time to the first SRE (20.6 versus 16.3 months, hazard ratio 0.84 \[95% confidence interval 0.71-0.98\] p=0.0007). In the lung-cancer subgroup, this difference did not reach significance (hazard ratio 0.85 \[95% confidence interval 0.65-1.12\]). In contrast, the exploratory analysis of that subgroup showed overall survival prolonged by 1.2 months for the denosumab arm versus zoledronic acid (8.9 versus 7.7 months, hazard ratio 0.8 \[95% confidence interval 0.67-0.95\] p=0.01).

Immunotherapy, notably immune-checkpoint inhibitors (ICPIs), like nivolumab (anti-programed death-1 (PD-1)), has recently become an integral part of the therapeutic arsenal against NSCLCs. Nivolumab was accorded marketing authorization based on the phase III CHECKMATE 017 (squamous cell NSCLCs) and CHECKMATE 057 (non-squamous cell NSCLCs) trials versus docetaxel, after the phase II CHECKMATE 063 trial. The search for a biomarker predictive of the response to immunotherapy is becoming more-and-more crucial, so as not to expose patients who risk early cancer hyper-progression. Immunohistochemical labeling of PD-1 ligand (PD-L1) on tumor cells (± infiltrating the stroma) is the most studied and reliable biomarker. Knowing its status has become indispensable in immunotherapy trials because an elevated PD-L1 has been correlated to a better response. Prescribing second-line nivolumab is not conditioned by the PD-L1 status because those trials had not foreseen stratification according to this criterion's status. However, post-hoc analysis of PD-L1 in the CHECKMATE 057 trial on non-squamous cell NSCLCs showed prolonged overall survival for patients with PD-L1-positive tumors, whether the positivity threshold was 1%, 5% or 10%. Thus, knowing the PD-L1 status is necessary to interpret the results of immunotherapy trials.

The RANK-RANKL system was studied in preclinical osteoimmunology models. It is expressed by certain cells, notably antigen-presenting cells, such as dendritic cells or lymphocytes, essential for the adaptive immunity function solicited by immunotherapy. It is part of the tumor necrosis factor receptor (TNF-R) family and is implicated in the interactions between dendritic cells and lymphocytes. The RANK-RANKL role in the development and function of regulatory T cells (Tregs) remains poorly elucidated. Information on the interaction of the RANK-RANKL system and adaptive immunity obtained with the preclinical models is discordant and rare. A case report on a patient with melanoma bone metastases treated with denosumab and ipilimumab (ICPI of the anti-cytotoxic T-lymphocyte antigen 4 type) obtained a promising carcinological outcome, without any sign of deleterious interaction.

The aim of this trial is to evaluate the combination of denosumab and nivolumab in second line of NSCLC with bone metastases.

Study Timeline

• Study First Submitted: 2018-09-05
• Study First Submitted QC: 2018-09-12
• Study First Posted: 2018-09-13
• Study Start: 2018-11-06
• Primary Completion: 2023-10-19
• Study Completion: 2023-10-19
• Status Verified: 2025-02
• Last Update Submitted: 2025-02-11
• Last Update Posted: 2025-02-13

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 82

Inclusion Criteria

• Cytologically or histologically proven stage IV NSCLC

• Patients who had received first-line platin salt-based chemotherapy and will be given second-line nivolumab;

• Patients with bone metastases, symptomatic or not, confirmed by X-rays, CT scan, MRI, PET-CT scan or technetium bone scintigraphy

• Presence of at least 1 measurable target lesion, according to RECIST criteria 1.1, in a non-irradiated site

• For non-squamous cell NSCLC, patients without known activating epidermal growth factor receptor mutation, anaplastic lymphoma kinase (ALK) or reactive oxygen species (ROS)-1 translocation, or B-Raf proto-oncogene, serine/threonine kinase (BRAF V600) mutation

• PD-L1 status known and expressed as a percentage of tumor cells; assessed at the diagnosis or the more recent PD-L1 expression status available.

• Eastern Cooperative Oncology Group Performance Status 0/1

• Estimated life-expectancy ≥12 weeks

• No prior malignant tumor during the previous 5 years, except for in situ carcinomas of the cervix or basal or squamous cell carcinomas of the skin adequately treated;

• Adequate organ function determined by laboratory analyses less than 7 days before inclusion:

  • Normal hepatic function: bilirubin < 1.5× normal (N), alanine aminotransferase and aspartate aminotransferase <2.5× N or <5× N if hepatic metastases are present
  • Renal function (renal clearance of creatinine at least ≥45 mL/min)
  • Hematological function: absolute number of neutrophils ≥1.5×109/L and/or platelets ≥100×109/L, hemoglobin ≥8 g/dL

• Women of child-bearing age must use an effective contraceptive method and mechanical contraception during and up to 6 months after the end of treatment;

• Men must use effective contraception during and up to 6 months after the treatment period

• Patient with asymptomatic brain metastases (treated or not) OR symptomatic brain metastases but adequately treated and controlled at the time of enrolment (without or with corticotherapy ≤ 10mg/day), can be included. Carcinomatous meningitis is excluded regardless of clinical stability

• Subjects must have signed and dated an approved written informed consent form in accordance with regulatory and institutional guidelines. This must be obtained before the performance of any protocol related procedures that are not part of normal subject care

• Patient affiliated or benefitting from the French national health insurance program

Exclusion Criteria

• Patients previously treated with immunotherapy

• Patients with symptomatic cerebral metastases not treated and not controlled

• Contraindication to nivolumab use:

  • Prior autoimmune disease(s), define as disease required systemic treatment in the past (i.e. with use of disease modifying agents, corticosteroids or immunosuppressive drugs). Replacement therapy (eg., thyroxine, insulin, or physiologic corticosteroid replacement therapy for adrenal or pituitary insufficiency, etc.) is not considered a form of systemic treatment
  • Prior diffuse interstitial pneumopathy
  • Systemic immunosuppressive therapy; define as steroid medication at a dose greater than prednisone 10 mg/day or equivalent. For patients with mismatch repair-deficient high-grade gliomas, concurrent steroid medication at a dose greater than prednisone 20mg/day or equivalent

• Contraindication for denosumab use:

  • Poor dental status requiring immediate specialized management, like oral surgery
  • Prior or current signs of osteonecrosis of the jaw/osteomyelitis
  • Invasive dental intervention schedule during the study or not yet healed

• Patient with known sensitivity to any of the products to be administered during the study

• Concomitant administration of bisphosphonates

• Hypocalcemia or severe uncorrected hypercalcemia

• Medical or psychological condition preventing informed consent

• Pregnant or breastfeeding woman

• PD-L1-status results unavailable

• Simultaneous participation of the patient in another clinical research trial

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Denosumab-nivolumab combination	Denosumab-nivolumab combination	Both drugs to be continued until progression or unacceptable toxicity and for a maximum of two years

Primary Outcome Measures

Name	Time	Method
Overall Response Rate (ORR) according to the PD-L1-expression rate (threshold set at 1%)	At 24 months	ORR (Complete and Partial Responses) will be expressed as number, percentage and 95% confidence interval, calculated with the exact method.; The evaluation of ORR, according to PD-L1-expression rate, using RECIST criteria 1.1, will be performed by the investigator in each center. A panel of French Lung Cancer Group investigators meeting 3 times/year will then validate it by a second reading.

Secondary Outcome Measures

Name	Time	Method
Overall Response Rate according to the histological type (adenocarcinoma versus squamous cell)	At 24 months	The 24-month Overall Response Rate (Complete and Partial Responses using RECIST criteria 1.1) for the entire population, then according to histological type (adenocarcinoma versus squamous-cell) will be expressed as number, percentage and 95% confidence interval, calculated with the exact method.
Disease-control rate (DCR)	up to 24 months	The DCR (complete and partial responses + stabilized disease using RECIST criteria 1.1) will be expressed as number, percentage and 95% confidence interval, calculated with the exact method, for the entire population, then by subgroups according to the PD-L1-expression rate, and histological type (adenocarcinoma versus squamous-cell).
Overall survival	over 24 months	Overall survival over 24 months will be described using the Kaplan-Meier method. Log-rank tests will be used to analyze subgroups according to PD-L1-expression rate, then histological type (adenocarcinoma versus squamous-cell). Survival medians, in the overall population and according to PD-L1-expression rate, then histological type (adenocarcinoma versus squamous-cell) will be calculated.
Progression-free survival	over 24 months	Progression-free survival over 24 months will be described with the Kaplan-Meier method. Log-rank tests will be used to analyze subgroups according to PD-L1-expression rate, then histological type (adenocarcinoma versus squamous-cell). Progression-free survival medians, in the overall population and according to PD-L1-expression rate, then histological type (adenocarcinoma versus squamous-cell) will be calculated.
Overall Response Rate for the entire population	At 24 months	The 24-month Overall Response Rate (Complete and Partial Responses using RECIST criteria 1.1) for the entire population, then according to histological type (adenocarcinoma versus squamous-cell) will be expressed as number, percentage and 95% confidence interval, calculated with the exact method.
Time to the first Skeletal-Related Event in months	Over 24 months	The time to an Skeletal-Related Event will be estimated with the Kaplan-Meier method over 24 months of follow-up.; Skeletal-Related Event are defined as pathological fractures, medullary compression, analgesic radiotherapy, preventive and/or analgesic surgery and hypercalcemia.
Incidence of adverse events, serious adverse events, deaths and biological abnormalities	up to 24 months	Scored according to NCI CTCAE V4.0 terminology

Trial Locations

Locations (27)

CH Villefranche sur Saone; 🇫🇷 Villefranche-sur-Saône, France

Hôpital d'Instruction des Armées Saint-Anne; 🇫🇷 Toulon, France

CHITS Toulon Sainte-Musse; 🇫🇷 Toulon, France

Centre Hospitalier Fleyriat; 🇫🇷 Bourg-en-Bresse, France

CH Marne La Vallée; 🇫🇷 Marne-La-Vallée, France

Centre Hospitalier de Bigorre; 🇫🇷 Tarbes, France

Ch Intercommunal Elbeuf Louvier Val de Reuil; 🇫🇷 Elbeuf, France

CH du Pays d'Aix; 🇫🇷 Aix-en-Provence, France

Chu Angers; 🇫🇷 Angers, France

Centre Hospitalier de Beauvais; 🇫🇷 Beauvais, France

CHU Morvan - Institut de Cancérologie et d'Hématologie; 🇫🇷 Brest, France

CH Intercommunal des Alpes du Sud; 🇫🇷 Gap, France

CH Intercommunal; 🇫🇷 Créteil, France

Hopital Européen; 🇫🇷 Marseille, France

Hôpital Robert Boulin; 🇫🇷 Libourne, France

Chu Dupuytren; 🇫🇷 Limoges, France

Hopital Nord APHM; 🇫🇷 Marseille, France

CH Meaux; 🇫🇷 Meaux, France

Centre Catalan d'Oncologie; 🇫🇷 Perpignan, France

CH Annecy-Genevois; 🇫🇷 Pringy, France

Groupe Hospitalier Sud Réunion - CHU de la Réunion; 🇫🇷 Saint-Pierre, France

CLCC Paul Strauss; 🇫🇷 Strasbourg, France

Institut de Cancérologie de la Loire; 🇫🇷 Saint-Priest-en-Jarez, France

Hôpital André Mignot Centre Hospitalier de Versailles; 🇫🇷 Versailles, France

CHU Rouen; 🇫🇷 Rouen, France

CHU La Réunion - Site de Bellepierre; 🇫🇷 Saint-Denis, France

CHU Hôpital Pontchailloux; 🇫🇷 Rennes, France