Summary

Introduction: Non-surgical standard of care (SOC) for locally advanced head and neck squamous cell carcinoma (LA HNSCC) patients is chemoradiation with cisplatin/cetuximab. Elderly patients, and those with poor performance status, comorbidities, and/or intolerance, may not benefit from current SOC, representing a high unmet need. NBTXR3, a novel radioenhancer composed of functionalized hafnium oxide nanoparticles, is activated by radiotherapy (RT). NBTXR3 increases RT energy deposit in tumor cells and subsequent tumor cell death, while sparing healthy tissues compared to RT alone. NBTXR3 subsequently primes an adaptive immune response.

Objectives: The phase I dose expansion study aims to evaluate safety and efficacy of NBTXR3 + RT in patients with stage III–IVA or T3/T4 (TNM-8) HNSCC of the oropharynx or oral cavity, ineligible to cisplatin or cetuximab and amenable for RT.

Methods: Patients received a single intratumoral injection of NBTXR3 + RT (70 Gy, 35 fractions/7 weeks). A 3 + 3 dose escalation design tested four NBTXR3 doses: 5, 10, 15, and 22% of baseline theoretical tumor volume; and established RP2D as 22%. Primary endpoints of the dose expansion part are objective response rate (ORR) and complete response rate (CRR) of the primary tumor (RECIST 1.1).

Results and Conclusion: As of March 26, 2021, 52 patients were treated in the dose expansion part. Median age and tumor volume were 71.6 years and 60.6 mL respectively. ORR of the primary lesion was 82.5% and CRR was 62.5% (N = 40) at a median of 8.1 months after NBTXR3 injection. RT-related toxicity was as expected. Six patients experienced at least one G3–4 serious adverse event (AE) related to injection procedure and/or NBTXR3 (< 1% of all AEs). Four deaths related to RT were observed, also one death from sepsis possibly related to NBTXR3, RT, and cancer disease was reported. NBTXR3 + RT showed promising efficacy, supporting further evaluation in a phase III randomized trial.

Summary

Purpose/Objective(s): Immune checkpoint inhibitors (ICIs) have led to improved treatment outcomes in a variety of cancers; however, the majority of patients exhibit resistance to ICIs. Overcoming this resistance is a major challenge in immune-oncology. Radiation therapy (RT) has emerged as a promising combination with ICIs since it may act synergistically with ICIs by producing an immunomodulatory effect. NBTXR3, composed of functionalized hafnium oxide nanoparticles, is injected intratumorally and activated by RT. NBTXR3 increases RT energy deposit inside tumor cells and subsequent tumor cell death, without adding toxicity to healthy tissues. Preclinical data demonstrate NBTXR3/RT can trigger a local and systemic anti-tumor immune response and overcome anti-PD-1 resistance. NBTXR3/RT combined with anti-PD-1 may prime the immune system to increase the proportion of ICI responders or convert ICI non-responders to responders.

Materials/Methods: This multicenter, open-label, phase I trial [NCT03589339] is evaluating NBTXR3/RT/anti-PD-1 in 3 cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to HN re-irradiation and (2) lung or (3) liver metastases from any primary cancer eligible for anti-PD-1. Stereotactic body RT (SBRT) is delivered at tumor-site selective doses per standard practice. The primary objective is to determine the NBTXR3/RT/anti-PD-1 recommended phase 2 dose in each cohort. Secondary objectives are anti-tumor response (objective response rate), safety, and feasibility of NBTXR3 injection.

Results: Nine patients have been treated: 3 HNSCC, 4 lung, 2 liver. Overall tumor regression was observed in 8/9 patients of which 7 were anti-PD-1 non-responders. A complete response lasting over 1 year was observed in the injected lymph node in 1 anti-PD-1 naïve patient. 2 SAEs related to anti-PD-1 and possibly related to NBTXR3 (G5 pneumonitis, G4 hyperglycemia) were observed in 1 anti-PD-1 naïve HNSCC patient and considered DLTs. This patient also experienced 2 other G4 SAEs related to anti-PD-1 (diabetic ketoacidosis, acute kidney injury). SBRT-related safety profile was as expected. Updated safety and efficacy results with additional patients and longer follow-up will be presented.

Conclusion: Safety data from this first-in-human phase I trial evaluating NBTXR3/RT/anti-PD-1 in patients with advanced cancers, show NBTXR3 intratumoral injection is feasible and well-tolerated in HNSCC, lung, and liver. NBTXR3/RT/anti-PD-1 demonstrated promising signs of efficacy and led to tumor regression in patients having progressed on prior anti-PD-1. These data support further development of NBTXR3 in combination with anti-PD-1 as well as other ICIs.

Summary

Background: The non-surgical standard of care (SOC) for the treatment of locally advanced head and neck squamous cell carcinoma (LA HNSCC) patients is concurrent chemoradiation with high dose cisplatin or cetuximab in case of contra-indication to cisplatin. However elderly patients, and those with poor performance status, comorbidities, and/or intolerance, may not benefit from these SOC treatments and represent a high unmet need. New approaches are thus needed to improve clinical outcomes without adding toxicity. NBTXR3, a novel radioenhancer, composed of functionalized hafnium oxide nanoparticles, is injected once intratumorally and activated by radiotherapy (RT).NBTXR3 increases the RT energy deposit inside tumor cells and subsequently increases tumor cell death compared to RT alone, while sparing healthy tissues. We present here the results of the dose expansion part of the phase I study evaluating NBTXR3 plus intensity modulated radiation therapy (IMRT) in this population.

Methods: Patients with stage III-IVA or T3/T4 (AJCC/UICC TNM staging system 8th ed.) HNSCC of the oropharynx or oral cavity, ineligible to cisplatin or cetuximab and amenable for RT, received a single intratumoral injection of NBTXR3 and IMRT (70 Gy in 35 fractions /7 weeks). A classical 3 + 3 dose escalation design has tested four doses of NBTXR3, equivalent to 5, 10, 15, and 22% of baseline theoretical tumor volume. The RP2D established as 22% of baseline tumor volume is further tested in the dose expansion part. The primary endpoints of the dose expansion part are objective response rate (ORR) and complete response rate (CRR) of the primary tumor, by imaging according to RECIST 1.1. Safety is also evaluated.

Results: As of August 13, 2020, 43 patients have been treated in the phase I dose expansion part. The median age was 70.7 years old (range: 50.7- 89.9), 70% of patients had cardiac disorder risk, 44% had gastrointestinal disorder risk and 44% metabolic and nutrition disorder risk. The median tumor volume was 42.8 mL (range: 1.3 – 222.3). At a median time of 7.8 months after NBTXR3 injection, the ORR of the primary lesion was 83.9% and the CRR 67.7% in the evaluable population for efficacy (N = 31). Three patients (7%) experienced at least one serious adverse event (AE) related to the injection procedure and/or NBTXR3 which represented less than 1% of all reported AEs. RT-related toxicity was as expected with IMRT. Three deaths due to AEs related to RT and other causes were reported. The recruitment is ongoing and updated efficacy and safety results will be presented.

Conclusions: NBTXR3 intratumoral administration followed by IMRT may represent an option in elderly patients or patients with multiple comorbidities with LA-HNSCC who have limited therapeutic options. NBTXR3 activated by RT showed promising anti-tumor efficacy, supporting further evaluation in a phase III randomized trial. Clinical trial information: NCT01946867.

Summary

Purpose/Objective(s): Immune checkpoint inhibitors (ICIs) have led to improved treatment outcomes in a variety of cancers; however, the majority of patients exhibit resistance to ICIs. Overcoming this resistance is a major challenge in immune-oncology. Radiation therapy (RT) has emerged as a promising combination with ICIs since it may act synergistically with ICIs by producing an immunomodulatory effect. NBTXR3, composed of functionalized hafnium oxide nanoparticles, is injected intratumorally and activated by RT. NBTXR3 increases RT energy deposit inside tumor cells and subsequent tumor cell death, without adding toxicity to healthy tissues. Preclinical data demonstrate NBTXR3/RT can trigger a local and systemic anti-tumor immune response and overcome anti-PD-1 resistance. NBTXR3/RT combined with anti-PD-1 may prime the immune system to increase the proportion of ICI responders or convert ICI non-responders to responders.

Materials/Methods: This multicenter, open-label, phase I trial [NCT03589339] is evaluating NBTXR3/RT/anti-PD-1 in 3 cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to HN re-irradiation and (2) lung or (3) liver metastases from any primary cancer eligible for anti-PD-1. Stereotactic body RT (SBRT) is delivered at tumor-site selective doses per standard practice. The primary objective is to determine the NBTXR3/RT/anti-PD-1 recommended phase 2 dose in each cohort. Secondary objectives are anti-tumor response (objective response rate), safety, and feasibility of NBTXR3 injection.

Results: Nine patients have been treated: 3 HNSCC, 4 lung, 2 liver. Overall tumor regression was observed in 8/9 patients of which 7 were anti-PD-1 non-responders. A complete response lasting over 1 year was observed in the injected lymph node in 1 anti-PD-1 naïve patient. 2 SAEs related to anti-PD-1 and possibly related to NBTXR3 (G5 pneumonitis, G4 hyperglycemia) were observed in 1 anti-PD-1 naïve HNSCC patient and considered DLTs. This patient also experienced 2 other G4 SAEs related to anti-PD-1 (diabetic ketoacidosis, acute kidney injury). SBRT-related safety profile was as expected. Updated safety and efficacy results with additional patients and longer follow-up will be presented.

Conclusion: Safety data from this first-in-human phase I trial evaluating NBTXR3/RT/anti-PD-1 in patients with advanced cancers, show NBTXR3 intratumoral injection is feasible and well-tolerated in HNSCC, lung, and liver. NBTXR3/RT/anti-PD-1 demonstrated promising signs of efficacy and led to tumor regression in patients having progressed on prior anti-PD-1. These data support further development of NBTXR3 in combination with anti-PD-1 as well as other ICIs.

Summary

Purpose/Objective(s): Concurrent radiotherapy (RT) with high-dose cisplatin, or cetuximab in case of intolerance to cisplatin, are the non-surgical standard treatment for locally advanced head and neck squamous cell carcinoma (LA HNSCC). However, elderly patients, patients with poor performance status, comorbidities, and/or intolerance may not benefit from these treatments and represent a high unmet medical need. New approaches are thus needed to improve the patient clinical outcomes without adding toxicity. NBTXR3, composed of functionalized hafnium oxide nanoparticles, is injected once intratumorally and activated by RT. NBTXR3 increases the RT energy deposit inside tumor cells and subsequently increases tumor cell death compared to RT alone, without adding toxicity to healthy tissues. We present here current results of the dose expansion part of the phase I study evaluating NBTXR3 plus intensity modulated radiation therapy (IMRT) in this population (ClinicalTrials.gov: NCT01946867).

Materials/Methods: Patients with stage III-VA or T3/T4 (AJCC/UICC TNM staging system 8th ed.) HNSCC of the oropharynx or oral cavity, ineligible to cisplatin or cetuximab and amenable for RT, received a single intratumoral injection of NBTXR3 and IMRT (70 Gy in 35 fractions /7 weeks). A classical 3 + 3 dose escalation design has tested four doses of NBTXR3, equivalent to 5, 10, 15, and 22% of baseline theoretical tumor volume. The RP2D established as 22% of baseline tumor volume is further tested in the dose expansion part of the study. The primary endpoints of the dose expansion part are objective response rate (ORR) and complete response rate (CRR) of the primary tumor, by imaging according to RECIST v1.1. Safety is also evaluated.

Results: As of August 13, 2020, 43 patients have been treated in the dose expansion part of the study. The median age was 70.7 years old (range: 50.7-89.9), 70% of patients had cardiac disorder risk, 44% had gastrointestinal disorder risk and 44% metabolic and nutrition disorder risk. The median tumor volume was 42.8 mL (range: 1.3-222.3). In the evaluable population for efficacy (N = 31), the ORR of the primary lesion was 83.9% and the CRR 67.7% at a median time of 7.8 months after NBTXR3 injection. Three patients (7%) experienced at least one serious adverse event (AE) related to the injection procedure and/or NBTXR3 which represented less than 1% of all reported AEs. RT-related toxicity was as expected with IMRT. Three deaths due to AEs related to RT and other causes were reported. The recruitment is ongoing and updated efficacy and safety results will be presented.

Conclusion: NBTXR3 intratumoral administration followed by IMRT may represent an option in elderly in elderly patients or patients with multiple comorbidities with LA-HNSCC who have limited therapeutic options. NBTXR3 activated by RT showed promising anti-tumor efficacy, supporting further evaluation in a phase III randomized trial.

Summary

Introduction: Immune checkpoint inhibitors (ICIs) have improved treatment outcomes in a variety of cancers; however the majority of patients (pts) exhibit resistance. Emerging evidence suggests radiation therapy (RT) can enhance response to ICIs by producing an immunomodulatory effect. NBTXR3, composed of functionalized hafnium oxide nanoparticles, is injected intratumorally and activated by RT. NBTXR3 increases RT energy deposition inside tumor cells and subsequent tumor cell death, without adding toxicity to healthy tissues. Preclinical data demonstrate NBTXR3/RT can trigger a local and systemic anti-tumor immune response and overcome anti-PD-1 resistance. NBTXR3/RT combined with anti-PD-1 may prime the immune system to increase the proportion of ICI responders or convert ICI non-responders to responders.

Materials and Methods: A multicenter, open-label, phase I trial [NCT03589339] evaluating NBTXR3/SBRT/anti-PD-1 (nivolumab or pembrolizumab) in 3 cohorts (1) Locoregional recurrent or recurrent and metastatic HNSCC amenable to HN re-irradiation, (2) lung or (3) liver metastases from any primary cancer eligible for anti-PD-1. Stereotactic body RT (SBRT) is delivered at tumor-site specific doses per standard practice. Primary objective is to determine the NBTXR3/SBRT/anti-PD-1 recommended phase 2 dose in each cohort. Secondary objectives are anti-tumor response (objective response rate), safety, and feasibility of NBTXR3 injection.

Results: Nine pts have been treated, 3 HNSCC, 4 lung and 2 liver. HNSCC was the primary cancer in 2 pts in the lung and 1 pt in the liver cohort. 7/9 pts were anti-PD-1 non-responders. Overall tumor regression was observed in 8/9 pts. NBTXR3/SBRT/anti-PD-1 resulted in tumor regression in 6/7 pts who had progressed on prior anti-PD-1. One anti-PD-1 naïve HNSCC pt achieved a complete response lasting over a year in the injected lymph node. 2 SAEs related to anti-PD-1 and possibly related to NBTXR3 (G5 pneumonitis, G4 hyperglycemia) were observed in 1 anti-PD-1 naïve HNSCC pt and considered DLTs. This pt also experienced 2 other SAEs (G4 diabetic ketoacidosis, G4 acute kidney injury) related to anti-PD-1. SBRT-related safety profile was as expected.

Conclusions: Safety data from this first-in-human phase I trial evaluating NBTXR3/SBRT/anti-PD-1 in pts with advanced cancers show NBTXR3 intratumoral injection is feasible and well-tolerated in HNSCC, lung, and liver metastases. NBTXR3/SBRT/anti-PD-1 demonstrated promising signs of efficacy and led to tumor regression in pts having progressed on prior anti-PD-1. These data support further development of NBTXR3/SBRT in combination with anti-PD-1 as well as other ICIs.

Summary

Purpose or Objective: Concurrent radiotherapy (RT) with high-dose cisplatin, or cetuximab in case of intolerance to cisplatin, are the non-surgical standard treatment for locally advanced head and neck squamous cell carcinoma (LA HNSCC). However, elderly patients, patients with poor performance status, comorbidities, and/or intolerance may not benefit from these treatments and represent a high unmet medical need. New approaches are thus needed to improve patient clinical outcomes without adding toxicity. NBTXR3, composed of functionalized hafnium oxide nanoparticles, is injected intratumorally and activated by RT. NBTXR3 increases the RT energy deposit inside tumor cells and subsequently increases tumor cell death compared to RT alone, without adding toxicity to healthy tissues. Here we present current results of the dose expansion part of the phase I study evaluating NBTXR3 plus intensity modulated radiation therapy (IMRT) in this population.

Materials and Methods: Patients with stage III-VA or T3/T4 (AJCC/UICC TNM staging system 8th ed.) HNSCC of the oropharynx or oral cavity, ineligible to cisplatin or cetuximab and amenable for RT, received a single intratumoral injection of NBTXR3 and IMRT (70 Gy in 35 fractions /7 weeks) [ NCT01946867]. A classical 3 + 3 dose escalation design has tested four doses of NBTXR3, equivalent to 5, 10, 15, and 22% of baseline theoretical tumor volume. The RP2D established as 22% of baseline tumor volume is further tested in the dose expansion part of the study. The primary endpoints of the dose expansion part are objective response rate (ORR) and complete response rate (CRR) of the primary tumor, by imaging according to RECIST v1.1. Safety is also evaluated.

Results: As of August 13, 2020, 43 patients have been treated in the dose expansion part of the study. The median age was 70.7 years old (range: 50.7- 89.9), 70% of patients had cardiac disorder risk, 44% had gastrointestinal disorder risk and 44% metabolic and nutrition disorder risk. The median tumor volume was 42.8 mL (range: 1.3 – 222.3). In the evaluable population for efficacy (N=31), the ORR of the primary lesion was 83.9% and the CRR 67.7% at a median time of 7.8 months after NBTXR3 injection. Three patients (7%) experienced at least one serious adverse event (AE) related to the injection procedure and/or NBTXR3 which represented less than 1% of all reported AEs. RT-related toxicity was as expected with IMRT. Three deaths due to AEs related to RT and other causes were reported. Recruitment is ongoing and updated efficacy and safety results will be presented.

Conclusion: NBTXR3 intratumoral administration followed by IMRT may represent an option in elderly in elderly patients or patients with multiple comorbidities with LA-HNSCC who have limited therapeutic options. NBTXR3 activated by RT showed promising anti-tumor efficacy, supporting further evaluation in a phase III randomized trial.

Summary

Introduction: The non-surgical standard of care (SOC) for the treatment of locally advanced head and neck squamous cell carcinoma(LA HNSCC) is concurrent chemoradiation with high dose cisplatin or cetuximab in case of contra-indication to cisplatin. However elderly patients, and those with poor performance status, comorbidities, and/or intolerance, may not benefit from these SOC treatments and represent a high unmet need. New approaches are thus needed to improve clinical outcomes without adding toxicity. NBTXR3, a novel radioenhancer, composed of functionalized hafnium oxide nanoparticles, is injected once intratumorally and activated by radiotherapy(RT). NBTXR3 increases the RT energy deposit inside tumor cells and subsequently increases tumor cell death, while sparing healthy tissues compared to RT alone. In addition NBTXR3 subsequently primes an adaptive immune response. Results of the phase I dose expansion study are presented.

Materials and Methods: Patients with stage III-IVA or T3/T4 (AJCC/UICC TNM staging system 8th ed.) HNSCC of the oropharynx or oral cavity, ineligible to cisplatin or cetuximab and amenable for RT, received a single intratumoral injection of NBTXR3 and IMRT (70 Gy in35 fractions /7 weeks). A 3 + 3 dose escalation design tested four doses of NBTXR3, equivalent to 5, 10, 15, and 22% of baseline theoretical tumor volume. The RP2D established as 22% is further tested in the dose expansion part. The primary endpoints of the dose expansion part are objective response rate (ORR) and complete response rate(CRR) of the primary tumor, according to RECIST 1.1. Safety is also evaluated.

Results: As of March 26, 2021, 52 patients have been treated in the phase I dose expansion part. The median age was 71.6 years old (range:44.5–89.9). The median tumor volume was 60.6 mL (range: 2.5–259.4). At a median time of 8.1 months after NBTXR3 injection, the ORR of the primary lesion was 82.5% and the CRR 62.5% in the evaluable population for efficacy (N = 40). RT-related toxicity was as expected with IMRT. Six patients (11.5%) experienced at least 1 G3-4serious adverse event (AE) related to the injection procedure and/orNBTXR3 which represented less than 1% of all reported AEs. Four deaths related to RT were observed. Also,1 death from sepsis possibly related to NBTXR3, RT, and cancer disease was reported. Recruitment is ongoing.

Conclusions: NBTXR3 intratumoral administration followed by IMRT may represent an option in elderly patients or patients with multiple comorbidities with LA-HNSCC who have limited therapeutic options. NBTXR3 activated by RT showed promising anti-tumor efficacy, supporting further evaluation in a phase III randomized trial.

Summary

Purpose/Objective: Elderly and frail patients (pts) with head and neck squamous cell carcinoma (HSNCC) remain a challenging population to manage due to the lack of evidence-based recommendations. Despite representing approximately 20% of the HNSCC population no consensus exists on the optimal treatment for these pts with locally advanced (LA) disease, vulnerable to current standard of care treatment-induced toxicities. New approaches are thus needed to improve clinical outcomes without adding toxicity. NBTXR3 hafnium oxide nanoparticles injected intratumorally may represent such an option. Otherwise inert, this first-in-class radioenhancer augments the radiotherapy (RT) dose within tumor cells when activated by RT, increasing tumor cell death compared to RT alone. The results presented here demonstrate the feasibility and safety of NBTXR3 activated by RT in elderly patients, a population with few therapeutic options.

Material/Methods: Patients with Stage III-IV LA HNSCC of the oropharynx or oral cavity ineligible for platinum-based chemoradiation received a single intratumoral injection of NBTXR3 and intensity modulated radiation therapy (IMRT; 70 Gy/35 fractions/7 weeks). This is a 3+3 design dose escalation study to test NBTXR3 dose levels equivalent to 5, 10, 15, and 22% of baseline theoretical tumor volume, followed by a dose expansion. Primary endpoints include Recommended Phase 2 Dose (RP2D) determination and early dose limiting toxicities (DLT). NBTXR3 presence in surrounding healthy tissues and anti-tumor activity (RECIST 1.1) were also evaluated.

Results: Enrollment was completed at all dose levels: 5% (3 pts), 10% (3 pts), 15% (5 pts), and 22% (8 pts). No early DLT or SAE related to NBTXR3 or injection were observed. One G1 AE (asthenia; 22%) related to NBTXR3 and four AEs (G2 oral pain, G1 tumor hemorrhage, asthenia, and injection site hemorrhage) related to injection were observed. RT-related toxicity was as expected with IMRT. The RP2D was determined to be 22% by the DSMB. CT-scan assessment demonstrated localization of NBTXR3 intratumorally without presence in surrounding healthy tissues. At a median follow-up of 231 days, 9/13 (2 unconfirmed) evaluable pts receiving doses ≥10%, achieved a complete response of the treated tumors. The final dose escalation safety and efficacy results will be presented herein.

Conclusion: NBTXR3 was well tolerated at all tested doses and demonstrated preliminary anti-tumor activity. The dose expansion part at the RP2D is ongoing. These results highlight the potential of NBTXR3 as a novel treatment option for elderly pts with LA HNSCC and address an unmet medical need.

Summary

Background: Despite the past decade of transformative advances in immuno-oncology, the response rate to checkpoint inhibitors (ICIs) remains low (~15%). There is significant interest in developing strategies to overcome resistance to these treatments, thus increasing response rate. Emerging evidence suggests that radiation therapy (RT) could potentially augment the antitumor response to ICIs through synergic effect. However, RT dose and ultimate efficacy are limited by toxicity related to exposure of healthy tissues. NBTXR3 is a first-in-class radioenhancer administered by direct intratumoral injection, designed at the nanoscale to increase RT dose deposition within tumor cells and RT-dependent tumor cell killing, without increasing surrounding normal tissue toxicity. Preclinical and early clinical data suggest NBTXR3 activated by RT can trigger an anti-tumor immune response, producing both local and systemic (abscopal) effects. We hypothesize that NBTXR3 activated by RT, in combination with anti-PD-1 therapy (R3/RT/PD-1), will act synergistically to maximize the local RT effect and produce a systemic response sufficient to increase the proportion of ICI responders or convert ICI non-responders to responders.

Method: This trial [NCT03589339] is a multicenter, open-label, phase I study to evaluate safety and tolerability of R3/RT/PD-1 in three cohorts: (1) Locoregional recurrent or recurrent and metastatic head and neck squamous cell carcinoma (HNSCC) amenable to re-irradiation of the HN field, (2) Lung metastases, or (3) Liver metastases, both from any primary cancer eligible for anti-PD-1 treatment. Approximately two-thirds of patients in each cohort will be anti-PD-1 non-responders. NBTXR3 injected volume is based on a percentage of gross tumor volume (GTV). The primary objective is to determine the R3/RT/PD-1 recommended phase 2 dose in each cohort. Secondary objectives are to evaluate anti-tumor response (objective response rate; ORR), safety and feasibility of NBTXR3 injection, and NBTXR3 body kinetic profile. Exploratory objectives will assess biomarkers of R3/RT/PD-1 response, including PD-L1 status by IHC, as well as mRNA and cytokine immune marker profiling. To date, three patients have been treated, one in cohort 1, two in cohort 2.