Summary

Purpose/Objective(s): NBTXR3, a novel radioenhancer activated by radiotherapy (RT) demonstrated superior efficacy, as preoperative treatment in patients with locally advanced soft tissue sarcoma (LA STS) compared to RT alone. Primary endpoint of pCR rate (16% vs 8%; P = 0.044) and main secondary endpoint of R0 margin rate (16% vs 8%; P = 0.042) were met while no modification of the early RT-associated safety profile was observed, leading to market authorization. Here we report on the long-term safety, limb function and quality of life.

Materials/Methods: This phase II/III randomized (1:1), international trial included adult patients with LA STS of the extremity or trunk wall, requiring preoperative RT. Patients received either a single intratumoral injection of NBTXR3 (equivalent to 10% of tumor volume, at 53.3g/L), plus EBRT (arm A) or EBRT alone (arm B) (50 Gy in 25 fractions), followed by surgery. Here we report on safety of NBTXR3+RT which was evaluated as secondary endpoint. Data were recorded on the “all treated population” during at least a two-year follow-up. Important parameters related to HR-QoL including functional outcome were studied using the EQ-5D, RNLI, TESS and MSTS questionnaires.

Results: Patients had at least two-year follow-up and the lost to follow-up rate was very low (1.9%). RT-related SAEs were observed in 11.2% (10/89) vs 13.3% (12/90) in A vs B. Post-treatment AEs, any grade, were observed in 51.7% (46/89) vs 57.8% (52/90) and serious post-treatment AEs in 13.5% (12/89) vs 24.4% (22/90) of patients in A vs B. Long-term safety continues to demonstrate that NBTXR3 plus RT has no impact on post-surgical wound complications (24.7% vs 36.7%, A vs B). Furthermore, the evaluation of radiation late toxicities in limbs such as fibrosis, arthrosis and edema that may alter limb function showed no difference between arms (4.5% vs 7.7%, 2.2% vs 0.0% and 6.7% vs 2.2% respectively in A vs B). In addition, sequelae or chronic tissue disturbances at the former tumor localization were similar in both treatment arms, confirming that the increase of energy dose deposit and the physical presence of NBTXR3 did not impact post-treatment limb functions. Accordingly, HR-QoL evaluation yielded no difference in functional outcome. Finally, second primary cancer was observed in 1 patient in arm A and 6 patients in arm B and the intratumoral injection of NBTXR3 did not induce cancer cell seeding at the former tumor site.

Conclusion: These results demonstrate that the use of NBTXR3 did not change the late onset toxicity profile of EBRT, nor modified its bystander effect. Taken together, the long-term safety data presented here, and the previously published efficacy data reinforce the favorable benefit-risk ratio of the use of NBTXR3 in patients with LA STS. NCT02379845

Summary

Purpose/Objective(s): Immune checkpoint inhibitors (ICI) can improve outcomes in patients who respond to treatment, however most patients exhibit resistance. Overcoming this resistance is the main challenge in immune-oncology and recent studies suggest radiotherapy (RT) may improve ICI response rates. 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. Here we present evidence that NBTXR3 activated by RT primes the immune system, producing an anti-tumor immune response, including activation of the cGAS-STING pathway, that overcomes anti-PD-1 resistance both in murine models and patients.

/Methods: Abscopal assays were conducted in immunocompetent mice. Anti-PD-1 sensitive or resistant lung tumor cell lines were injected in both flanks. Intratumoral injection of NBTXR3 (or vehicle) followed by RT was performed in right flank (primary) tumors only. Some mice also received anti-PD-1 injections. Tumor growth was monitored, and tumor immune cell infiltrates analyzed by immunohistochemistry (IHC). Separately, in the phase II/III randomized Act.in.Sarc [NCT02379845] trial patients with locally advanced soft tissue sarcoma (STS) received either NBTXR3+RT or RT alone followed by tumor resection. Pre- and post-treatment tumor samples from patients in both groups were analyzed by IHC and Digital Pathology for immune biomarkers. The safety and efficacy of NBTXR3 plus stereotactic body radiotherapy (SBRT) in combination with anti-PD-1 is being evaluated in three cohorts of patients with advanced cancers in the Phase I 1100 [NCT03589339] trial.

Results: Pre-clinical studies demonstrated that NBTXR3+RT induces an immune response not observed with RT alone and enhances systemic control. IHC showed significant increase of CD8+ T-cell infiltrates in both NBTXR3+RT treated and untreated tumors compared to RT alone. Increased CD8+ T-cell and decreased FOXP3+ Treg density (pre- vs post-treatment) was also observed in tumors from STS patients treated with NBTXR3+RT. Furthermore, NBTXR3+RT in combination with anti-PD-1 improved local and systemic control in mice bearing anti-PD-1 resistant lung tumors, produced long-term memory, and reduced spontaneous lung metastases. Preliminary efficacy data from the 1100 trial showed tumor regression in 8/9 patients. Of note, tumor regression was observed in 6/7 patients who had progressed on prior anti-PD-1.

Conclusion: The clinical efficacy of NBTXR3+RT has been demonstrated as a single agent in STS. Here we demonstrate that it overcomes resistance to anti-PD-1 treatment mechanisms in mice and led to tumor regression in patients having progressed on anti-PD-1 therapy. These results highlight the potential of NBTXR3+RT to positively impact the immuno-oncology field.

Summary

Purpose or Objective: NBTXR3, a novel radioenhancer activated by radiotherapy (RT) demonstrated superior efficacy, as preoperative treatment in patients with locally advanced soft tissue sarcoma (LA STS) compared to RT alone. Primary endpoint of pCR rate (16% vs 8%; p=0.044) and main secondary endpoint of R0 margin rate (16% vs 8%; p=0.042) were met (Bonvalot et al. Lancet Oncol. 2019) while no modification of the early RT-associated safety profile was observed, leading to market authorization. Here we report on the long-term safety, limb function and quality of life.

Materials and Methods: This phase II/III randomized (1:1), international trial included adult patients with LA STS of the extremity or trunk wall, requiring preoperative RT (NCT02379845). Patients received either a single intratumoral injection of NBTXR3 (equivalent to 10% of tumor volume, at 53.3g/L), plus EBRT (arm A) or EBRT alone (arm B) (50 Gy in 25 fractions), followed by surgery. Here we report on safety of NBTXR3+RT which was evaluated as secondary endpoint. Data were recorded on the “all treated population” during at least a two-year follow-up. Important parameters related to HR-QoL including functional outcome were studied using the EQ-5D, RNLI, TESS and MSTS questionnaires.

Results: Patients had at least two-year follow-up and the lost to follow-up rate was very low (1.9%). RT-related SAEs were observed in 11.2% (10/89) vs 13.3% (12/90) in A vs B. Post-treatment AEs, any grade, were observed in 51.7% (46/89) vs 57.8% (52/90) and serious post-treatment AEs in 13.5% (12/89) vs 24.4% (22/90) of patients in A vs B. Long-term safety continues to demonstrate that NBTXR3 plus RT has no impact on post-surgical wound complications (24.7% vs 36.7%, A vs B). Furthermore, the evaluation of radiation late toxicities in limbs such as fibrosis, arthrosis and edema that may alter limb function showed no difference between arms (4.5% vs 7.7%, 2.2% vs 0.0% and 6.7% vs 2.2% respectively in A vs B). In addition, sequelae or chronic tissue disturbances at the former tumor localization were similar in both treatment arms, confirming that the increase of energy dose deposit and the physical presence of NBTXR3 did not impact post-treatment limb functions. Accordingly, HR-QoL evaluation yielded no difference in functional outcome. Finally, second primary cancer was observed in 1 patient in arm A and 6 patients in arm B and the intratumoral injection of NBTXR3 did not induce cancer cell seeding at the former tumor site.

Conclusion: These results demonstrate that the use of NBTXR3 did not change the late onset toxicity profile of EBRT, nor modified its bystander effect. Taken together, the long-term safety data presented here, and the previously published efficacy data reinforce the favorable benefit-risk ratio of the use of NBTXR3 in patients with LA STS.

Summary

Background: NBTXR3, a novel radioenhancer activated by radiotherapy (RT) demonstrated superior efficacy, as preoperative treatment, in patients with locally advanced soft tissue sarcoma (LA STS), compared to RT alone. Primary endpoint of pCR rate was 16% vs 8% (p=0.044) and R0 margin rate was 77% vs 64% (p=0.042) (Bonvalot et al. Lancet Oncol. 2019). No modification of the early safety profile of RT was observed, leading to market authorization. Here we report on the long-term safety, limb function and quality of life.

Methods: This phase II/III randomized (1:1), international trial included adult patients with LA STS of the extremity or trunk wall, requiring preoperative RT (NCT02379845). Patients were treated with either a single intratumoral injection of NBTXR3 (volume equivalent to 10% of tumor volume, at 53.3g/L) plus EBRT (arm A), or EBRT alone (arm B) (50 Gy in 25 fractions), followed by surgery. The primary and main secondary efficacy endpoints were previously reported. Safety of NBTXR3+RT, as preoperative treatment, was evaluated as secondary endpoint. We present the safety analyses done in the “all treated population”, with data recorded during at least a two-year follow-up. Important parameters related to HR-QoL, including functional outcome were studied using the EQ-5D, RNLI, TESS and MSTS questionnaires.

Results: Patients had at least two-year follow-up and the lost to follow-up rate was very low (1.9%). RT-related SAEs were observed in 11.2% (10/89) vs 13.3% (12/90) in A vs B. Post-treatment AEs, any grade, were observed in 51.7% (46/89) vs 57.8% (52/90) and serious post-treatment AEs in 13.5% (12/89) vs 24.4% (22/90) of patients in A vs B. Second primary cancer was observed in 1 patient in arm A and 6 patients in arm B. Long-term safety continues to demonstrate that NBTXR3 plus RT has no impact on post-surgical wound complications (24.7% vs 36.7%, A vs B). Furthermore, the evaluation of radiation late toxicities in limbs such as fibrosis (4.5% vs 7.7%), arthrosis (2.2% vs 0.0%) and edema (6.7% vs 2.2%) that may alter limb function showed no difference between arms. Accordingly, HR-QoL evaluation yielded no difference in functional outcome. In addition, the intratumoral injection of NBTXR3 did not induce cancer cell seeding at the former tumor site. Finally, sequelae or chronic tissue disturbances at the former tumor localization were similar in both treatment arms, confirming that the increase of energy dose deposit and the physical presence of NBTXR3 did not impact post-treatment limb functions.

Conclusions: The long-term safety results demonstrate that the addition of NBTXR3 to EBRT neither added toxicity nor modified the bystander effect of RT. The results presented here associated with the efficacy data reported previously reinforce the favorable benefit-risk ratio of the use of NBTXR3 in patients with LA STS. Clinical trial information: NCT02379845.

Summary

Background: Locally advanced soft tissue sarcoma (STS) management may include neoadjuvant or adjuvant treatment by radiotherapy (RT), chemotherapy (CT) or chemoradiotherapy (CRT) followed by wide surgical excision. While pathological complete response (pCR) to preoperative treatment is prognostic for survival in osteosarcomas, its significance for STS is unclear. We aimed to evaluate the prognostic significance of pCR to pre-operative treatment on 3-year disease-free survival (3y-DFS) in STS patients.

Methods: This is an observational, retrospective, international, study of adult patients with primary non-metastatic STS of the extremities and trunk wall, any grade, diagnosed between 2008 and 2012, treated with at least neoadjuvant treatment and surgical resection and observed for a minimum of 3 years after diagnosis. The primary objective was to evaluate the effect of pCR. (≤5% viable tumor cells or ≥95% necrosis/fibrosis) on 3y-DFS. Effect on local recurrence-free survival (LRFS), distant recurrence-free survival (MFS) overall survival (OS) at 3 years was also analyzed. Statistical univariate analysis utilized chi-square independence test and odds ratio confidence interval (CI) estimate, multivariate analysis was performed using LASSO.

Results: A total of 330 patients (median age 56 years old, range:19–95) treated by preoperative RT (67%), CT (15%) or CRT (18%) followed by surgery were included. pCR was achieved in 74/330 (22%) of patients, of which 56/74 (76%) had received RT. 3-yr DFS was observed in 76% of patients with pCR vs 61% without pCR (p < 0.001). Multivariate analysis showed that pCR is statistically associated with better MFS (95% CI, 1.054–3.417; p = 0.033), LRFS (95% CI, 1.226–5.916; p = 0.014), DFS (95% CI, 1.165–4.040; p = 0.015) and OS at 3 years (95% CI, 1.072–5.210; p = 0.033).

Conclusions: In a wide, heterogeneous STS population we showed that pCR to preoperative treatment is prognostic for survival.

Summary

Purpose: First in class hafnium oxide nanoparticles (NBTXR3) activated by radiotherapy (RT) increase radiation dose deposit within cancer cells compared to RT alone. Given that RT can prime an anti-tumor immune response we hypothesized that this response could be enhanced by NBTXR3+RT in both animals and humans.

Method & Materials: Different abscopal assays in mice were conducted. Immunocompetent mice were injected in both flanks with murine tumor cells. Intratumoral injection of NBTXR3 (or vehicle) was performed in right flank tumors, followed by RT of right flank tumors only. Tumor growth was followed and immune cell infiltrates were analyzed by immunohistochemistry (IHC). Some mice received anti-PD-1 injections and tumor growth was monitored. Pts with locally advanced soft tissue sarcoma (STS) [NCT02379845] received either NBTXR3+RT or RT alone. Pts pre- and post-treatment tumor tissues were analyzed by IHC and Digital Pathology for immune biomarkers.

Results: Animal studies demonstrated that NBTXR3+RT induces an immune response which was not observed with RT alone. IHC showed significantly more CD8+ cells present in NBTXR3+RT treated and untreated tumors. Furthermore, NBTXR3+RT improved the effect of anti-PD-1. Similarly, increased CD8+ T cell infiltration pre- vs post-treatment was observed in tumor tissues from STS pts treated with NBTXR3+RT. An increase in biomarkers, including CD8, following NBTXR3+RT was also observed by IHC in tumor samples from STS pts compared to RT alone.

Conclusion: These results demonstrate that NBTXR3+RT induces a specific adaptive immune profile in both mice and STS pts. NBTXR3+RT also improved response to anti-PD-1 in mice, opening the potential for combination with immunotherapeutic agents in humans. We have therefore sought to investigate the safety and systemic effect of NBTXR3 activated by stereotactic ablative radiotherapy (SABR) in combination with anti-PD-1 in pts with locoregionally recurrent or metastatic (lung or liver) head and neck squamous cell carcinoma, as well as in metastatic non-small cell lung cancer and liver metastasis pts [NCT03589339].

Clinical Relevance & Application: The results of this study highlight the potential of NBTXR3 to be used in combination with immune checkpoint inhibitors in order to improve patient outcomes.

Summary

Objectives: A subset of locally advanced soft tissue sarcoma (STS) patients achieve significant therapeutic benefit from preoperative radiation therapy (RT) as shown by Pisters JCO 1996 and Yang JCO 2018. However, the impact of RT on pathological response (pR) and R0 resection is limited, highlighting the need for novel multimodal therapies aimed at local control. NBTXR3 (hafnium oxide nanoparticles), injected intratumorally may represent such an option. Otherwise inert, NBTXR3 augments the effective RT dose deposited within tumor cells when activated by ionizing radiation to increase cancer cell death compared to RT alone. We report here on the results of a phase II/III randomized clinical trial evaluating the preoperative efficacy and safety of NBTXR3 activated by RT in patients with locally advanced STS of the extremity and trunk wall [NCT02379845].

Methods: This is a multi-national phase II/III randomized, open-label clinical trial. Adults with locally advanced STS of the extremity or trunk wall, of any histologic grade, eligible for preoperative RT were randomly assigned 1:1 to receive NBTXR3 as a single intratumoral injection (volume corresponding to 10% of baseline tumor volume at 53.3g/L) followed by external beam RT (EBRT; 50 Gy as 25 fractions of 2 Gy, over 5 weeks) (arm A) or EBRT alone (arm B). Both arms had the chance to go on to receive post-RT surgical resection. The primary objective was to compare the proportion of patients with pathological complete response (pCR; defined as <5% of residual viable cancer cells after surgery), as assessed by a Central Pathology Review Board based on the EORTC guidelines. Key secondary endpoints included negative surgical margin (R0), limb amputation rate and safety. Safety was evaluated in all subjects who received at least one puncture of NBTXR3 or at least one fraction of RT. Subjects are in continued long-term follow-up, focused on safety.

Results: Between March 3rd, 2015 and November 21st, 2017, 180 patients were randomized and 179 received treatment: n=89; arm A and n=90; arm B. The proportion of patients with pCR was 16.1% (14/87) compared with 7.9% (7/89) in arms A and B, respectively (p=0.044). The R0 resection rate was 77.0% (67/87) in arm A versus 64.0% (57/89) in arm B (p=0.0424). The most common grade 3-4 treatment emergent adverse event (AE) was post-operative wound complication, which occurred at a similar rate in each arm (8/89 and 8/90 in arm A and B, respectively). The most common grade 3-4 AE related to NBTXR3 administration was injection site pain (4/89, 4.5%) and hypotension (4/90, 4.4%). Skin injury was the most common grade 3-4 RT-related AE, which was shared between both arms (5/89, 5.6% and 4/90, 4.4% in arm A and B, respectively). Serious AEs were observed in 35 (39.3%) of 89 patients in arm A and 27 (30.0%) of 90 patients in arm B. There were no treatment-related deaths. Follow-up was conducted on 153 patients with a current median follow-up of 18.5 months. Currently 87 patients are still in long-term follow-up.

Conclusion: This registration trial of NBTXR3 combined with EBRT significantly achieved its primary and secondary endpoints of improving pCR, and increasing R0 resection versus EBRT alone. NBTXR3 together with EBRT was well tolerated with a safety profile consistent with EBRT alone. Taken together, these results led to the EU approval (CE Mark) of NBTXR3 + RT for patients with locally advanced STS of the extremity and trunk wall.

Summary

Purpose/Objective(s): Local interventional treatments of cancers include interventional radiology and radiotherapy (RT). NBTXR3, hafnium oxide nanoparticles, is deeply associated to both. Given as a single local administration it increases energy dose deposit inside tumor cells only when activated by ionizing radiation. Various interventional treatments have been used to treat cancers such as liver, lung, bone. Because entirely new therapies such as NBTXR3 are being introduced, implementation of interventional approaches is continuously growing.

Materials/Methods: NBTXR3 is being evaluated in soft tissue sarcoma (STS, extremity, trunk wall) [NCT02379845], head and neck (HN) [NCT01946867, NCT02901483], prostate [NCT02805894], liver [NCT02721056] and rectal cancers [NCT02465593]. NBTXR3 injected volume is a percentage of baseline tumor volume, and therefore heterogeneous. Image guidance allowed for accurate injection. Standard catheters, needles, and syringes were used for preparation and injection. Importantly, percutaneous needle positioning was done within the region to be irradiated to control potential seeding of cancer cells. NBTXR3 was then activated by IMRT (STS, HN), EBRT or combination brachytherapy/EBRT boost (prostate), SBRT (liver), IMRT or IMAT (rectum).

Results: Thus far, NBTXR3 has been administered to 171 patients by intratumoral/lesional, and intraprostate injections depending on indication. NBTXR3 injections have been demonstrated safe and very well tolerated. Local infection, ulceration or massive tumor necrosis were never observed. This has been confirmed by adequate application of treatment schedules, fitting planned irradiation onset 1 to 5 days post-injection. Importantly, grade 1 ecchymosis and hematoma at puncture site (needle entry) observed in few cases always resolved spontaneously and did not impact dosimetry. Indeed, change of tumor/lesion/prostate volume resolved when water (NBTXR3 vehicle) was drained via lymphatic system. So far, inflammatory response to injection procedure itself was mild. Concerning AEs, grade 3 pain was observed in conscious patients under local anesthesia with STS close to joints (limited extensibility), and in needle shift in injection within a subcapsular liver tumor.

Conclusion: Across 7 clinical trials involving tumors in extremity, trunk wall, liver, rectum, prostate and HN, NBTXR3 injection was well tolerated and demonstrated a very good safety profile. The savoir faire of interventional radiology for local treatment of cancers supported implementation of injection procedures with specific parameters according to anatomy. Intratumoral/lesional or intraprostate injection ensures optimum bioavailability at site of irradiation, protecting patients from systemic toxicity. Future clinical research will involve other anatomical sites such as lymph nodes and lung lesions [NCT03589339].

Summary

Background: Radiotherapy (RT) can prime an anti-tumor immune response. Unfortunately, this response rarely generates total tumor destruction and abscopal effect. When activated by RT, intratumorally (IT) administered hafnium oxide nanoparticles (NBTXR3) locally increase radiation dose deposit and tumor cell death compared to RT alone. We hypothesized that NBTXR3 + RT could enhance the anti-tumor immune response, both in mice and humans.

Methods: Murine CT26 cells were injected in both flanks of immunocompetent mice. When tumor volume reached 50-120mm3, NBTXR3 (or vehicle) was injected IT in right flank tumors only, then irradiated (3x4Gy). Mice were sacrificed when tumors reached 800mm3. Alternatively, tumors were collected 3 days after last RT fraction and immune cell infiltrates analyzed by immunohistochemistry (IHC). Patients (pts) with locally advanced Soft Tissue Sarcoma (STS) (NCT02379845) received NBTXR3 + RT or RT alone. Pre- and post-treatment (biopsy and resection, respectively) tumor tissues from pts were analyzed by IHC and Digital Pathology for immune biomarkers ( > 16 pts per arm).

Results: In mice, IHC analyses showed an increase of CD8+ T cells infiltrates in both flanks of mice treated with NBTXR3+RT, while this was not observed in animals treated with RT alone. Furthermore, ICH analysis of post- vs pre-treatment samples from STS pts showed a marked increase of CD8+ and PD1 biomarkers for pts treated with NBTXR3 + RT, while no differences were seen for pts treated with RT alone.

Conclusions: NBTXR3 + RT markedly changes the tumor immune profile in a similar manner in mice and pts with STS. We hypothesize that this adaptive immune response could help convert a local tumor microenvironment to a “hot” phenotype and thus improve the efficacy of immune checkpoint inhibitors. These results led us to investigate the safety and systemic effect of NBTXR3 activated by stereotactic ablative RT (SABR) in combination with anti-PD-1 antibody in pts with locoregionally recurrent or metastatic (to lung or liver) Head and Neck squamous cell carcinoma HNSCC, as well as in metastatic non-small cell lung cancer (NSCLC) and liver metastasis patients [NCT03589339].

Summary

Purpose/Objectives(s): Preoperative radiotherapy (RT) is an option for a subset of patients with locally advanced primary or relapsed tumors. Yet, its impact on efficacy in terms of pathological response is limited, highlighting the need for novel multimodal therapies aimed at local control with low toxicity. NBTXR3 is made of hafnium oxide nanoparticles which, injected intratumorally (IT) and activated by ionizing radiation, yield a tumor-localized high energy deposit and increase cell death compared to the same dose of RT alone. We report here the results of a phase II/III randomized clinical trial of NBTXR3 given as preoperative treatment to patients with locally advanced soft tissue sarcoma (STS) of the extremity and trunk wall [NCT02379845].

Methods: Act.In.Sarc is an international, multicenter, open-label, active-controlled phase II/III trial in which patients (pts) with locally advanced STS of the extremity or trunk wall were randomized 1:1 to receive a single IT NBTXR3 injection and RT (Arm A) or RT alone (Arm B), followed by surgical resection. RT consisted of Intensity Modulated RT or 3D-RT of 2Gy*25 fractions (total 50 Gy) over 5 weeks. The primary endpoint was pathological Complete Response Rate (pCRR), defined as the proportion of pts presenting <5% of residual viable cancer cells evaluated by a Central Review Board on anonymized tumor specimen. Key secondary endpoints included negative surgical margin (R0) and general safety.

Results: Among the 180 randomized pts, 176 were included in the intent-to-treat full analysis set (ITT-FAS). In the ITT-FAS population, pCRR was 16.1% in Arm A vs 7.9% in Arm B (p=0.0448). R0 margin was achieved in 77.0% of pts in Arm A vs 64.0% in Arm B (p=0.0424). The limb amputation rate, another secondary outcome, was decreased by 50% in Arm A as compared to Arm B. NBTXR3 showed very good local tolerance without any modification of RT alone safety profile. In all the treated pts in Arm A, who received any amount of NBTXR3 or at least one RT dose, the IT administration of NBTXR3 caused injection-site pain in 12 (13.5%) pts. NBTXR3 was also associated with grade 3-4 acute immune reactions in 7 (7.9%) pts, but these adverse events were of short duration, manageable, and, in some cases, resolved spontaneously. Long-term efficacy and safety results will be presented.

Conclusion: In this study both the primary and secondary endpoints (pCRR and R0 rate, respectively) were met with a safety profile of NBTXR3 activated by RT comparable to that of RT alone. As pCR is associated with improved progression-free and overall survival, NBTXR3 activated by RT represents a new preoperative treatment option for locally advanced STS. These data support ongoing studies investigating NBTXR3 in recurrent/metastatic HNSCC or metastatic non-small cell lung cancer [NCT03589339]; HNSCC [NCT01946867; NCT02901483]; prostate cancer [NCT02805894], liver cancer [NCT02721056] and rectal cancer [NCT02465593].