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A Phase 2 Clinical Trial of Neoadjuvant Relatlimab and Nivolumab in High Risk, Clinical Stage II Cutaneous Melanoma
Neoadjuvant therapy is feasible in stage II melanoma, and the dual inhibition of the distinct LAG-3 and PD-1 checkpoint pathways with relatlimab and nivolumab has a synergistic effect in the tumour microenvironment leading to a pathological response after 2 doses of therapy.
Study details:
The incidence of stage II melanoma is significantly higher than for later stages of the disease, but stage II patients account for approximately 50% of all those who subsequently develop metastatic disease and die. Stage II melanomas have a Breslow thickness greater than 1. 0 mm, with no clinical evidence of nodal, satellite or distant metastases.
Pathological staging requires evaluation of the regional node basin after lymphatic mapping and sentinel node biopsy (SNB), which is required for N categorization of all \>T1 melanomas. Compared to stage III disease, stage IIB and IIC have a worse prognosis than stage IIIA melanomas. Stage IIC even share the same poor prognosis as stage IIIB.
Global management guidelines highlight the importance of an initial diagnostic biopsy to confirm the diagnosis of melanoma and to pathologically stage the tumour. After the diagnosis and Breslow thickness and other features have been established by histological assessment of the initial excision biopsy, the definitive management of primary cutaneous melanoma consists of surgical excision with a safety margin of surrounding skin and subcutaneous tissue. Sentinel lymph node biopsy (SNB) should be considered for melanomas ≥ 1 mm thickness (≥ 0.
8 mm if ulcerated or other high-risk features) in which case lymphoscintigraphy must be performed just prior to wider excision of the primary melanoma site. Despite the equivalent risk, the current standard of care for stage IIB/C melanoma is observation only although this is expected to change given the results from recent studies investigating adjuvant drug therapy in this stage. Importantly, systemic adjuvant therapy is standard for stage IIIB/C/D disease.
Although patients with stage II disease contribute the largest population to melanoma-specific mortality, under the current treatment guidelines, these patients represent a population less likely to be treated in the adjuvant setting and have no representation in the neoadjuvant setting. Patients at low risk of recurrence with stage IIA disease (tumour \>2-4 mm in thickness without ulceration \[T3a\], or \>1 to 2 mm in thickness with ulceration \[T2b\]), have a high probability to be cured by surgery alone. However, the 5-year melanoma-specific survival (MSS) in stage IIA is 94%, which is comparable to the 93% of stage IIIB; patients with stage IIIA disease have a better prognosis than those with stage IIC disease.
Patients diagnosed with higher risk stage IIB/C disease have thicker melanomas \> 2. 0 mm with ulceration, and \> 4. 0 mm with or without ulceration, respectively.
These patients have an unmet clinical management need as there is no clear evidence for effective systemic adjuvant therapy to prevent disease recurrence once the primary tumour has been completely resected, which is the current standard of care for these patients. Approximately 15% to 20% of patients diagnosed with Stage IIB and 30% of patients diagnosed with Stage IIC melanoma will have a recurrence of their melanoma at 24 months. Within 5 years of surgical resection, approximately 25% of patients with Stage IIB disease and 40% of patients with Stage IIC disease will have disease recurrence.
Among patients with stage IIB and IIC melanoma local recurrence occurs in 19 and 11% respectively; 45 and 58% experience regional recurrence and 44 and 39% have distant recurrence. Patients who present with localized disease and primary tumours of less than 2. 0 mm with ulceration (T2b), or primary tumour of \>2.
0 to 4. 0 mm without ulceration (T3a) are categorised as having stage IIA melanoma. A subset of these patients have a high risk of recurrence and may benefit from adjuvant treatment.
Melanoma Institute Australia has developed a risk prediction tool which will be used to select this additional high-risk population (i. e. , those predicted to be at ≥ 20% recurrence at 5 years, melanomarisk.
org. au). The high-risk group is identified using the following variables: mitotic rate, (count) presence of ulceration (yes/no), Breslow thickness (mm), lymphovascular invasion (present vs.
absent), SNB status (negative vs not known), presence of tumour infiltrating lymphocytes (TILs), age (years), and sex (male vs. female). The concept of moving immunotherapies from a more advanced setting where their efficacy has been well established, into a setting of stage II disease is well supported by the documented safety and efficacy data of these agents in the adjuvant setting.
Introducing systemic treatment earlier in stage II disease is key to improving long term outcomes, but risk stratification is needed to identify those at most risk and manage the risk/benefit ratio given the potential immune-related toxicities. Neoadjuvant therapy (NAT) in melanoma (and several other solid tumours) is an area of active investigation with numerous completed and ongoing trials studying a variety of therapeutic interventions utilizing diverse designs. Neoadjuvant immunotherapy and targeted therapies results in a high recurrence-free survival rate (2-year RFS \>95%) for pathological responders in stage III melanoma.
Subsequent management can be personalised based on the neoadjuvant response to therapy and safely provides large amounts of tissue for analysis of resistance mechanisms from those who do not have a pathological response. The neoadjuvant platform also allows for the rapid testing of novel drug combinations informing decisions to proceed to phase III trials. Given the similar outcomes with stage III melanoma, the findings from Keynote-716, and the positive results from neoadjuvant immunotherapy trials in stage III disease, introducing neoadjuvant therapy for stage IIB/C melanoma is an opportunity to improve outcomes with 2 doses of treatment 4 weeks apart.
The pathological response to immunotherapy may aid the risk stratification and identification of which patients may benefit from adjuvant therapy. The pathological response to treatment is measured by the amount of residual, viable tumour tissue in the resected specimen. In accordance with the International Neoadjuvant Melanoma Consortium criteria, a complete pathological response (pCR) is demonstrated by the complete absence of residual viable tumour cells; a near pCR is \<10% of residual tumour; a partial pathological response (pPR) is 10%-50% residual tumour and no pathological response (pNR) is the presence of \>50% tumour cells.
Dual checkpoint inhibition with the distinct checkpoint inhibitors relatlimab and nivolumab results in enhanced T-cell effector function that is greater than the effects of either antibody alone in murine syngeneic tumour models. The ability of anti-LAG-3 to synergize with anti-PD-1 supports the utility of combined LAG-3 and PD-1 blockade. Anti-PD-1 has already demonstrated potent anti-tumour activity in multiple human malignancies, and it is envisaged that LAG-3, when co-administered with anti-PD-1, will enhance the anti-tumour responses and potentially broaden the spectrum of tumours responsive to anti-PD-1 treatment with an acceptable safety profile.
High risk stage IIA and stage IIB/C resected melanoma represents a population of high unmet need due to the potential for locoregional, nodal or systemic recurrence, which dramatically impacts post-recurrence survival, especially in the case of systemic recurrences. Patients with stage IIB/IIC disease have a thick or ulcerated primary melanoma, with a 10-year overall survival (OS) of 82% and 75%, respectively, similar to that seen in stage IIIA and IIIB melanoma (88% and 77% respectively). In Australia, the current recommended standard of care for patients diagnosed with AJCC (8th edition) Stage IIB/C melanoma is observation.
The robust clinical activity demonstrated by nivolumab and relatlimab in patients with stage III and advanced melanoma, the manageable safety profile, and the lack of standard of care for patients who are at high risk for recurrence after a complete surgical resection of select stage IIA and stage IIB/IIC melanoma supports the further development of this drug combination in this population of patients. Based upon the improvements seen in PFS with the addition of relatlimab to nivolumab in RELATIVITY 047 and major pathological responses in neoadjuvant treatment of stage III melanoma, this study will investigate the pathological response to 2 doses of this novel combination immunotherapy (on days 1 and 294) in patients with AJCC stage IIB and IIC melanoma (i. e.
stage II based on biopsy of the primary melanoma and a clinically negative \[CT and ultrasound scan assessed\] regional lymph node basin(s)). Melanoma Institute Australia's risk prediction tool will be used to select an additional high risk population from those with AJCC stage IIA melanoma in need of adjuvant treatment (i. e.
, those predicted to be at ≥ 20% recurrence at 5 years (melanomarisk. org. au).
Neoadjuvant treatment will be followed by sentinel lymph node biopsy and complete surgical excision of the primary lesion at 6 weeks. Patients who have a pCR or near-pCR will undergo surveillance only. Remaining patients will receive adjuvant treatment with relatlimab 160 mg and nivolumab 480 mg every 4 weeks for 11 cycles (for an overall total of 13 cycles).
Translational studies will be performed on tissue, blood and stool samples collected at baseline and at week 6 to identify potential predictors or response to drug and identification of potential biomarkers of recurrence. Data on the mechanisms of resistance to systemic therapies using tumour and liquid biopsy samples may lead to innovative treatment strategies to prevent resistance and improve outcomes in both the adjuvant and metastatic settings. Patients will be followed up for recurrence and survival for 10 years.
Eligibility criteria
Researchers look for people who fit a certain description, called eligibility criteria. See if you qualify.
Inclusion criteria
Exclusion criteria
Eligibility
Age eligible for study : 18 and older
Healthy volunteers accepted : No
Gender eligible for study: All
Things to know
Study dates
Study start: 2023-08-14
Primary completion: 2024-12-01
Study completion finish: 2034-12-01
Study type
TREATMENT
Phase
PHASE2
Trial ID
NCT05418972
Intervention or treatment
DRUG: Relatlimab and nivolumab fixed dose combination (FDC)
Conditions
- • Stage II Melanoma
Find a site
Closest Location:
Melanoma Institute Australia
Research sites nearby
Select from list below to view details:
Melanoma Institute Australia
Wollstonecraft, New South Wales, Australia
Study Plan
This section provides details of the study plan, including how the study is designed and what the study is measuring.
How is the study designed?
Participant Group/Arm | Intervention/Treatment |
---|---|
EXPERIMENTAL: Neoadjuvant immunotherapy +/- Adjuvant immunotherapy
| DRUG: Relatlimab and nivolumab fixed dose combination (FDC)
|
What is the study measuring?
Primary outcome
Primary Outcome Measure | Primary Outcome Description | Primary Outcome Time Frame |
---|---|---|
Pathological response rate | The primary endpoint is the pathological response rate at surgery (between days 43 and 56) from the first dose of neoadjuvant study treatment. The pathological response is categorised thus: * Complete pathological response (pCR) - 0% viable tumour cells in the surgical specimen * Near complete pathological response - (near pCR) - \<10% viable tumour * Partial pathological response (pPR) - 10%-50% viable tumour * No pathological response (pNR) - \>50% viable tumour The proportion of participants with a pCR, or near pCR will determine the pathological response rate. | Week 6 |
Feasibility of recruitment | 1. Proportion of patients enrolled in the study from the population of patients presenting to the clinic with new stage II disease. 2. The proportion of stage II patients with residual disease following diagnostic biopsy. 3. Proportion of eligible patients who consent to the study. 4. The number of patients recruited per month compared to the expected 20 patients over 24 months or 0.84 per month. | 2 years |
Secondary outcome
Secondary Outcome Measure | Secondary Outcome Description | Secondary Outcome Time Frame |
---|---|---|
The positive sentinel node biopsy rate at surgery at week 6 | 1. The proportion of patients undergoing a sentinel node biopsy who have a positive result in the lymph node. 2. The number of sentinel nodes identified and the number harvested. 3. The proportion of patients with a positive sentinel node biopsy who undergo complete lymph node dissection. | Week 6 |
The melanoma-related event-free survival (EFS). | The proportion of patients with the earliest EFS outcome of: 1. Melanoma progression, from the initiation of study treatment prior to planned surgery (leading to unresectable stage III or stage IV disease). 2. Melanoma recurrence, from the date of surgery (local, regional or distant). 3. Study treatment-related death from the initiation of study treatment. 4. Melanoma-related death, from the initiation of study treatment. | 10 years |
Recurrence-free survival | The proportion of patients with an histologically confirmed diagnosis of disease recurrence (local, regional, and distant), as detected by the patient, on physical examination or during imaging surveillance, or death from any cause. | From surgery to 10 years |
Overall survival | The proportion of participants deceased from any cause. | 10 years |
Safety and tolerability of neoadjuvant and adjuvant treatment and surgical procedures. | The proportion of patients with adverse events as described in CTCAE version 5.0 | 100 days from last dose of study treatment |
Recurrence in the biopsied lymph node basin | Incidence of recurrence in the biopsied lymph node basin | 1 year from surgery |
Patient reported quality of life | The individual, summary and composite scores obtained from the validated EUROQOL QLQ-C30, EQ-5D, FACT-M and MCQ-28 questionnaires. | 1 year |
Biomarker analyses | Identification of predictive or prognostic biomarkers from tumour and blood analyses at baseline, surgery and at recurrence, and correlated with pathological and clinical response and toxicity. | 10 years |
Microbiome analyses | From serial faecal samples and a baseline urine sample (testing gut permeability) 1. Correlation of bacterial diversity and abundance with treatment response and incidence of treatment-related toxicities. 2. Correlation of self-reported dietary habits (including use of oral probiotics) at baseline and impact on bacterial diversity in the gut. 3. The use of antibiotics during neoadjuvant treatment and the impact on intestinal bacterial diversity and abundance. 4. Correlation of gastrointestinal mucosal integrity with bacterial composition in stool samples and immune related adverse events and response. | 10 years |
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