Summary

Background: The standard of care non-surgical approach for locally advanced head and neck squamous cell carcinoma (LA HNSCC) patients (pts) is concurrent chemoradiation with high dose cisplatin or cetuximab in case of contra-indication. Older age is a contra-indication to cisplatin, and cetuximab might not improve survival in older pts. It is therefore urgently needed to develop new treatment options for elderly pts with LA HNSCC. NBTXR3 are hafnium oxide nanoparticles that can enhance the efficacy of radiotherapy (RT) by increasing locally the deposited dose. In this phase I clinical trial we aimed to evaluate the feasibility and safety of NBTXR3 administered as intratumoral (IT) injection prior to RT in LA HNSCC elderly pts.

Methods: Pts with stage III-IV LA HNSCC of the oropharynx or oral cavity ineligible for platinum-based chemoradiation received a single IT injection of NBTXR3 into a selected primary tumor and intensity modulated RT (IMRT; 70 Gy/35 fractions/7 weeks) [NCT01946867]. A 3+3 dose escalation design, tested NBTXR3 dose levels equivalent to 5, 10, 15, and 22% of baseline tumor volume, followed by a dose expansion at the Recommended Phase 2 Dose (RP2D). Primary endpoints included RP2D determination, and early dose limiting toxicities (DLT). NBTXR3 intratumoral bioavailability and anti-tumor activity (RECIST 1.1) were also evaluated.

Results: Enrollment was completed at all dose escalation 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. The median follow-up from NBTXR3 administration is 7.6 months. One AE (Grade 1) related to NBTXR3 and four AEs (Grade 1-2) related to the injection were observed. RT-related toxicity was as expected with IMRT. CT-scan assessment showed a good dispersion of NBTXR3 throughout the injected tumor and not in surrounding healthy tissues. The RP2D was determined to be 22%. Preliminary efficacy was evaluated in pts who received the intended dose of NBTXR3 and RT. A complete response of the injected lesion was observed in 9/13 (69%) evaluable pts at doses ≥10% (2 unconfirmed) and an overall complete response in 5/13 (38%) evaluable pts at doses ≥10%. Preliminary safety and efficacy data of the dose expansion cohort at the RP2D will also be presented.

Conclusion: NBTXR3 activated by RT was well tolerated at all tested doses and demonstrated promising preliminary anti-tumor activity. Recruitment is ongoing in the dose expansion cohort. These results demonstrate that further testing of NBTXR3 in this population is warranted.

Summary

Purpose/Objective: The use of stereotactic body radiotherapy (SBRT) for the local control of unresectable hepatocellular carcinoma (HCC) or liver metastases (mets) is well tolerated but limited by the need to preserve liver function. Increasing energy deposit within the tumor without increasing toxicity in healthy tissues remains a major challenge in radiation oncology. NBTXR3 (hafnium oxide nanoparticles), a first-in-class radioenhancer when activated by RT augments energy dose deposit within tumor cells, increasing tumor cell death compared to RT alone, while sparing healthy tissues. Patients (pts) with HCC or mets may benefit from the mode of action of NBTXR3. A phase I/II clinical trial has been conducted to evaluate NBTXR3 activated by SBRT in these pts [NCT02721056].

Material/Methods: The Phase I is a 3+3 dose escalation scheme with 5 NBTXR3 dose levels: 10, 15, 22, 33, and 42% of baseline tumor volume. NBTXR3 has been administered by intratumoral injection (ITI) followed by SBRT (45 Gy / 3 fractions / 5 to 7 days or 50 Gy / 5 fractions / 15 days). Primary endpoints were determination of the RP2D and early DLTs. Secondary endpoints included the safety profile, liver disease scores evolution, and early efficacy by response rate (mRECIST/RECIST 1.1).

Results: Twenty pts have been treated. The dose levels of 10, 15, 22 and 33% are completed: 6 pts at 10% (2 SBRT doses tested due to organ constraints), 4 pts each at 15% and 22% (due to fiducial displacement and ITI shift) and 3 pts at 33%. The final (42%) dose escalation level is ongoing with 3 pts treated thus far. No early DLT has been observed. One SAE (G3 bile duct stenosis) related to NBTXR3 and RT occurred at the 22% dose level. Adverse events related to ITI or NBTXR3 were: G2 malaise at the 10% dose level, 2 G3 abdominal pain at 15%, G1 pleural effusion and G3 bile duct stenosis at 22% and G1 fatigue at 33%. No clinically meaningful changes in CPS and APRI were observed post-treatment and CT-scan showed no leakage of NBTXR3 into surrounding healthy tissues. Best observed response in evaluable patients for HCC (n=8) were 5 CR, 3 PR and for mets (n=5) the results were: 4 PR, 1 SD.

Conclusion: Intratumoral injection of NBTXR3 is feasible, demonstrated a very good safety and tolerability profile up to the 42% dose level. Recruitment at the 42% dose level is nearly finalized. Early efficacy results suggest NBTXR3 has the potential to address an unmet medical need in pts with unresectable primary or metastatic liver cancer.

Summary

Background: Treatment of hepatocellular carcinoma (HCC) and liver metastasis (mets) is challenging due to presence of underlying disease, e.g. cirrhosis. Stereotactic body radiation therapy (SBRT) is a well-tolerated alternative for inoperable patients (pts), yet maximal dose to the tumor is limited by potential toxicity to surrounding healthy tissues. Otherwise inert, NBTXR3 (hafnium oxide nanoparticles) when activated by ionizing radiation (RT) augments dose deposit within tumor cells, increasing tumor cell death compared to RT alone.
A phase I/II clinical trial is underway to evaluate NBTXR3 activated by SBRT in pts with HCC or liver mets [NCT02721056].

Methods: A 3+3 dose escalation was utilized in the phase I. Pts received a single intralesional injection (ILI) of NBTXR3 followed by SBRT (45 Gy/3 fractions/5-7 days), with tested NBTXR3 dose levels of 10, 15, 22 and 33% of baseline tumor volume. Primary endpoints included recommended phase II dose(s) identification and DLT. Secondary endpoints included global safety profile assessment, liver function by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST v1.1).

Results: Four dose escalation levels are finalized (n=17): 6 pts at 10% (2 SBRT doses tested due to organ constraints), 4 pts at 15 and 22% (due to fiducial displacement and ILI site shift) and 3 pts at 33%. No NBTXR3 related DLTs were observed. Related AEs observed: one malaise (G2, 10%); 2 abdominal pain, (G3, 15%); one bilateral pleural effusion (G1, 22%), one bile duct stenosis (G3, 22%) with associated disease recurrence and SBRT; one fatigue (G1, 33%). There were no clinically meaningful changes to CPS or APRI and CT-scan demonstrated absence of NBTXR3 in surrounding healthy tissues. In 7 evaluable HCC pts, best mRECIST target lesion responses were: 3 CR, 4 PR. In 5 evaluable mets pts, best target lesion responses were: 2 PR, 1 SD, 2 PD.

Conclusions: NBTXR3 was well tolerated and showed preliminary anti-tumor activity, supporting a protocol amendment to evaluate an additional NBTXR3 dose level (42%). This innovative approach has the potential to address an unmet medical need in pts with unresectable primary or metastatic liver lesions.

Summary

Purpose/Objective(s): The medical community faces important challenges to treat liver cancer because of underlying disease. Reduction of healthy tissue irradiation while at the same time increasing energy dose deposit within tumor cells still constitutes a challenge in radiation oncology. NBTXR3, hafnium oxide nanoparticles, increase energy deposit inside tumor cells only when activated by ionizing radiation such as stereotactic body radiotherapy (SBRT) and thus increase tumor cell death compared to radiation alone. Patients (pts) with hepatocellular carcinoma (HCC) or liver metastasis (mets) may benefit from the physical mode of action of NBTXR3, which does not engage liver and renal functions. A phase I/II clinical trial was conducted to evaluate NBTXR3 activated by SBRT in these pts [NCT02721056].

Materials/Methods: The Phase I part follows a 3+3 dose escalation design with dose levels of NBTXR3 corresponding to 10, 15, 22, and 33% of the baseline tumor volume. Pts were treated with a single NBTXR3 intralesional injection (ILI) followed by SBRT (45 Gy / 3 fractions / 5 to 7 days). Primary endpoints included identification of the recommended phase II dose(s) and early DLTs. Secondary endpoints included assessment of global safety profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST 1.1).

Results: Four levels of the dose escalation part are finalized (n=17): 6 pts at 10% (2 SBRT doses tested due to organs constraints), 4 pts at 15 and 22% (due to fiducial displacement and ILI shift) and 3 pts at 33%. No NBTXR3 related early DLT or SAE were observed. Indeed only one NBTXR3 related AE (G1 fatigue at 33%) was reported. There were no significant changes in CPS or APRI post-treatment. CT-scan assessment demonstrated absence of NBTXR3 leakage in surrounding tissues. Among 7 evaluable HCC pts, best mRECIST target lesion responses were: 3 CR, 4 PR. Among 5 evaluable mets pts, best target lesion responses were: 2 PR, 1 SD, 2 PD.

Conclusion: NBTXR3 was well tolerated up to the 33% dose level and demonstrated a very good safety profile. The very good tolerance and preliminary anti-tumor effects have supported a protocol amendment to study an additional higher NBTXR3 dose level (42%). Indeed recent data reinforces this further escalation as OS and local control seem to depend on RT dose and tumor volume. Liver dysfunction is the limiting factor for treatment in these pts, hence, this innovative physics based approach may constitute a valuable solution for pts with unresectable liver tumors. NBTXR3 showed statistically superior efficacy over RT alone in a phase II/III trial in soft tissue sarcoma [NCT02379845] and is currently being evaluated in phase I/II trials: head and neck [NCT01946867; NCT02901483], prostate [NCT02805894] and rectal cancers [NCT02465593].

Summary

Purpose/Objective(s): The medical community faces important challenges to treat liver cancer because of underlying disease. Reduction of healthy tissue irradiation while at the same time increasing energy dose deposit within tumor cells still constitutes a challenge in radiation oncology. NBTXR3, hafnium oxide nanoparticles, increase energy deposit inside tumor cells only when activated by ionizing radiation such as stereotactic body radiotherapy (SBRT) and thus increase tumor cell death compared to radiation alone. Patients (pts) with hepatocellular carcinoma (HCC) or liver metastasis (mets) may benefit from the physical mode of action of NBTXR3, which does not engage liver and renal functions. A phase I/II clinical trial was conducted to evaluate NBTXR3 activated by SBRT in these pts [NCT02721056].

Materials/Methods: The Phase I part follows a 3+3 dose escalation design with dose levels of NBTXR3 corresponding to 10, 15, 22, and 33% of the baseline tumor volume. Pts were treated with a single NBTXR3 intralesional injection (ILI) followed by SBRT (45 Gy / 3 fractions / 5 to 7 days). Primary endpoints included identification of the recommended phase II dose(s) and early DLTs. Secondary endpoints included assessment of global safety profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST 1.1).

Results: Four levels of the dose escalation part are finalized (n=17): 6 pts at 10% (2 SBRT doses tested due to organs constraints), 4 pts at 15 and 22% (due to fiducial displacement and ILI shift) and 3 pts at 33%. No NBTXR3 related early DLT or SAE were observed. Indeed only one NBTXR3 related AE (G1 fatigue at 33%) was reported. There were no significant changes in CPS or APRI post-treatment. CT-scan assessment demonstrated absence of NBTXR3 leakage in surrounding tissues. Among 7 evaluable HCC pts, best mRECIST target lesion responses were: 3 CR, 4 PR. Among 5 evaluable mets pts, best target lesion responses were: 2 PR, 1 SD, 2 PD.

Conclusion: NBTXR3 was well tolerated up to the 33% dose level and demonstrated a very good safety profile. The very good tolerance and preliminary anti-tumor effects have supported a protocol amendment to study an additional higher NBTXR3 dose level (42%). Indeed recent data reinforces this further escalation as OS and local control seem to depend on RT dose and tumor volume. Liver dysfunction is the limiting factor for treatment in these pts, hence, this innovative physics based approach may constitute a valuable solution for pts with unresectable liver tumors. NBTXR3 showed statistically superior efficacy over RT alone in a phase II/III trial in soft tissue sarcoma [NCT02379845] and is currently being evaluated in phase I/II trials: head and neck [NCT01946867; NCT02901483], prostate [NCT02805894] and rectal cancers [NCT02465593].

Summary

Purpose/Objective(s): Hafnium oxide nanoparticles (NBTXR3) activated by radiotherapy (RT) increase radiation dose deposit within cancer cells compared to RT alone. Currently 7 clinical trials are underway to evaluate NBTXR3+RT. To date, no dose limiting toxicities (DLTs) have been observed. 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.

Materials/Methods: Immunocompetent mice were injected in both flanks with CT26 cells. An intratumoral injection of NBTXR3 (or vehicle) was performed in right flank tumors, followed by RT (3x4Gy). Tumor growth was followed, and animals sacrificed when tumors reached 800mm3. Alternatively, tumors were collected 3 days after last RT fraction and immune cell infiltrates analyzed by immunohistochemistry (IHC). Pts with locally advanced soft tissue sarcoma (STS) [NCT02379845] received
either NBTXR3+RT or RT alone. Pre- and post-treatment tumor tissues (biopsy and tumor resection respectively) from pts were analyzed by IHC
and Digital Pathology for immune biomarkers (>16 pts per arm).

Results: Animal studies demonstrated that NBTXR3+RT can induce an immune response which was not observed with RT alone. IHC analyses showed that significantly more CD8+ cells were present in NBTXR3+RT treated and untreated tumors, compared to tumors from mice treated with RT alone. 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 and PD1, 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. As such, it may convert immunologically “cold” tumors into “hot” tumors, opening the potential for combination with immunotherapeutic agents. 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 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

Introduction: The treatment of liver cancers is challenging in part due to the presence of underlying liver diseases. In patients unsuitable for surgery, interventional radiation oncology approaches, i.e. minimally invasive image-guided therapeutic procedures, offer new treatment opportunities and can achieve good local control. NBTXR3, hafnium oxide nanoparticles, administered via intratumoral injection, increases energy deposit inside tumor cells only when activated by ionizing radiation such as stereotactic body radiotherapy (SBRT) and thus increase tumor cell death compared to radiation alone. Indeed, NBTXR3 showed statistically superior efficacy over RT alone in a phase II/III trial in soft tissue sarcoma [NCT02379845] and is currently being evaluated in phase I/II trials: head and neck [NCT01946867; NCT02901483], prostate [NCT02805894] and rectal cancers [NCT02465593]. The innovative physical mode of action of NBTXR3, which does not engage liver and renal functions might thus be beneficial to patients (pts) with unresectable hepatocellular carcinoma (HCC) or liver metastasis (mets).

Methods: A phase I/II clinical trial is being conducted to evaluate NBTXR3 activated by SBRT in patients with unresectable HCC or liver mets [NCT02721056]. The Phase I part follows a 3 + 3 dose escalation design with dose levels of NBTXR3 corresponding to 10, 15, 22, 33 and 42% of baseline tumor volume. Pts are treated with a single NBTXR3 intralesional injection (ILI) followed by SBRT (45 Gy or 50Gy/3-5 fractions/5 to 15 days). Primary endpoints include determination of the recommended phase II dose(s) and early DLTs. Secondary endpoints include assessment of global safety profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST 1.1).

Results: Four levels of the dose escalation part are finalized (n = 17): 6 pts at 10% (2 SBRT doses tested due to organs constraints), 4 pts at 15 and 22% (due to fiducial displacement and ILI shift) and 3 pts at 33%. ILIs were successful and SBRT was delivered as planned with no observed DLT at any dose level. One NBTXR3-related AE (G1 fatigue at 33%), 4 ILI-related AE (G2 malaise, 10%; two G3 abdominal pain, 15% and G1 bilateral pleural effusion, 22%) and one bile duct stenosis (G3) related to cancer disease and possibly to RT coupled with NBTXR3 administration were reported. There were no significant changes in CPS or APRI post-treatment. CT scan assessment demonstrated absence of NBTXR3 leakage in surrounding tissues. So far, among 7 evaluable HCC pts, best mRECIST target lesion responses were: 3 CR and 4 PR. Among 5 evaluable liver mets pts, best target lesion responses were: 2 PR, 1 SD, and 2 PD.

Conclusions: NBTXR3 was well tolerated up to the 33% dose level and demonstrated a very good safety profile. The recruitment is ongoing at 42%. In patients with unresectable liver tumors and liver dysfunction limiting treatment options, the physics-based NBTXR3 mode of action may thus constitute a valuable solution.

Summary

Background: Hafnium oxide nanoparticles, NBTXR3, increase the effect of radiotherapy (RT) by enhancing local energy dose deposit within tumor cells, resulting in increased cell death compared to the same dose of RT alone. NBTXR3 efficacy was demonstrated in a phase II/III study in soft tissue sarcoma (NCT02379845) and is currently evaluated in other solid tumors including liver cancers. The use of this radio enhancer is particularly relevant in liver cancer management, a difficult to treat heterogenous population, due to the presence of underlying liver dysfunction.

Methods: Phase I/II study of NBTXR3 activated by RT in patients (pts) with HCC (with/without portal vein tumor thrombus) or liver metastasis (mets) [NCT02721056]. The dose escalation part followed a 3+3 design with tested dose levels equivalent to 10%, 15%, 22% and 33% of baseline tumor volume. Patients were treated with a single intralesional injection (ILI) of NBTXR3 followed by Stereotaxic Body RT (SBRT: 45 Gy/3 fractions/5 to 7 days). Determination of recommended dose(s) and early dose limiting toxicities (DLT) were primary endpoints. Secondary endpoints include assessment of global safety profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST 1.1).

Results: The 4 levels of ILI dose escalation were finalized (n = 17): 6 pts at 10% (2 SBRT doses tested due to organs constraints), 4 pts at 15% and 22% (due to fiducial displacement and ILI shift) and 3 pts at 33% were included. ILIs were successful and SBRT was delivered as planned with no observed DLT or NBTXR3-related SAE at all levels. Only one grade 1 AE (fatigue) related to NBTXR3 was reported at dose level 33%. No relevant change of CPS or APRI was observed over time. Among 7 evaluable HCC pts the best target lesion responses by mRECIST were: 3 CR and 4 PR and among 5 evaluable mets pts: 2 PR, 1 SD and 2 PD.

Conclusions: This study demonstrated the feasibility and good tolerance of the first in class NBTXR3 ILI. These results have supported a protocol amendment adding a higher dose of NBTXR3 (42% of the tumor volume). This innovative approach might constitute a valuable solution for patients with unresectable liver tumors and liver dysfunction.

Clinical trial information: NCT02721056

Summary

Purpose/Objective: Patients with hepatocellular carcinoma (HCC) and liver metastasis (mets) present with a wide range of underlying liver dysfunctions and concomitant malignancies. Stereotactic body radiation therapy (SBRT) is well-tolerated and a valuable alternative for patients who are not eligible for invasive procedures. Yet, like all radiation therapy (RT) techniques, the energy dose deposit to tumor cells is limited by the surrounding healthy tissues. NBTXR3, composed of hafnium oxide nanoparticles, was designed to effectively absorb ionizing radiation and augment the dose deposit within the tumor cells only when activated by RT, thereby increasing tumor-specific physical killing through DNA damage/cell destruction and enhancing the immunogenic tumor cell death.

Material/Methods: Patients suffering from primary HCC (with/without portal vein tumor thrombosis) or liver mets were included and treated with a single intralesional injection (IL) of NBTXR3 followed by SBRT (45 Gy/3 fractions/5 to 7 days). The phase I part of the study was designed as a 3 + 3 escalation dose with tested dose levels at 10%, 15%, 22% and 33% of baseline tumor volume. Primary endpoints include the determination of the recommended dose and incidence of early dose limiting toxicities (DLTs). Secondary endpoints include assessment of global safety profile, characterization of the body kinetic profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST v1.1).

Results: The enrollment is complete in the first 3 dose levels: 10% (6 pts), 15% (4 pts) and 22% (4 pts) and is ongoing at the last IL dose level at 33% with no early DLTs, no AE related to NBTXR3, and no serious AE related to RT or the injection. So far, four AEs related to the IL were observed (Malaise, grade 2; two Abdominal pain, grade 3 and Bilateral pleural effusion, grade 1) at dose level 10%, 15% and 22% respectively. NBTXR3 remained localized within the tumor, validating the relevance of the single IL. No relevant change in CPS or APRI was observed over time which is consistent with the low toxicity observed. In 7 HCC pts evaluable for response, the mRECIST assessment by MRI on target lesions resulted in the following best observed response: 3 complete responses, 3 partial responses and 1 stable disease. In 5 evaluable liver mets pts, the RECIST v1.1 assessment by MRI on target lesions resulted in the following best observed response: 1 partial response, 3 stable disease and 1 local progressive disease.

Conclusion: NBTXR3 was well tolerated and showed a promising safety profile. Recruitment at the highest dose level of 33% is ongoing for the IL part and, once completed, will be followed by the expansion phase. NBTXR3 is also being evaluated in 6 other clinical trials, including a phase II/III trial in soft tissue sarcoma [NCT02379845] and phase I/II trials in prostate [NCT02805894], head and neck [NCT01946867] and rectum cancers [NCT02465593].

Summary

Background: Hafnium oxide nanoparticles, NBXTR3, were developed to increase the tumor-localized high energy deposit once activated by ionizing radiation such as stereotactic body radiotherapy (SBRT) and thus to increase tumor cell death compared to the same dose of radiation. NBTXR3 is characterized by a single intratumor/intralesional (IL) administration and fits into standard RT schedule with no change in patient’s flow, treatment protocol or equipment. Herein the preliminary results of a phase I/II clinical trial evaluating this combination in patients (pts) with hepatocellular carcinoma (HCC) or liver metastasis (mets).

Methods: HCC and liver mets patients were treated with an IL injection of NBTXR3 followed by SBRT (15 Gy*3 fractions). The phase I part of the trial follows a 3+3 dose escalation design at dose levels of NBTXR3 corresponding to 10%, 15%, 22%, 33% of the baseline tumor volume. This study aims primarily to identify the Recommended Dose and the incidence of early Dose Limiting Toxicities (DLTs) of NBTXR3 activated by SBRT. Secondary endpoints include assessment of global safety profile, liver function evaluated by Child-Pugh score (CPS), AST to Platelet Ratio Index (APRI), and response rate (mRECIST/RECIST 1.1). Results: Enrollment is at the last dose level, 33%, and completed at 10% (6 pts), 15% (4 pts) and 22% (4 pts). So far, no early DLTs nor severe adverse events related to NBTXR3 were observed. Both CPS and APRI did not reveal important variations in accordance to NBTXR3 low toxicity. The best observed target lesions responses, among 7 evaluable HCC pts for response (mRECIST), were: 3 complete responses, 3 partial responses (PR) and 1 stable disease (SD) and among 5 evaluable liver mets pts: 1 PR, 3 SD and 1 progressive disease (RECIST 1.1).

Conclusions: NBTXR3 is well tolerated at the 22% dose level with an overall positive safety profile. This innovative approach might constitute a valuable solution for pts with liver tumors beyond standard treatment lines. NBTXR3 was successful in a phase II/III in soft tissue sarcoma [NCT02379845] and is currently evaluated in head and neck [NCT01946867; NCT02901483], prostate [NCT02805894] and rectum cancers [NCT02465593].