Your search keyword '"Navin R. Pinto"' showing total 30 results

1. Neonatal appendicitis presenting as a painless abdominal mass

Author

Anurekha G. Hall, Jeffrey P. Otjen, Nicholas A. Vitanza, Kimberly J. Riehle, and Navin R. Pinto

Subjects

Neonatal appendicitis, Cystic neuroblastoma, Abdominal mass, Pediatrics, RJ1-570, Surgery, RD1-811

Abstract

Cystic neuroblastoma, characterized by large cystic lesions typically originating from the adrenal gland, is a rare entity often diagnosed in the perinatal period. The majority of cases are localized, and complete surgical resection is curative in these cases. We present the case of a 3-week-old male infant who on imaging was found to have a cystic right suprarenal mass that was concerning for cystic neuroblastoma. At exploration, it was determined that this mass was a right upper quadrant abscess secondary to perforated appendicitis. Two years after his operation, the patient is doing well with no long-term complications.

Published

2021

2. Rare FGFR Oncogenic Alterations in Sequenced Pediatric Solid and Brain Tumors Suggest FGFR Is a Relevant Molecular Target in Childhood Cancer

Author

Lorena Lazo De La Vega, Hannah Comeau, Sarah Sallan, Alyaa Al-Ibraheemi, Hersh Gupta, Yvonne Y. Li, Harrison K. Tsai, Wenjun Kang, Abigail Ward, Alanna J. Church, AeRang Kim, Navin R. Pinto, Margaret E. Macy, Luke D. Maese, Amit J. Sabnis, Andrew D. Cherniack, Neal I. Lindeman, Megan E. Anderson, Tabitha M. Cooney, Kee Kiat Yeo, Gregory H. Reaman, Steven G. DuBois, Natalie B. Collins, Bruce E. Johnson, Katherine A. Janeway, and Suzanne J. Forrest

Subjects

Cancer Research, Oncology, Base Sequence, Brain Neoplasms, Carcinogenesis, Humans, Glioma, Oncogenes, Child, Microtubule-Associated Proteins, Protein Kinase Inhibitors

Abstract

PURPOSE Multiple FGFR inhibitors are currently in clinical trials enrolling adults with different solid tumors, while very few enroll pediatric patients. We determined the types and frequency of FGFR alterations ( FGFR1-4) in pediatric cancers to inform future clinical trial design. METHODS Tumors with FGFR alterations were identified from two large cohorts of pediatric solid tumors subjected to targeted DNA sequencing: The Dana-Farber/Boston Children's Profile Study (n = 888) and the multi-institution GAIN/iCAT2 (Genomic Assessment Improves Novel Therapy) Study (n = 571). Data from the combined patient population of 1,395 cases (64 patients were enrolled in both studies) were reviewed and cases in which an FGFR alteration was identified by OncoPanel sequencing were further assessed. RESULTS We identified 41 patients with tumors harboring an oncogenic FGFR alteration. Median age at diagnosis was 8 years (range, 6 months-26 years). Diagnoses included 11 rhabdomyosarcomas, nine low-grade gliomas, and 17 other tumor types. Alterations included gain-of-function sequence variants (n = 19), amplifications (n = 10), oncogenic fusions ( FGFR3:: TACC3 [n = 3], FGFR1:: TACC1 [n = 1], FGFR1:: EBF2 [n = 1], FGFR1:: CLIP2 [n = 1], and FGFR2:: CTNNA3 [n = 1]), pathogenic-leaning variants of uncertain significance (n = 4), and amplification in combination with a pathogenic-leaning variant of uncertain significance (n = 1). Two novel FGFR1 fusions in two different patients were identified in this cohort, one of whom showed a response to an FGFR inhibitor. CONCLUSION In summary, activating FGFR alterations were found in approximately 3% (41/1,395) of pediatric solid tumors, identifying a population of children with cancer who may be eligible and good candidates for trials evaluating FGFR-targeted therapy. Importantly, the genomic and clinical data from this study can help inform drug development in accordance with the Research to Accelerate Cures and Equity for Children Act.

Published

2022

3. RecurrentRETgene fusions in paediatric spindle mesenchymal neoplasms*

Author

Sara O. Vargas, Navin R. Pinto, Alyaa Al-Ibraheemi, Christopher L. Corless, Alanna J. Church, Marian H. Harris, Suzanne J. Forrest, Lea F. Surrey, Katrina Winsnes, Katherine A. Janeway, Yajuan J. Liu, Theonia K. Boyd, Erin R. Rudzinski, Jessica M López Marti, Mandy VanSandt, Jessica L. Davis, and Sung Eun Yang

Subjects

Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Histology, Adolescent, Oncogene Proteins, Fusion, Fibrosarcoma, CD34, Soft Tissue Neoplasms, Pathology and Forensic Medicine, Metastasis, Variable Expression, 03 medical and health sciences, 0302 clinical medicine, Biomarkers, Tumor, medicine, Humans, Oncogene Fusion, Child, Mitosis, business.industry, Proto-Oncogene Proteins c-ret, Mesenchymal stem cell, Infant, Soft tissue, General Medicine, medicine.disease, 030104 developmental biology, Child, Preschool, 030220 oncology & carcinogenesis, Female, Sarcoma, Infantile Fibrosarcoma, business

Abstract

Aims The classification of paediatric spindle mesenchymal tumours is evolving, and the spectrum of so-called 'infantile fibrosarcoma' has expanded to include tumours with NTRK, BRAF and MET gene fusions. RET-rearranged paediatric spindle cell neoplasms are an emerging group; there is sparse literature on their clinical, pathological and genetic features, and their nosological place in the canon of soft tissue tumours is uncertain. In this study, we report five RET-rearranged paediatric spindle cell tumours with fusion partners MYH10, KIAA1217 and CLIP2. Methods and results The tumours occurred in the pelvic region, paraspinal region, kidney and subcutaneous tissue of hand and abdomen. The patients' ages ranged from 6 months to 13 years (median 1 year). The tumours were composed of monomorphic spindle cells arranged in a fascicular pattern. Lesional cells had minimally atypical ovoid or tapered nuclei and pale cytoplasm with indistinct borders. Necrosis was not identified. Mitoses numbered three to 12 per 10 high-power field. Cases showed inconsistent and variable expression of S100, CD34 and SMA. Clinical behaviour ranged from small lesions potentially cured by simple resection to large lesions exhibiting metastasis, but responsive to kinase inhibitor therapy. Conclusions Our findings help to define RET-rearranged spindle cell tumours. Although it is likely that these tumours comprise part of the morphological and clinical spectrum of infantile fibrosarcoma (IFS), identification of RET gene alteration is important for its unique therapeutic implications.

Published

2020

4. Abstract 3893: Rare FGFR oncogenic alterations in sequenced pediatric solid and brain tumors suggest FGFR is a relevant molecular target in childhood cancer

Author

Lorena Lazo De La Vega, Alanna J. Church, Hannah Comeau, Wenjun Kang, AeRang Kim, Navin R. Pinto, Margaret E. Macy, Luke D. Maese, Steven G. DuBois, Bruce E. Johnson, Katherine A. Janeway, and Suzanne J. Forrest

Subjects

Cancer Research, Oncology

Abstract

Oncogenic FGFR alterations in the form of activating mutations, amplifications, and fusions are detected in a variety of solid tumors, including those in children. Major advances in FGFR-targeted drug development have led to investigation of multiple generations of FGFR inhibitors in adult clinical trials. In contrast, there are few clinical trials of FGFR inhibitors enrolling children. There is a need to identify and characterize molecular targets including oncogenic FGFR alterations in pediatric cancers so that drug development can occur in accordance with the RACE (Research to Accelerate Cures and Equity) for Children Act. The goal of this study was to determine the frequency and types of FGFR alterations in pediatric cancers to inform future clinical trial design. Tumors with FGFR alterations were identified from two large cohorts of pediatric solid tumors subjected to targeted DNA sequencing: The Dana-Farber/Boston Children’s Profile Study (n=888) and the multi-institution GAIN/iCAT2 (Genomic Assessment Improves Novel Therapy) Study (n=571). Data from the combined patient population of 1,395 cases (64 patients were enrolled in both studies) were reviewed and cases in which an FGFR alteration was identified by OncoPanel sequencing were further assessed. We identified 42 patients with tumors harboring an oncogenic or possibly oncogenic FGFR alteration (FGFR1 in 22; FGFR2 in 4; FGFR3 in 5; FGR4 in 11). Median age at diagnosis was 8 years (range 6 months-26 years old). Diagnoses included 11 rhabdomyosarcomas, 8 low-grade gliomas, 3 high-grade gliomas, and 16 other tumor types. We identified 20 patients with a gain-of-function (GoF) mutation, 10 patients with amplifications (copy number ≥7), 7 patients with fusions, 4 patients with a variant of uncertain significance (VUS) assessed and determined to be possibly oncogenic, and 1 patient with an amplification and VUS. Four of the fusion cases had oncogenic FGFR3-TACC3 (n=3) and FGFR1-TACC1 (n=1) fusions previously reported in the literature. Three cases had novel fusions (FGFR1-EBF2, FGFR1-CLIP2, FGFR2-CTNNA3) found in a spindle cell sarcoma and two low-grade gliomas. Tumors with an FGFR missense mutation were primarily those with oncogenic hotspot mutations in FGFR1 [N546K (n= 5); K656E (n=4)] and FGFR4 [N535K/D (n=2); V550L/E (n=5)]. In summary, this study identified oncogenic FGFR alterations in 42 of 1395 patients (3%) with solid and brain tumors sequenced through the Profile and GAIN/iCAT2 studies who would potentially be eligible for clinical trials evaluating FGFR-targeted therapy. Citation Format: Lorena Lazo De La Vega, Alanna J. Church, Hannah Comeau, Wenjun Kang, AeRang Kim, Navin R. Pinto, Margaret E. Macy, Luke D. Maese, Steven G. DuBois, Bruce E. Johnson, Katherine A. Janeway, Suzanne J. Forrest. Rare FGFR oncogenic alterations in sequenced pediatric solid and brain tumors suggest FGFR is a relevant molecular target in childhood cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3893.

Published

2022

5. Update on phase 1 study of tazemetostat, an enhancer of zeste homolog 2 inhibitor, in pediatric patients with relapsed or refractory integrase interactor 1–negative tumors

Author

Susan N. Chi, Franck Bourdeaut, Michela Casanova, Lindsay Baker Kilburn, Darren R. Hargrave, Geoffrey Brian McCowage, Navin R. Pinto, Jay Yang, Raminder Chadha, Bhaskar Kahali, Coya Tapia, and Karsten Nysom

Subjects

Cancer Research, Oncology

Abstract

10040 Background: A defining feature of malignant rhabdoid tumors (MRTs), epithelioid sarcoma (ES), and poorly differentiated chordomas (PDC) is loss of integrase interactor 1 (INI1) expression, which induces dependence on enhancer of zeste homolog 2 (EZH2). Tazemetostat (TAZ) is a selective EZH2 inhibitor approved by the US Food and Drug Administration for patients (pts) aged ≥16 y with metastatic or locally advanced ES ineligible for complete resection. Pediatric dose escalation and interim efficacy and safety data for the dose expansion were previously reported. Updated efficacy, safety, subgroup analyses, and translational results are reported here. Methods: NCT02601937 is a phase 1 multicenter study evaluating TAZ monotherapy ≤2400 mg/m2 daily in pediatric pts with relapsed or refractory INI1− tumors (MRT, atypical teratoid rhabdoid tumor [ATRT], select tumors with rhabdoid features, other INI1− tumors, and SS18-SSX synovial sarcoma). Primary endpoint for dose expansion was objective response rate (ORR). Secondary endpoints included safety/tolerability, duration of response (DOR), progression-free survival (PFS), and overall survival. Selected exploratory flow data using 250,000 cells from peripheral blood were available for up to 25 pts. Results: Phase 1 enrolled 109 pts (escalation, n=46; expansion, n=63; Table) with mean ages of 5.4 y in the dose escalation and 7.4 y in the dose expansion. ORRs were 7% (3/46) in the dose escalation and 14% (9/63) in the dose expansion. Per tumor category in the dose expansion, ORRs were 24% (5/21) ATRT, 33% (2/6) PDC, 22% (2/9) ES, and 0% in non–CNS RTs (n=21) and other tumors (n=6). ORR for pts with prior radiotherapy was 14% (11/80) vs 3% (1/29) with prior radiotherapy ( P>0.05). In the dose expansion, median PFS was 8 wk (95% CI: 8–13), OS was 21 wk (95% CI: 13–38), and DOR was 35 wk (95% CI: 24–121). Grade 3–4 treatment-related treatment-emergent adverse event rates were 15% (7/46) in the dose escalation and 22% (14/63) in dose expansion. Differences between responders (R) and nonresponders (NR) at C1D1 for neutrophil counts were significant ( P50,000 total CD3 T cells vs 0% (0/19) of NR. Conclusions: TAZ showed promising antitumor activity in ATRT, ES, and PDC. Potential synergism between prior radiotherapy and TAZ requires further investigation. TAZ was generally well tolerated. The biological/clinical significance of differences in peripheral blood cell counts between R and NR at C1D1 needs further investigation. Clinical trial information: NCT02601937. [Table: see text]

Published

2022

6. STRIVE-02: A first-in-human phase 1 trial of systemic B7H3 CAR T cells for children and young adults with relapsed/refractory solid tumors

Author

Navin R. Pinto, Catherine Michelle Albert, Mallory Taylor, Ashley Wilson, Stephanie Rawlings-Rhea, Wenjun Huang, Kristy Seidel, Prabha Narayanaswany, Vicky Wu, Christopher Brown, Nicholas A. Vitanza, Rimas Orentas, Rebecca Alice Gardner, Michael C. Jensen, and Julie R. Park

Subjects

Cancer Research, Oncology

Abstract

10011 Background: B7H3 (CD276) has limited expression in normal tissues and high cell-surface expression in pediatric solid malignancies providing rationale for immunologic therapeutic targeting. We present a first-in-human experience of B7H3 chimeric antigen receptor T cells (CAR-T) for children and young adults (CYA) with relapsed or refractory solid tumors (R/RST). Methods: CYA patients with R/RST were enrolled onto a Phase 1 trial (NCT04483778) to examine the safety of autologous T cells genetically modified to express scFV-IgG4hinge-CD28tm-4-1BB-zeta B7H3-specific CAR with the methotrexate resistance/selection cassette DHFRdm and the tracking/suicide construct EGFRt. All patients received lymphodepleting fludarabine and cyclophosphamide prior to infusion of cryopreserved CAR-T at the prescribed dose level. The maximal tolerated dose or biologically effective dose (BED) was determined based upon observed toxicity through day 28 from initial CAR-T infusion and using a 3+3 statistical design. Results: Sixteen subjects (age 11-24, median 17 years) enrolled and received dose level (DL) 1 (0.5 x 106 CAR-T/kg, n = 3) or DL2 (1 x 106 CAR-T cells/kg, n = 6). No dose limiting toxicity was observed following first infusion, most common toxicities were fatigue and cytokine release syndrome (CRS) (n = 2, maximum CTCAE grade 2). Maximum circulating CAR-T expansion on first infusion was 4.98 cells/uL (range 0.23-4.98 cells/uL) with median persistence of 28 days (range 14-90). Best overall response of Stable Disease was observed in 3 of the 9 subjects infused. Given observed expansion and persistence, DL2 was determined to be the BED. A second infusion at DL2 in one subject demonstrated CAR T expansion to 1590 cells/uL (86% of circulating CD3 cells) with CTCAE grade 2 CRS and transient dose limiting CTCAE grade 4 liver enzyme elevation. A partial metabolic response on FDG-PET by PERCIST criteria was observed in this subject at Day 28. Conclusions: B7H3 CAR T cells are safe and demonstrate anti-tumor activity in CYA with R/RST. CAR-T cell expansion and persistence may be necessary to achieve objective responses. STRIvE-02 Arm B will explore dual expression of CD19 CAR with B7H3 CAR, using lymphocytic CD19 expression to drive CAR expansion and persistence. Clinical trial information: NCT04483778.

Published

2022

7. STRIvE-01: Phase I study of EGFR806 CAR T-cell immunotherapy for recurrent/refractory solid tumors in children and young adults

Author

Catherine Michelle Albert, Navin R. Pinto, Mallory Taylor, Ashley Wilson, Stephanie Rawlings-Rhea, Stephanie Mgebroff, Christopher Brown, Catherine Lindgren, Wenjun Huang, Kristy Seidel, Prabha Narayanaswany, Vicky Wu, Erin R. Rudzinski, Nicholas A. Vitanza, Juliane Gust, Rebecca Alice Gardner, Michael C. Jensen, and Julie R. Park

Subjects

Cancer Research, Oncology

Abstract

2541 Background: The epidermal growth factor receptor (EGFR) is a cell surface tyrosine kinase receptor associated with cell proliferation and differentiation. EGFR expression and activating mutations are associated with aggressive neoplastic disease, chemotherapy resistance, and increased metastatic potential. Published data and EGFR immunohistochemistry (IHC) performed on tissue microarrays indicate that 15-40% of pediatric solid tumors (ST) express EGFR. The unique EGFR monoclonal antibody (mAb) 806 selectively binds to an epitope that is conformationally hidden when EGFR is tethered but revealed when tethering is perturbed as occurs with EGFR overexpression, truncation, or through extra-cellular domain missense mutations. Methods: Children and young adults (CYA) with EGFR-expressing recurrent/refractory (R/R) ST were enrolled on a Phase 1 trial to examine the safety and feasibility of administering autologous chimeric antigen receptor (CAR) T cells derived from autologous T cells genetically modified to express a second generation EGFR806-specific scFV-IgG4hinge-CD28tm/cyto-4-1-BB-zeta and EGFRt tracking/suicide contract. All subjects received lymphodepleting chemotherapy with fludarabine and cyclophosphamide prior to the administration of cryopreserved CAR T cells a the prescribed dose level. The biologically effective dose (BED) or maximum tolerated dose was determined based upon observed toxicity through day 28 from initial CAR-T infusion and using a 3+3 statistical design. Results: Eleven subjects (n=10 evaluable, age range 9-25, median 18) were enrolled and received either dose level (DL) 1 (0.5 x 106 CAR-T/kg, n=4) or DL2 (1 x 106 CAR-T cells/kg, n=7). CAR T were manufactured successfully in all subjects. Most common toxicities were fatigue, tumor-related pain and cytokine release syndrome (n=2, maximum CTCAE grade 1). Dose limiting toxicity of CTCAE grade 4 transaminase level and hyperbilirubinemia occurred at DL2 (n=1). Maximum circulating CAR-T expansion was 29.66 cells/uL (range 0.05-29.66 cells/uL) with median persistence of 28 days (range 0-90). Two subjects on DL1 and one subject on DL2 demonstrated mixed response on day 28 and tolerated additional CAR T infusion without dose limiting toxicity. Conclusions: EGFR806 directed CAR-T cells have an acceptable toxicity profile in CYA with R/RST and demonstrate anti-tumor activity in some patients. Additional analyses are ongoing to identify biomarkers of response and toxicity. Clinical trial information: NCT03618381.

Published

2022

8. Phase 1/2 study of elraglusib (9-ING-41), a small molecule selective glycogen synthase kinase-3 beta (GSK-3β) inhibitor, alone or with irinotecan, temozolomide/irinotecan or cyclophosphamide/topotecan in pediatric patients with refractory malignancies: Interim results

Author

Bradley DeNardo, Jennie Foster, Navin R. Pinto, Giselle Linda Saulnier Sholler, Kieuhoa Tran Vo, Ami Vijay Desai, Jessica Sun, Lars M. Wagner, Margaret E Macy, Rajen Mody, Javier E. Oesterheld, Thomas Cash, Roma Bhuta, Eveline Barbieri, Andrew DJ Pearson, Ludimila Cavalcante, Francis J. Giles, and Rishi Ramesh Lulla

Subjects

Cancer Research, Oncology

Abstract

e22015 Background: GSK-3β overexpression is associated with aggressive malignancies, treatment resistance and poor prognosis. The GSK-3β inhibitor Elraglusib induces apoptosis via NFΚB and p53 pathways and has potent anti-fibrotic and immunomodulatory activity. Adult studies of elraglusib demonstrate clinical activity in pancreatic cancer, melanoma, lymphoma and sarcoma as a single agent or in combination with cytotoxic chemotherapy. Elraglusib is active in in vivo models of neuroblastoma (NBL) and malignant glioma. This first-in-pediatrics study (NCT04239092) is evaluating the safety, pharmacokinetics (PK), and efficacy of elraglusib monotherapy and in combination with chemotherapy in patients with refractory malignancies. Methods: Elraglusib is given intravenously (IV) twice-weekly at 3 dose levels (DL) (9.3, 12.4 and 15 mg/kg) as a single agent or in combination with irinotecan, cyclophosphamide/topotecan or temozolomide/irinotecan in 21-day cycles. A cohort of pts with refractory NBL will be treated at the recommended phase 2 dose (RP2D) of elraglusib with temozolomide/irinotecan. Results: As of January 2022, 23 pts (n = 7 female, median age 14.2 years) have received at least one dose of elraglusib. Tumor types: 5 NBL, 3 diffuse midline glioma (DMG), 3 osteosarcoma (OS), 3 ependymoma (EP), 2 alveolar rhabdomyosarcoma (aRMS), 1 angiosarcoma (AS), 1 Ewing sarcoma (ES), 1 glioblastoma (GBM), 1 hepatoblastoma (HB), 1 embryonal CNS tumor NOS, 1 NUT midline carcinoma, 1 pineoblastoma (PB). Median time from diagnosis is 26 months (range: 6.7 – 156.3) and median number of lines of prior systemic therapy is 2 (range 0-14). Two DLs of single agent (6 pts) have been completed (9.3 and 12.4 mg/kg) without elraglusib-attributable severe adverse events (SAEs). Of the 15 patients on the combination arm with irinotecan or cyclophosphamide/topotecan, a single adverse event (Grade 4 hypotension/infusion reaction) was reported. Grade 1/2 elraglusib attributable-AEs include: transient visual change (n = 10), nausea (n = 7), vomiting (n = 6), fatigue (n = 2), hypotension (n = 2) and infusion reaction (n = 1). One pt with recurrent ES had a radiographic and pathologic CR after 3 cycles of elraglusib/cyclophosphamide/topotecan. 6 pts (26.1%) had SD (2 NBL, 1 aRMS, 1 EP, 1 OS, 1 GBM). 8 pts (35%) remained on study treatment ≥ 3 months (2 NBL, 2 EP, 1 OS, 1 aRMS, 1 ES, 1 PB). Median treatment duration was 40 days (range 1 - 126). 4 pts remain on therapy. Conclusions: Elraglusib is well tolerated as a single agent and with several chemotherapy regimens in this heavily pretreated pediatric population with refractory cancers. It has encouraging antitumor activity, with 1 CR in a patient with recurrent ES. Enrollment is ongoing; a RPD2 has not been reached. Clinical trial information: NCT04239092.

Published

2022

9. Phase I study of 131I-MIBG with dinutuximab for patients with relapsed or refractory neuroblastoma: A report from the new approaches to neuroblastoma therapy (NANT) consortium

Author

Thomas Cash, Araz Marachelian, Steven G. DuBois, Yueh-Yun Chi, Susan G. Groshen, Anasheh Shamirian, Alina C Stout, Margaret E Macy, Navin R. Pinto, Ami Vijay Desai, Paul M. Sondel, Shahab Asgharzadeh, Brian D. Weiss, Yael P. Mosse, Katherine K. Matthay, Julie R. Park, and Kelly C. Goldsmith

Subjects

Cancer Research, Oncology

Abstract

10038 Background: 131I-metaiodobenzylguanidine (MIBG) is one of the most active salvage therapies for patients with relapsed or refractory (R/R) high-risk neuroblastoma (HRNB). Preclinical neuroblastoma studies show cooperative effects when radiation is combined with anti-GD2 monoclonal antibody (mAb). We hypothesized that MIBG would synergize with the anti-GD2 mAb dinutuximab to provide improved anti-tumor responses. The primary aims of Part A of this study were to determine the maximum tolerated dose (MTD) and/or recommended Phase II dose (RP2D) of MIBG administered with dinutuximab in children with R/R HRNB and to define and describe the toxicities. Methods: Patients 1-29 years of age with R/R HRNB who had MIBG uptake in ≥ 1 site were eligible. Prior anti-GD2 mAb therapy was allowed provided it was not administered with MIBG and not permanently discontinued due to toxicity. One prior MIBG therapy was allowed. MIBG was administered on day 1 at one of three dose levels (DLs): 12, 15, and 18 mCi/kg (DL1-DL3, respectively) with an expansion cohort at the RP2D. Doses were escalated using a rolling six design starting at DL1. The primary endpoint was dose-limiting toxicity (DLT) during course 1. Dinutuximab (17.5 mg/m2/dose) was administered intravenously on days 8-11 and 29-32 and GM-CSF (250 mcg/m2/dose) subcutaneously on days 8-17 and 29-38. Autologous peripheral blood stem cells were infused to all patients on day 15 (+/- 2 days). A maximum of 2 courses per patient were allowed. Response rate was defined as the proportion of patients with a complete or partial response. Results: Thirty-one patients were enrolled. Fourteen were evaluable for dose escalation (4 on DL1, 4 on DL2, and 6 on DL3); 5 evaluable patients were treated in the DL3 expansion. The median age was 7.4 years (range: 3.1 – 22.0) and 20 (65%) were male. Twenty-seven (87%) patients had previously received a median of 8.5 cycles of chemoimmunotherapy (range: 2 – 21). Eight patients previously progressed while receiving anti-GD2 mAb including 7 in DL3. Five (16%) patients had previously received MIBG. No patient at any dose level experienced DLT. Common grade 3/4 treatment-related toxicities were expected hematologic toxicities attributable to MIBG and non-hematologic toxicities attributable to dinutuximab or GM-CSF. Among 26 response-evaluable patients, the centrally-confirmed response rate was 31% across all dose levels: 2/6 (33%) in DL1, 3/5 (60%) in DL2, and 3/15 (20%) in DL3. There were 3 minor responses, 1 in DL2 and 2 in DL3. Conclusions: The RP2D of MIBG in combination with standard doses of dinutuximab and GM-CSF is 18 mCi/kg. This radioimmunotherapy regimen is well-tolerated without additive toxicity. Preliminary efficacy data are encouraging in this heavily pre-treated patient population. A phase 2 trial of this regimen is planned in patients with R/R HRNB. Clinical trial information: NCT03332667.

Published

2022

10. Predictors of differential outcomes according to response to induction chemotherapy in high-risk neuroblastoma

Author

Elizabeth Sokol, Brian LaBarre, Arlene Naranjo, Navin R. Pinto, Susan G. Kreissman, Meaghan Granger, Julie R. Park, Rochelle Bagatell, and Steven G. DuBois

Subjects

Cancer Research, Oncology

Abstract

10032 Background: Response to induction chemotherapy has been shown to predict outcome in patients with high risk neuroblastoma, with those achieving a complete response (CR) having superior outcomes. Little is known about what factors impact survival within groups of patients with favorable and unfavorable end-induction response. We evaluated whether conventional prognostic factors remain prognostic in subsets of patients defined by response to induction. Methods: Patients from four COG high risk trials (A3973, ANBL02P1, ANBL0532, and ANBL12P1) were included. End-induction response was determined according to the 1993 International Neuroblastoma Response Criteria (INRC). Patients were categorized as having end-induction responses of CR, partial response (PR) or better, less than PR without progressive disease (PD), and PD. Univariate Cox models calculated OS hazard ratios for clinical and biological variables in subsets defined by response category. Results: 1,244 patients were included. Among all patients, age >5 years, INSS stage 4 disease, adrenal primary site and unfavorable histology by INPC were associated with inferior OS (see Table). Among patients who achieved a CR, stage 4 disease was the only factor that remained significantly associated with worse OS. Among those who achieved PR or better, age >5 years, stage 4 disease and unfavorable histology remained significantly associated with inferior OS. For those with less than PR but without PD, adrenal primary site, MYCN amplification and 1p LOH were significantly associated with inferior OS. For those with PD, MYCN amplification and 1p LOH were associated with worse OS, but older age was associated with better OS. Conclusions: Specific prognostic factors in neuroblastoma are associated with differential survival in groups defined by response to induction. Age, stage, and histology appear to be associated with OS for patients with more favorable response to induction, whereas MYCN and 1p LOH play a greater role in patients with unfavorable response to induction. These data can help to further define prognosis for patients with variable responses to induction. [Table: see text]

Published

2022

11. Rationale and Design of the Targeted Agent and Profiling Utilization Registry Study

Author

Kathleen J. Yost, Emile E. Voest, Katherine A. Janeway, Ajjai Alva, Edward S. Kim, Richard L. Schilsky, Philip J. Stella, Suanna S. Bruinooge, Pam K. Mangat, Navin R. Pinto, Elizabeth Garrett-Mayer, Susan Halabi, and Jane Perlmutter

Subjects

0301 basic medicine, Oncology, Drug, Cancer Research, medicine.medical_specialty, business.industry, media_common.quotation_subject, medicine.disease, Precision medicine, Article, Lymphoma, Clinical trial, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, Inclusion and exclusion criteria, medicine, Profiling (information science), In patient, business, Multiple myeloma, media_common

Abstract

Purpose Case reports and small prospective trials suggest that administering targeted therapies to patients with advanced cancer and an identified genomic target may be associated with clinical benefit. The Targeted Agent and Profiling Utilization Registry (TAPUR) study, a phase II prospective, nonrandomized, multibasket pragmatic clinical trial, aims to identify signals of drug activity when US Food and Drug Administration–approved drugs are matched to prespecified genomic targets in patients with advanced cancer, outside of approved indications. Methods Patients eligible to participate in TAPUR are age ≥ 12 years and have advanced measurable or evaluable solid tumors, multiple myeloma, or B-cell non-Hodgkin lymphoma. Eligible participants are matched to any of the 16 US Food and Drug Administration–approved study drugs based on protocol-specified genomic inclusion and exclusion criteria. Genomic profiling from any Clinical Laboratory Improvement Amendments–certified, College of American Pathologists–accredited laboratory is acceptable. The treating physician selects the treatment from the available study therapies or consults with the TAPUR Molecular Tumor Board. Participants are placed into multiple parallel cohorts defined by tumor type, genomic alteration, and drug. The primary study end point within each cohort is objective response or stable disease of at least 16 weeks duration. Secondary end points include safety, progression-free survival, and overall survival. Results More than 1,000 participants have thus far been registered, and more than 800 have been treated with a TAPUR study drug. Two study cohorts have permanently closed to enrollment because of lack of antitumor activity, and 12 have expanded to the second stage of enrollment after promising preliminary activity. Conclusion The TAPUR study will describe the efficacy and toxicity of the targeted drugs used outside of their approved indications when matched to a somatic genomic variant.

Published

2018

12. Clinical impact of molecular tumor profiling in pediatric, adolescent, and young adult patients with extra-cranial solid malignancies: An interim report from the GAIN/iCat2 study

Author

Margaret E. Macy, Julia Glade Bender, Steven G. DuBois, Daniel A. Weiser, Alanna J. Church, Navin R. Pinto, Wendy B. London, Luke Maese, Katherine A. Janeway, AeRang Kim, Laura Corson, Wenjun Kang, Alma Imamovic-Tuco, Theodore W. Laetsch, Samuel L. Volchenboum, Amit J. Sabnis, Mark A. Applebaum, Pei-Chi Kao, Rochelle Bagatell, and Susan Colace

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Internal medicine, medicine, Profiling (information science), Young adult, Clinical care, business, Interim report

Abstract

10005 Background: Next generation sequencing (NGS) assays are now a standard part of clinical care for many adult solid cancers. The significance of molecular tumor profiling for the care of children with cancer is not well understood.We aimed to determine the clinical impact of identifying genomic alterations by NGS for young patients with relapsed, refractory, or high-risk extracranial solid tumors. Methods: We report on the first 389 participants in a prospective cohort study enrolling patients at 12 institutions with extracranial solid tumors diagnosed at age 30 years or less. Targeted DNA NGS was performed on one or more tumor samples from each patient. Selected patients also had tumors subjected to RNA sequencing. Test results were returned to the treating oncologist and follow-up treatment and response data were collected.Identified genomic alterations were classified according to evidence of impact on diagnosis, prognosis or response to targeted therapy matched to an identified alteration (matched targeted therapy, MTT) using established guidelines. Response to MTT was determined and reported as a response if either there was radiographic response according to RECIST or the duration of therapy was > 4 months. Results: Molecular tumor profiling (MTP) was successful in 345 (89%) patients (mean age 11 years at diagnosis; 65% with sarcoma). Two hundred and ninety-nine patients with MTP results (87%) had one or more alterations of clinical significance. Genomic alterations with diagnostic, prognostic or therapeutic significance were present in 208 (60%), 51 (15%) and 240 (70%) patients, respectively. Of the 240 patients with tumors harboring genomic alterations designated as having therapeutic impact, 23 (11%) had Tier 1 molecular findings. 205 patients were eligible to receive MTT based on having a molecular alteration with therapeutic significance and sufficient follow-up; 31 of these patients (15%) received MTT. Seven patients (23%) receiving MTT responded, 6 of these were kinase fusions. All of the responders received targeted therapy matched to a fusion and 78% of diagnostically significant alterations were fusions. Conclusions: Molecular tumor profiling has a significant impact on diagnosis and treatment recommendations for young patients with extracranial solid tumors. These results emphasize the importance of fusion detection for patients with sarcomas and rare tumors. Clinical trial information: NCT02520713.

Published

2021

13. Segmental Chromosomal Aberrations in Localized Neuroblastoma Can be Detected in Formalin-Fixed Paraffin-Embedded Tissue Samples and Are Associated With Recurrence

Author

Gudrun Schleiermacher, Jawhar Rawwas, Olivier Delattre, Navin R. Pinto, Meredith S. Irwin, Anthony Little, Gordana Raca, Yasmin Gosiengfiao, Susan L. Cohn, Eve Lapouble, Jodi R. Mayfield, Mark A. Applebaum, Rochelle Bagatell, Isabelle Janoueix-Lerosey, Alexandre Chlenski, and Madina Sukhanova

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Formalin fixed paraffin embedded, business.industry, Hematology, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Neuroblastoma, Pediatrics, Perinatology and Child Health, medicine, In patient, Stage (cooking), business, Staging system, Localized neuroblastoma, Validation cohort, Comparative genomic hybridization

Abstract

Background Array comparative genomic hybridization (CGH) analyses of frozen tumors have shown strong associations between the pattern of chromosomal aberrations and outcome in patients with advanced-stage neuroblastoma. New platforms for analyzing chromosomal aberrations using formalin-fixed paraffin-embedded (FFPE) tissue have recently been developed. We sought to determine whether chromosomal microarray analysis (CMA) using FFPE tumors is feasible and if segmental chromosomal aberrations were prognostic of recurrence in localized neuroblastoma. Methods Patients with MYCN nonamplified International Neuroblastoma Staging System stage 1 and 2 disease who recurred were identified. CMA was performed with diagnostic FFPE samples using OncoScan™ FFPE Express 2.0. The prognostic significance of chromosomal pattern was validated in 105 patients with available CGH results. Results In 26 evaluable patients, 11 recurred locally, nine had metastatic relapse, and six remained progression free >3 years from diagnosis. No chromosomal aberrations were identified in four tumors. Numerical chromosomal aberrations (NCAs) without segmental chromosomal aberration (SCA) were identified in 11 patients: six progressed locally, two had metastatic progression and 3 remained progression-free. Eleven patients had SCAs: four progressed locally, six developed metastatic progression and one remained progression-free. Five or more SCAs were only detected in tumors from patients who developed metastases (P = 0.0004). In the validation cohort, SCAs were associated with inferior event-free survival (EFS) compared to NCA (5-year EFS 68% ± 8.3% vs. 91% ± 3.6%, respectively; P = 0.0083). Conclusions It is feasible to evaluate chromosomal aberrations using FFPE neuroblastoma tissue. SCA is associated with inferior EFS in localized neuroblastoma patients, and multiple SCAs may be predictive of metastatic relapse.

Published

2016

14. Abstract A06: The added value of examining germline variants in a precision cancer therapy study

Author

Margaret E. Macy, Amit J. Sabnis, Katherine A. Janeway, Neal I. Lindeman, Alanna J. Church, Laura Corson, Susan I. Vear, Daniel A. Weiser, Navin R. Pinto, Samuel L. Volchenboum, Julia Glade-Bender, Jaclyn Schienda, Jonathan A. Nowak, Wenjun Kang, Alma Imamovic-Tuco, Joshua D. Schiffman, AeRang Kim, Catherine Clinton, Theodore W. Laetsch, Danielle K. Manning, Brian D. Crompton, Luke Maese, Rochelle Bagatell, Mark A. Applebaum, and Junne Kamihara

Subjects

Genetics, Cancer Research, medicine.diagnostic_test, Somatic cell, business.industry, Genomics, Pediatric cancer, Germline, Oncology, medicine, Clinical significance, business, Gene, CHEK2, Genetic testing

Abstract

Introduction: Tumor profiling is becoming a more routine part of clinical care. Many academic centers and commercial entities offer tumor sequencing of cancer-related genes without matched germline profiling. We hypothesize that tumor-only sequencing may limit full clinical interpretation and have decreased sensitivity to identify significant germline variants. Methods: The Genomic Assessment Improves Novel Therapy (GAIN) Consortium is a clinical cancer genomics study for patients with high-risk solid malignancies. Patients in this study were selected for subanalysis if panel sequencing of 447 genes was performed on a tumor and interpreted by an expert panel prior to the availability of matched germline sequencing. Interpretation of tumor sequencing included both therapeutic recommendations and a curation of cancer-related variants of potential clinical significance if present in the germline. Germline sequencing was separately performed targeting 147 genes (a subset of the somatic panel) and analyzed with a germline-specific pipeline to identify and filter variants. We examined clinical recommendations in the somatic reports that were based on single-nucleotide variants identified from the 147 overlapping genes. We compared these interpretations with results from the matched germline data. Results: We identified 159 participants with somatic and germline sequencing reports meeting the eligibility criteria. Germline sequencing identified 38 pathogenic or likely pathogenic (P/LP) germline variants in 35 of 159 patients (22%). Of those 35 patients, 17 (49%) had a P/LP variant in an autosomal dominant cancer predisposition gene, 19 (54%) in an autosomal recessive gene, and 1 (2.9%) in a noncancer gene. Of the 38 total variants, 21 (55%) were identified by the analytic pipeline used for somatic sequencing and noted as potential germline variants in the somatic reports. Forty treatment recommendations were made from the somatic data within the overlapping genes. Ten (25%) treatment recommendations were based on variants that were later determined to be germline. These included variants in TP53, SDHA, SMARCA4, TSC2, FAM175A, CHEK2, and AKT1, many of which were noted in the somatic reports to be variants of uncertain significance or possibly germline. Conclusions: In this study, we found that clinically actionable germline variants were under-reported when relying on analytical pipelines and clinical interpretations developed for the analysis of tumor samples. In the absence of germline sequencing, we also found that cancer treatment recommendations can be made based on mutations identified from tumor sequencing that are germline variants. In many cases, these recommendations remain appropriate (e.g., PARP inhibitors for BRCA1/2) while in other cases germline data facilitated a more nuanced interpretation of actionability. These findings support the use of germline genetic testing and paired tumor-germline analysis in precision cancer medicine studies. Citation Format: Jaclyn Schienda, Catherine M. Clinton, Laura B. Corson, Alma Imamovic-Tuco, Navin Pinto, Luke Maese, Theodore W. Laetsch, AeRang Kim, Susan I. Vear, Margaret E. Macy, Mark A. Applebaum, Rochelle Bagatell, Amit J. Sabnis, Daniel A. Weiser, Julia L. Glade-Bender, Samuel L. Volchenboum, Wenjun Kang, Danielle Manning, Jonathan Nowak, Joshua Schiffman, Neal I. Lindeman, Alanna J. Church, Katherine A. Janeway, Brian D. Crompton, Junne Kamihara. The added value of examining germline variants in a precision cancer therapy study [abstract]. In: Proceedings of the AACR Special Conference on the Advances in Pediatric Cancer Research; 2019 Sep 17-20; Montreal, QC, Canada. Philadelphia (PA): AACR; Cancer Res 2020;80(14 Suppl):Abstract nr A06.

Published

2020

15. Abstract B67: EGFR as a target in pediatric solid tumors

Author

Catherine M. Albert, Erin R. Rudzinski, Navin R. Pinto, and Julie R. Park

Subjects

Cancer Research, Desmoplastic small-round-cell tumor, biology, business.industry, Cancer, medicine.disease, Pediatric cancer, Synovial sarcoma, Oncology, Epidermal growth factor, medicine, Cancer research, biology.protein, Germ cell tumors, Sarcoma, Epidermal growth factor receptor, business

Abstract

The epidermal growth factor receptor (EGFR or HER1) is a cell surface tyrosine kinase receptor that is expressed in a diverse group of epithelial and nonepithelial tissues and broadly associated with cell proliferation and differentiation. Expression of wild-type EGFR and activating mutations are described in many malignancies, including a variety of pediatric solid tumors. In the setting of malignancy, EGFR has been associated with aggressive disease, chemotherapy resistance, and increased metastatic potential. Employment of anti-EGFR agents has yielded some promising results, but they are not always effective against all cancer-associated aberrant EGFR expression and are frequently associated with notable off-tumor toxicities due to the expression of EGFR in normal tissue. The unique EGFR monoclonal antibody (mAb) 806 selectively binds to an epitope on the extracellular portion of human EGFR expressed on the surface of tumor cells. This antibody recognizes the deletion mutant EGFRvIII commonly present in glioblastomas and some other solid tumors as well as wild-type EGFR. We designed a phase I trial for pediatric and young adult patients with recurrent or refractory solid tumors expressing epidermal growth factor (EGFR) to examine the safety and feasibility of administering autologous, peripheral blood-derived T cells that have been genetically modified to express a second-generation (2G) EGFR806-specific chimeric antigen receptor (CAR). Literature review and evaluation of EGFR immunohistochemistry (IHC) performed on several tissue microarrays were used to estimate the percentage of EGFR positivity among common subtypes of pediatric cancer. Using these tools, we hypothesized that 15-40% of otherwise eligible patients would meet the eligibility criteria of EGFR positivity. The trial opened in August of 2018. To date, a total of 33 patient tumors have undergone EGFR IHC to determine eligibility for the trial. 9/33 (27.3%) have been EGFR+. EGFR+ histologies include BCOR fusion sarcoma (3), germ cell tumor (2), osteosarcoma, Ewing sarcoma, desmoplastic small round cell tumor, and synovial sarcoma. Our eligibility testing thus far demonstrates EGFR expression by IHC in a variety of histologies. Two rare diseases, recurrent BCOR fusion sarcoma and refractory germ cell tumors, have demonstrated a significantly higher rate of EGFR IHC positivity, (3/3)100% and (2/3) 66.7%, respectively. These early results indicate that this trial and other anti-EGFR therapies may be most effectively targeted to certain subgroups of pediatric cancer patients. Citation Format: Catherine M. Albert, Navin R. Pinto, Erin R. Rudzinski, Julie R. Park. EGFR as a target in pediatric solid tumors [abstract]. In: Proceedings of the AACR Special Conference on the Advances in Pediatric Cancer Research; 2019 Sep 17-20; Montreal, QC, Canada. Philadelphia (PA): AACR; Cancer Res 2020;80(14 Suppl):Abstract nr B67.

Published

2020

16. Abstract A28: Targeted sequencing in 388 patients with high-risk or recurrent/refractory pediatric extracranial solid malignancies: An interim report from the GAIN Consortium/iCat2 Study

Author

Wendy B. London, Luke Maese, Katherine A. Janeway, Theodore W. Laetsch, Steven G. DuBois, Neal I. Lindeman, AeRang Kim, Pei-Chi Kao, Duong Doan, Brian D. Crompton, Navin R. Pinto, Suzanne J. Forrest, R. Seth Pinches, Deirdre Reidy, Laura Corson, Lobin A. Lee, Samuel L. Volchenboum, Mark A. Applebaum, Alanna J. Church, Catherine Clinton, Wenjun Kang, Margaret E. Macy, Laura E. MacConaill, Seong Choi, and Susan I. Vear

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Chemotherapy, business.industry, medicine.medical_treatment, medicine.disease, medicine.disease_cause, Pediatric cancer, Targeted therapy, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, CDKN2A, 030220 oncology & carcinogenesis, Internal medicine, medicine, Sarcoma, KRAS, Rhabdomyosarcoma, business, Interim report

Abstract

Background: Gene variants with potential therapeutic significance have been reported in 30-60% of childhood malignancies. The 12-institution Genomic Assessment Informs Novel therapy (GAIN) consortium is conducting the individualized cancer therapy 2 (iCat2) study (NCT02520713) with the objective of evaluating the impact of tumor profiling on outcome. We provide an interim report on patients enrolled on the ongoing GAIN/iCat2 study. Methods and Objectives: Patients are eligible if they have a high-risk, recurrent/refractory (RR), or difficult-to-diagnose extracranial solid tumor diagnosed at ≤30 years and adequate sample available for sequencing. A next-generation targeted panel assay is performed. Results are returned with a GAIN report containing clinical interpretation, including an individualized cancer therapy (iCat) recommendation if there is evidence supporting a link between an identified variant and response to molecularly targeted therapy. iCat recommendations are tiered from 1 to 5 based on the level of clinical and preclinical support, with tier 1 being the highest and tier 5 the lowest. Potential extraordinary responders are selected for further review based on having treatment duration of ≥1 year for chemotherapy or ≥4 months or a partial response for targeted therapy. Results: 388 eligible patients were enrolled by 1/1/2019 with the most common diagnoses being osteosarcoma, Ewing sarcoma, and rhabdomyosarcoma. 366 patients (94%) have had at least one successful sequencing result, with 349 having molecular and GAIN reports suitable for inclusion in this analysis. 68% of patients (237/349) have received iCat recommendations, with 41% (143/349) having the highest tier of 1-2 and 27% (94/349) having a highest tier of 3-5. Common genes for which tier 1-2 iCat recommendations were made include TP53 (15%), SMARCB1 (4%), PIK3CA (3%), CDK4 (2%), and KRAS (2%). Common alterations for which tier 3-5 recommendations were made include EWSR1 fusions (12%), MYC/MYCN amplifications (8%), and CDKN2A deletions (7%). Of 170 RR patients with treatment follow-up data entered as of June 2019, 15% (25/170) have received matched targeted therapy. Six of these (24%) are considered extraordinary responders. Of note, extraordinary responses were also seen with some second-line chemotherapy and multitargeted kinase inhibitors. Conclusions: The proportion of patients with clinically significant gene variants is higher in this study than in some previous reports. Providing an iCat recommendation for alterations in genes such as TP53 where evidence is mixed, increased availability of molecularly targeted therapy trials, and more evidence may all be responsible for this increased rate. Reassessment of iCat recommendation tiers based on current evidence is ongoing. Extraordinary responses occur in a subset of children with extracranial solid malignancies who receive matched targeted therapy. Study enrollment is ongoing with further assessments of the impact of tumor profiling on outcome planned. Citation Format: Laura B. Corson, Alanna J. Church, Deirdre Reidy, Pei-Chi Kao, Wenjun Kang, Navin Pinto, Luke Maese, Theodore W. Laetsch, AeRang Kim, Susan I. Vear, Margaret E. Macy, Mark A. Applebaum, Lobin A. Lee, Duong Doan, R. Seth Pinches, Seong Choi, Suzanne J. Forrest, Catherine M. Clinton, Brian D. Crompton, Laura E. MacConaill, Samuel L. Volchenboum, Neal I. Lindeman, Steven G. DuBois, Wendy B. London, Katherine A. Janeway. Targeted sequencing in 388 patients with high-risk or recurrent/refractory pediatric extracranial solid malignancies: An interim report from the GAIN Consortium/iCat2 Study [abstract]. In: Proceedings of the AACR Special Conference on the Advances in Pediatric Cancer Research; 2019 Sep 17-20; Montreal, QC, Canada. Philadelphia (PA): AACR; Cancer Res 2020;80(14 Suppl):Abstract nr A28.

Published

2020

17. Abstract A59: Sequencing identifies diagnostically relevant alterations in pediatric solid tumor patients

Author

Julia Glade Bender, Brian D. Crompton, Daniel A. Weiser, Neal I. Lindeman, Dierdre Reidy, Steven G. DuBois, Gianna R. Strand, Alanna J. Church, Katherine A. Janeway, Rochelle Bagatell, Luke Maese, Alma Imamovic-Tuco, Amit J. Sabnis, Robert S. Pinches, Duong Doan, Laura Corson, Navin R. Pinto, Catherine Clinton, Eliezer M. Van Allen, Theodore W. Laetsch, Marian H. Harris, Lobin A. Lee, Mark A. Applebaum, Susan I. Vear, and Margaret E. Macy

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Cancer, Pediatric Solid Tumor, medicine.disease, Pediatric cancer, Internal medicine, medicine, Alveolar rhabdomyosarcoma, Osteosarcoma, Sarcoma, Copy-number variation, Prospective cohort study, business

Abstract

Introduction: Molecular techniques have been incorporated into the diagnostic algorithms for many specific tumors, but the diagnostic role of next-generation sequencing has not been described at a population level. We report diagnostically relevant alterations identified by large-scale sequencing in a prospective cohort of pediatric solid tumors. Methods and Objectives: Patients are eligible for the GAIN / iCat2 study if they have a high-risk, recurrent, or refractory extracranial solid tumor diagnosed at age 30 or less and have an adequate sample for sequencing available. After informed consent, tumor was sequenced using a next-generation sequencing assay that evaluates 447 genes and includes data about sequence variants, copy number alterations, and, in selected genes, translocations. Some cases received additional sequencing via RNASeq or targeted RNA sequencing for further evaluation of fusions. Diagnostic relevance was determined according to AMP/ASCO/CAP standards and guidelines for the reporting of sequence variants in cancer. Results: 349 patients were enrolled as of December 31, 2018, and had tumor tissue successfully sequenced. These patients represent 60 unique diagnoses according to the WHO ICD-O classification. The most common single diagnoses were osteosarcoma (n=64), Ewing sarcoma (n=44), and alveolar rhabdomyosarcoma (n=32). For 349 patients, 184 (53%) had one or more genetic alterations that were diagnostically relevant, of which 159 (86%) were structural variants, 16 (8%) were sequence variants, and 9 (5%) were copy number variations. Alterations of high diagnostic relevance include CIC-DUX4 fusions in sarcoma (n=8), TP53 intron 1 rearrangements in osteosarcoma (n=26), DICER1 sequence variants in various tumors (n=7), and BCOR internal tandem duplications in clear-cell sarcoma of kidney and primitive myxoid mesenchymal tumor of infancy (n=3). Conclusions: Diagnostically relevant alterations were identified in over half of pediatric solid tumor patients evaluated. Gene fusions are particularly prevalent. These results support a role for sequencing that includes robust fusion assessment to inform diagnosis in patients with pediatric solid tumors. Citation Format: Alanna J. Church, Laura B. Corson, Alma Imamovic-Tuco, Gianna R. Strand, Dierdre Reidy, Duong Doan, Robert S. Pinches, Mark A. Applebaum, Rochelle Bagatell, Brian D. Crompton, Steven G. DuBois, Julia L. Glade Bender, Theodore W. Laetsch, Lobin A. Lee, Neal I. Lindeman, Marian H. Harris, Margaret E. Macy, Luke Maese, Navin Pinto, Amit J. Sabnis, Eliezer M. Van Allen, Susan I. Vear, Daniel A. Weiser, Catherine M. Clinton, Katherine A. Janeway. Sequencing identifies diagnostically relevant alterations in pediatric solid tumor patients [abstract]. In: Proceedings of the AACR Special Conference on the Advances in Pediatric Cancer Research; 2019 Sep 17-20; Montreal, QC, Canada. Philadelphia (PA): AACR; Cancer Res 2020;80(14 Suppl):Abstract nr A59.

Published

2020

18. Abstract B13: Leveraging cloud-based computational resources for gene fusion discovery with potential clinical implications for pediatric solid tumor patients

Author

Brian D. Crompton, Daniel A. Weiser, Julia Glade-Bender, Alma Imamovic, Amit J. Sabnis, Catherine Clinton, AeRang Kim, Susan I. Vear, R. Seth Pinches, Katherine A. Janeway, Luke Maese, Alanna J. Church, Rochelle Bagatell, Laura Corson, Margaret E. Macy, Deirdre Reidy, Lobin A. Lee, Mark A. Applebaum, Theodore W. Laetsch, Gianna R. Strand, Navin R. Pinto, Eliezer M. Van Allen, Steven G. DuBois, and Neal I. Lindeman

Subjects

Cancer Research, business.industry, medicine.medical_treatment, Cancer, Computational biology, Pediatric Solid Tumor, medicine.disease, Pediatric cancer, Genome, Targeted therapy, Fusion gene, Oncology, Medicine, Cancer gene, Functional studies, business

Abstract

Introduction: Gene fusions are important oncogenic drivers with significant clinical impact in some cancer types. This is particularly true in pediatric cancers that often have low mutational burden and lack other diagnostic markers and therapeutic targets. Many gene fusions are rare or private to the individual patient and can be difficult to detect with methods optimized for common fusions. Unbiased sequencing methods and expansive computational resources are needed for expanding our ability to characterize fusions. Building a comprehensive catalog of oncogenic gene fusions will improve our understanding of their diversity and fully harness their potential for clinical impact. Methods: Patients are eligible for the GAIN/iCat2 study if they have been diagnosed with high-risk or recurrent/refractory extracranial solid tumor at age 30 or less and have a sample available for sequencing. Enrolled patients with an unclear diagnosis after standard clinical testing are nominated for transcriptome sequencing by the study investigators. We developed a computational pipeline in Google Cloud for gene fusion discovery utilizing paired end Illumina RNA-Seq data, multiple fusion callers, and a custom algorithm for integrative data analysis. The multicaller fusion detection approach enables us to address the high false-positive rate typical for gene fusion calling in transcriptomic data while improving the sensitivity to detect the more challenging fusions. After filtering, the fusions are annotated using the databases of known fusions and cancer genes. The predicted fusion transcripts are inspected visually, and the fusions are selected based on relevance to diagnostic classification or therapy to be validated by an orthogonal method. Results: 41 tumor samples were sequenced and analyzed for gene fusions. A total of 203 candidate fusions were detected by two or more fusion callers. Based on functional annotations and potential impact on diagnosis or therapeutic approaches, 12 fusion transcripts of interest were identified, 10 of which were validated by either pre-enrollment testing or an orthogonal method. Of 16 mesenchymal cases, 6 validated fusions had diagnostic relevance and 3 validated fusions had therapeutic implications (ERC1-BRAF, RBPMS-NTRK2, and VCAN-IL23R). Two patients responded to matched targeted therapy. In one case, diagnostic classification was revised. Conclusions: Whole-transcriptome sequencing in this selected patient population identified some fusion transcripts with clinical relevance. Determining the biologic significance of previously unreported fusions will require orthogonal sequencing such as whole genome, functional studies, and analysis of larger patient populations. Improved accuracy and scalability of methods for large-scale gene fusion analysis in the growing public datasets are likely to expand the landscape of gene fusions in cancer. Citation Format: Alma Imamovic, Alanna J. Church, Laura B. Corson, Deirdre Reidy, Navin Pinto, Luke Maese, Theodore W. Laetsch, AeRang Kim, Susan I. Vear, Margaret E. Macy, Mark A. Applebaum, Rochelle Bagatell, Amit J. Sabnis, Daniel A. Weiser, Julia L. Glade-Bender, Gianna R. Strand, Lobin A. Lee, R. Seth Pinches, Catherine M. Clinton, Brian D. Crompton, Neal I. Lindeman, Steven G. DuBois, Katherine A. Janeway, Eliezer M. Van Allen. Leveraging cloud-based computational resources for gene fusion discovery with potential clinical implications for pediatric solid tumor patients [abstract]. In: Proceedings of the AACR Special Conference on the Advances in Pediatric Cancer Research; 2019 Sep 17-20; Montreal, QC, Canada. Philadelphia (PA): AACR; Cancer Res 2020;80(14 Suppl):Abstract nr B13.

Published

2020

19. Circulating stromal cells as a potential blood-based biomarker for screening invasive solid tumors

Author

Amy K. Kim, Kazuaki Chikamatsu, Susan Tsai, Rena G. Lapidus, Cha-Mei Tang, Raymond C. Bergan, Thai H. Ho, Jeffrey R. Marks, David M Loeb, Sreeraj G. Pillai, Rebecca Aft, Mark A. Watson, R. Katherine Alpaugh, Navin R. Pinto, Harvey I. Pass, Saranya Chumsri, Daniel L. Adams, Martin J. Edelman, Steven H. Lin, and Masanori Hayashi

Subjects

Cancer Research, Stromal cell, Oncology, business.industry, Blood based biomarkers, Cancer research, Medicine, Cancer, business, medicine.disease, Peripheral blood

Abstract

3535 Background: Peripheral blood allows for a simple non-invasive method for isolating various cancer associated circulating stromal cells (CStCs) which may predict for cancer presence. Cancer Associated Macrophage-Like cells (CAMLs), a specific CStC, are phagocytic myeloid cells that derive from an immunological response to cancer and emanate from primary tumors. Using a filtration platform we screened the peripheral blood of untreated newly diagnosed cancer patients (n = 308) for CAMLs. In parallel, we screened patients with newly diagnosed non-malignant diseases, i.e. lupus, benign cysts, etc. (n = 39), and healthy control samples (n = 76). We found that CAMLs are highly prevalent (87%) in the blood of cancer patients, but uncommon in non-malignant conditions (20%) & absent in healthy individuals (0%). Methods: Anonymized peripheral blood were taken from 308 cancer patients after confirmation of invasive malignancy [stage I (n = 76), stage II (n = 73), stage III (n = 72), stage IV (n = 65) and unstaged non-metastatic (n = 22)] with pathologically confirmed lung (n = 65), pancreas (n = 53), breast (n = 52), prostate (n = 40), esophageal (n = 30), renal cell (n = 18), hepatocellular (n = 15), neuroblastoma (n = 10), melanoma (n = 8), and other (n = 17). Further, anonymized blood was taken from patients with untreated non-malignant conditions including benign breast masses (n = 19), lupus (n = 11), liver cirrhosis (n = 5), benign prostatic hyperplasia (BPH) (n = 3), and viral infection (n = 1); or from healthy control volunteers (n = 76). CAMLs were isolated from whole peripheral blood by the CellSieve™ microfiltration technique and defined as enlarged, multinuclear cells with cytokeratin and/or CD45/CD14 positive. Results: CAMLs were found in 87% of all cancer patients regardless of stage, ~5.4 CAMLs/7.5mL blood. Specifically, CAMLs were found in 80% of Stage I, 90% Stage II, 89% Stage III, and 97% Stage IV patients. No CAMLs were found in any healthy controls, but were found in 26% of benign breast masses, 18% of lupus, 0% of BPH and 0% of cirrhosis. In total, CAML sensitivity in cancer vs healthy was 87% (CI95% 82-90%), specificity = 100% (CI95% 95-100%), PPV = 100% (CI95% 100%), NPV = 67% (CI95% 58-71%). CAML sensitivity in cancer vs benign was 87% (CI95% 82-90%), specificity = 80% (CI95% 64-91%), PPV = 97% (CI95% 95-98%), NPV = 43% (CI95% 35-51%). Conclusions: CAMLs, a Circulating Stromal Cell subtype, is a sensitive blood based biomarker found in all stages of cancer that is rare in non-malignant conditions and absent in healthy individuals.

Published

2020

20. Segmental chromosome aberrations and clinical response impact outcome of inss stage III patients ≥18 months with unfavorable histology and without MYCN amplification: A Children’s Oncology Group (COG) report

Author

Shahab Asgharzadeh, Rachelle Tibbetts, Emily Hibbitts, Navin R. Pinto, Arlene Naranjo, Rebekah J. Kennedy, Xiangming Ding, Julie R. Park, Michael D. Hogarty, Susan G. Kreissman, Meredith S. Irwin, and Ruthann Pfau

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Chromosome, Histology, Heterogeneous population, Cog, Disease Presentation, Internal medicine, Mycn amplification, medicine, Stage (cooking), business, Stage III Neuroblastoma

Abstract

10502 Background: Patients with INSS stage III neuroblastoma represent a heterogeneous population with respect to disease presentation and prognosis and controversy exists regarding the most effective treatment algorithms. Patients ≥18 months of age with INSS Stage 3 tumors that are unfavorable histology (UH) and MYCN-non-amplified ( MYCN-NA) represent a small cohort of patients with an outcome intermediate of those with favorable histology tumors and MYCN amplified tumors. The presence of Segmental Chromosome Aberrations (SCA) may predict outcome; however, their impact specifically in this cohort of patients has not been reported. Methods: Eligible patients enrolled on therapeutic protocols A3973 (n=34), ANBL0532 (n=27), and biology protocol ANBL00B1 (n=101 with 29 treated on A3973/ANBL0532) with stage III disease, MYCN–NA, UH and age ≥18 months at diagnosis were analyzed. Copy number alterations and loss of heterozygosity (LOH) for relevant loci were scored for gains/losses by two independent reviewers. Results: The 5-year EFS/OS for children ≥18 months with stage III, MYCN–NA, UH disease treated on A3973 and ANBL0532 was 73.0±8.1%/87.9±5.9% and 61.4±10.2%/ 73.0±9.2%, respectively, with no statistical differences in EFS or OS between the two cohorts (p=0.1286 and p=0.2180, respectively). In the combined cohort of patients enrolled on A3973 and ANBL0532, statistically significant differences were found (p(s)

Published

2020

21. Phase I study of tazemetostat, an enhancer of zeste homolog-2 inhibitor, in pediatric pts with relapsed/refractory integrase interactor 1-negative tumors

Author

Lindsay Kilburn, Laura Sierra, Melinda S. Merchant, Giles W. Robinson, Margaret E. Macy, Joanna Yi, Cynthia Wetmore, Theodore W. Laetsch, Karsten Nysom, Franck Bourdeaut, Navin R. Pinto, Michela Casanova, Ashley Margol, Maryam Fouladi, Guy Makin, David H. Ebb, Geoffrey McCowage, Susan N. Chi, Neerav Shukla, and Darren Hargrave

Subjects

Cancer Research, Tazemetostat, business.industry, Epithelioid sarcoma, Rhabdoid tumors, EZH2, medicine.disease, Phase i study, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Relapsed refractory, Cancer research, Medicine, business, Integrase interactor 1, 030215 immunology

Abstract

10525 Background: Absence of integrase interactor 1 (INI1) expression is a defining molecular feature of rhabdoid tumors (RT), epithelioid sarcoma (ES), and chordomas, inducing dependence on enhancer of zeste homolog-2 (EZH2). Tazemetostat (TAZ) is a selective EZH2 inhibitor approved by the FDA for treatment of patients (pts) ≥16 yrs with metastatic or locally advanced ES ineligible for complete resection. Data from a Phase 1 (Ph1) pediatric dose-escalation study (Ph1a) of TAZ were previously reported; herein we report interim efficacy and safety from the Ph1 pediatric dose-expansion study (Ph1b). Methods: NCT02601937 is a Ph1, multicenter study in pts 6 months – 18 yrs evaluating TAZ administered BID at 1200 mg/m2 in Ph1b, per Ph1a recommendation. Ph1b cohorts enrolled pts based on tumor type: Atypical teratoid RT (ATRT), RT, and other INI1-negative tumors (including ES and chordoma). The Ph1b primary endpoint was overall response rate (ORR). Secondary endpoints included safety/tolerability, duration of response (DOR), and survival. Results: Ph1b has enrolled 47 pts who received TAZ oral suspension. Across all tumor types, ORR was 17% (Table). Responses were observed in ATRT (4/21), chordoma (2/4), and ES (2/7); 1 pt dosed at 520mg/m2 and 7pts at 1200mg/m2. In the ATRT cohort, 19% of pts responded to TAZ with a median DOR of 6.5 months. The median DOR has not yet been reached in the other cohorts, with ongoing responses in 3 pts. TAZ was generally well tolerated with no drug-related deaths. Most common adverse events (AE) include vomiting, nausea, and cough. During Ph1b enrollment, 1 pt with chordoma (dosed at TAZ 900 mg/m2 for 15 months in Ph1a) developed a secondary malignancy (T-cell lymphoblastic lymphoma). In response, the pediatric recommended Ph2 dose was revised to limit exposure in pts without CNS involvement to 520 mg/m2 TAZ (maximum dosing of 1 yr after response, pts to go off-treatment until disease progression). Conclusions: Interim results indicate TAZ is generally well tolerated in children with an AE profile similar to adults. Pt enrollment in the non-ATRT, INI1-negative cohorts is ongoing. TAZ shows promising anti-tumor activity in a subset of pediatric tumors, including ATRT, chordoma, and ES. Clinical trial information: NCT02601937. [Table: see text]

Published

2020

22. Outcome in patients with refractory high-risk neuroblastoma

Author

Ian Wolfe, Ami V. Desai, Cindy Yuan, Katherine Berg, Guimin Gao, Valeria Smith, Akosua Oppong, Susan L. Cohn, Jennifer Foster, Navin R. Pinto, Kyle MacQuarrie, Rajen Mody, Anurekha Gollapudi, Elizabeth A. Sokol, Suzanne Shusterman, Rochelle Bagatell, and Amir Siddiqui

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Refractory Disease, medicine.disease, Irinotecan, Refractory, Internal medicine, Neuroblastoma, medicine, End of induction, High risk neuroblastoma, In patient, business, medicine.drug

Abstract

10537 Background: Outcome for high-risk neuroblastoma (HRNBL) patients (pts) with refractory disease at end of induction (EOI) is poor. The impact of therapies such as I-131-MIBG or irinotecan/temozolomide/dinutuximab (I/T/DIN) prior to autologous stem cell transplant (ASCT) on outcome is unknown. Methods: A multi-center, retrospective study of HRNBL pts diagnosed between 2008-2018 with refractory disease at EOI was conducted. Demographics, tumor biology, treatment response, and outcomes were abstracted. 3-year (yr) EFS and OS from time of diagnosis were estimated by the Kaplan-Meier method. Results: 3-yr EFS and OS were 54% and 79% for the 136 pts analyzed. 91 pts received no additional therapy prior to ASCT (Cohort 1); 32 pts received post-induction therapy prior to ASCT (Cohort 2); and 13 pts did not undergo ASCT (Cohort 3). The prevalence of metastatic disease in Cohort 1, 2, and 3 was 65%, 97%, and 85%. 3-yr EFS and OS were not statistically different between Cohort 1 (3-yr EFS and OS; 62% and 81%) and Cohort 2 [3-yr EFS and OS; 49% (p = 0.48) and 82% (p = 0.19)]. Outcome for Cohort 3 pts was significantly worse than Cohort 1 [3-yr EFS: 15% vs. 62% (p < .001); and 3-yr OS: 48% vs. 81% (p = 0.003)] and Cohort 2 [3-yr EFS: 15% vs. 49% (p < .001); and 3-yr OS 48% vs. 82% (p = 0.035)]. For Cohort 2 pts with metastatic disease, post-induction therapy included I/T/DIN (n = 12), MIBG (n = 16), MIBG plus I/T/DIN (n = 1), and other (n = 2). Metastatic disease response was observed in 10/12 (83%) pts who received I/T/DIN and 9/16 (56%) who received MIBG. MIBG plus I/T/DIN (n = 1) or MIBG with chemotherapy (n = 1) also induced response. Among the 21 pts with metastatic disease response, 3-yr EFS and OS were 69% and 94%; significantly better than Cohort 2 patients who did not respond to post-induction therapy [3-yr EFS and OS: 11% (p = 0.016) and 66% (p = 0.2)]. 6 Cohort 2 pts achieved a complete response (CR) in metastatic sites following I/T/DIN (n = 5) or MIBG (n = 1), and all are alive without relapse with median follow-up of 3.4 years (range 2.7-8.1). The single Cohort 3 patient who achieved a metastatic CR with I/T/DIN and did not undergo ASCT remains disease-free 2.4 years from diagnosis. Conclusions: Patient characteristics differed in the 3 Cohorts, reflecting the influence of refractory disease on treatment decisions. For Cohort 2 pts, outcome was better for those with metastatic disease at EOI who responded to post-induction therapy compared to those who did not. Pts who achieved a metastatic CR of refractory disease had excellent survival. Prospective studies testing the efficacy of I/T/DIN in pts with refractory metastatic disease at EOI are warranted.

Published

2020

23. Pembrolizumab in paediatric patients with advanced melanoma or a PD-L1-positive, advanced, relapsed, or refractory solid tumour or lymphoma (KEYNOTE-051): interim analysis of an open-label, single-arm, phase 1-2 trial

Author

Catherine Vezina, Jacek Toporski, Julia Glade-Bender, Steven G. DuBois, Susan L. Cohn, Alberto S. Pappo, Antonio Sergio Petrilli, Scott J. Diede, Theodore W. Laetsch, Margaret E. Macy, Kumudu Pathiraja, Hyoung Jin Kang, Lynley V. Marshall, Martin Ebinger, Navin R. Pinto, Elizabeth Fox, Scot Ebbinghaus, Wayne Nicholls, Michal Yalon-Oren, and Birgit Geoerger

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Adolescent, Lymphoma, Salvage therapy, Pembrolizumab, Antibodies, Monoclonal, Humanized, B7-H1 Antigen, Cohort Studies, 03 medical and health sciences, 0302 clinical medicine, Antineoplastic Agents, Immunological, Internal medicine, Neoplasms, Refractory Hodgkin Lymphoma, Medicine, Humans, Adverse effect, Child, Survival rate, Melanoma, Salvage Therapy, business.industry, Infant, Interim analysis, medicine.disease, Prognosis, Survival Rate, Malignant rhabdoid tumour, Editorial Commentary, 030104 developmental biology, Oncology, Tolerability, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Child, Preschool, Female, Neoplasm Recurrence, Local, business, Follow-Up Studies

Abstract

Summary Background Pembrolizumab is approved for the treatment of advanced cancer in adults; however, no information is available on safety and efficacy in paediatric patients. We aimed to establish the recommended phase 2 dose of pembrolizumab and its safety and antitumour activity in advanced paediatric cancer. Methods KEYNOTE-051 is an ongoing phase 1–2 open-label trial. In this interim analysis, children aged 6 months to 17 years were recruited at 30 hospitals located in Australia, Brazil, Canada, France, Germany, Israel, Italy, South Korea, Sweden, the UK, and the USA. Patients with melanoma or a centrally confirmed, PD-L1-positive, relapsed or refractory solid tumour or lymphoma, and a Lansky Play/Karnofsky Performance status score of 50 or higher, received intravenous pembrolizumab at an initial dose of 2 mg/kg every 3 weeks. Pharmacokinetics and dose-limiting toxicities were used to establish the recommended phase 2 dose, and the safety and antitumour activity of this dose were assessed. Primary endpoints were determination of dose-limiting toxicities at the maximum administered dose, safety and tolerability, and the proportion of patients with objective response to pembrolizumab for each tumour type according to the Response Evaluation Criteria in Solid Tumours version 1.1 or the International Neuroblastoma Response Criteria. Safety and efficacy were assessed in all treated patients who received at least one dose of pembrolizumab. Separate reporting of the cohort of patients with relapsed or refractory classical Hodgkin lymphoma was a post-hoc decision. The data cutoff for this interim analysis was Sept 3, 2018. This trial is still enrolling patients and is registered with ClinicalTrials.gov , number NCT02332668 . Findings Of 863 patients screened between March 23, 2015, and Sept 3, 2018, 796 had tumours that were evaluable for PD-L1 expression (278 [35%] were PD-L1-positive); 155 eligible patients were enrolled and 154 had at least one dose of pembrolizumab. The median age of the enrolled patients was 13 years (IQR 8–15). Median follow-up was 8·6 months (IQR 2·5–16·4). No dose-limiting toxicities were reported in phase 1, and pembrolizumab plasma concentrations were consistent with those previously reported in adults; the recommended phase 2 dose was therefore established as 2 mg/kg every 3 weeks. Of the 154 patients treated, 69 (45%) experienced grade 3–5 adverse events, most commonly anaemia in 14 (9%) patients and decreased lymphocyte count in nine (6%) patients. 13 (8%) of the 154 patients had grade 3–5 treatment-related adverse events, most commonly decreased lymphocyte count in three (2%) patients and anaemia in two (1%) patients. 14 (9%) patients had serious treatment-related adverse events, most commonly pyrexia (four [3%]), and hypertension and pleural effusion (two [1%] each). Four patients (3%) discontinued treatment because of treatment-related adverse events, and two (1%) died (one due to pulmonary oedema and one due to pleural effusion and pneumonitis). Of 15 patients with relapsed or refractory Hodgkin lymphoma, two had complete and seven had partial responses; thus, nine patients achieved an objective response (60·0%; 95% CI 32·3–83·7). Of 136 patients with solid tumours and other lymphomas, eight had partial responses (two patients each with adrenocortical carcinoma and mesothelioma, and one patient each with malignant ganglioglioma, epithelioid sarcoma, lymphoepithelial carcinoma, and malignant rhabdoid tumour); the proportion of patients with an objective response was 5·9% (95% CI 2·6–11·3). Interpretation Pembrolizumab was well tolerated and showed encouraging antitumour activity in paediatric patients with relapsed or refractory Hodgkin lymphoma, consistent with experience in adult patients. Pembrolizumab had low antitumour activity in the majority of paediatric tumour types, and responses were observed in only a few rare PD-L1-positive tumour types, suggesting that PD-L1 expression alone is not sufficient as a biomarker for the selection of paediatric patients who are likely to respond to PD-1 checkpoint inhibitors. Final results of KEYNOTE-051, expected by September, 2022, with the possibility for extension, will report further on the activity of pembrolizumab in Hodgkin lymphoma, microsatellite instability-high tumours, and melanoma. Funding Merck Sharp & Dohme, a subsidiary of Merck & Co.

Published

2018

24. Molecular Targeted Therapy of Pediatric Neoplasms

Author

Navin R. Pinto and Elizabeth A. Sokol

Subjects

Oncology, medicine.medical_specialty, business.industry, medicine.medical_treatment, Chromosomal translocation, Immunotherapy, Precision medicine, Refractory cancer, Pediatric cancer, Targeted therapy, Loss of heterozygosity, Internal medicine, medicine, Pediatric oncology, business

Abstract

Survival in pediatric cancer has overall increased significantly over the last several decades. However outcomes for patients with a subset of aggressive pediatric malignancies as well as those with relapsed and refractory cancer remain very poor. New targeted therapies are needed for these diseases. There are fewer mutations found in pediatric cancers than in most adult cancers, and more often, there is a single genetic driver caused by either a translocation or loss of heterozygosity.

Published

2018

25. Autologous Stem Cell Transplantation Added to Standard Chemotherapy, Hipec Surgery, and Whole Abdominal Radiation is Well Tolerated and May Increases Progression Free Survival in Patients with Desmoplastic Small Round Cell Tumors

Author

Michele L. Nassin, Gabrielle Lapping-Carr, James L. LaBelle, Hillary M. Hecktman, Caitlin Cohen, John M. Cunningham, and Navin R. Pinto

Subjects

Oncology, Transplantation, medicine.medical_specialty, Chemotherapy, business.industry, medicine.medical_treatment, Hematology, Surgery, Autologous stem-cell transplantation, Internal medicine, medicine, Round cell, In patient, Progression-free survival, business

Published

2017

26. KEYNOTE-051: An update on the phase 2 results of pembrolizumab (pembro) in pediatric patients (pts) with advanced melanoma or a PD-L1–positive advanced, relapsed or refractory solid tumor or lymphoma

Author

Wayne Nicholls, Julia Glade-Bender, Scot Ebbinghaus, Alberto S. Pappo, Jacek Toporski, Steven G. DuBois, Catherine Vezina, Theodore W. Laetsch, Lynley V. Marshall, Hyoung Jin Kang, Martin Ebinger, Kumudu Pathiraja, Susan L. Cohn, Navin R. Pinto, Elizabeth Fox, Michal Yalon-Oren, Birgit Geoerger, Antonio Sergio Petrilli, Scott J. Diede, and Margaret E. Macy

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, business.industry, Pembrolizumab, medicine.disease, PD-L1 Positive, Lymphoma, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Refractory, 030220 oncology & carcinogenesis, Internal medicine, medicine, Solid tumor, business, Advanced melanoma

Abstract

10525Background: In the phase 1 portion of KEYNOTE-051 (NCT02332668), the 2-mg/kg-Q3W dose of pembro was identified as the pediatric recommended phase 2 dose. We provide an update on the safety and...

Published

2018

27. Predictors of differential response to induction chemotherapy in high-risk neuroblastoma: A report from the Children's Oncology Group (COG)

Author

Rochelle Bagatell, Julie R. Park, Wendy B. London, Meaghan Granger, Arlene Naranjo, Emily Greengard, Steven G. DuBois, Susan G. Kreissman, Meredith S. Irwin, Emily Hibbitts, and Navin R. Pinto

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Induction chemotherapy, medicine.disease, Cog, Induction therapy, Internal medicine, Neuroblastoma, medicine, High risk neuroblastoma, business

Abstract

10532Background: Induction chemotherapy plays an important role in the management of patients with high-risk neuroblastoma. Predictors of response to Induction therapy itself are largely lacking. W...

Published

2018

28. Abstract A175: Phase 1 study of the EZH2 inhibitor, tazemetostat, in children with relapsed or refractory INI1-negative tumors including rhabdoid tumors, epithelioid sarcoma, chordoma, and synovial sarcoma

Author

Navin R. Pinto, Maryam Fouladi, Cynthia Wetmore, Scott R. Daigle, Franck Bourdeaut, Maria Roche, Geoff McCowage, Ashley Margol, Ted Laetsch, Giles W. Robinson, Guy Makin, Dave Ebb, Jill Rodstrom, Margaret E. Macy, Karsten Nysom, Alicia Clawson, Joanna Yi, Susan N. Chi, Benjamin B. Suttle, Peter T.C. Ho, Neerav Shukla, and Darren Hargrave

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Epithelioid sarcoma, Cancer, medicine.disease, Synovial sarcoma, 03 medical and health sciences, 0302 clinical medicine, Tolerability, Pharmacokinetics, 030220 oncology & carcinogenesis, Internal medicine, Pharmacodynamics, medicine, Chordoma, SMARCB1, business, 030217 neurology & neurosurgery

Abstract

Background: The defining molecular feature of rhabdoid tumors, epithelioid sarcoma (ES), and poorly differentiated chordomas is the absence of tumor expression of INI1 (SMARCB1), a subunit of the SWI/SNF chromatin remodeling complex. INI1 loss impairs SWI/SNF activity and induces a dependence on the activity of EZH2, the catalytic subunit of PRC2, a separate complex responsible for chromatin remodeling and transcriptional repression through trimethylation of lysine 27 on histone H3 (H3K27me3). Tazemetostat, a potent and selective EZH2 inhibitor, has demonstrated tumor regressions in INI1-negative preclinical malignant rhabdoid tumor (MRT) models and durable objective responses in adults with certain INI1-negative ES or chordoma. Interim results from dose escalation (DEsc) cohorts of a Phase (Ph) 1 pediatric study are reported. Methods: EZH-102 (NCT02601937) is a Ph 1, multicenter study of tazemetostat dosed continuously as an oral suspension administered twice daily (BID) in patients (pts) aged 6 months to 21 years with synovial sarcoma, or INI1-negative tumors including atypical teratoid rhabdoid tumors (ATRT), MRT, ES, chordoma, and others. A “Rolling 6” design was used for DEsc. Objective response was assessed every 8 weeks using disease-appropriate response criteria, i.e., RANO or RECIST 1.1. Primary endpoints included identification of dose-limiting toxicities (DLT) and recommended Ph 2 dose (RP2D). Secondary endpoints included characterization of safety/tolerability, pharmacokinetics (PK), and duration of response. Exploratory endpoints included assessing the relationship between tazemetostat exposure and the pharmacodynamic (PD) marker H3K27me3 in peripheral blood. Results: Forty-six pts have been treated in 7 dose cohorts: 240 (n=8), 300 (n=6), 400 (n=6), 520 (n=7), 700 (n=6), 900 (n=6), and 1200 mg/m2 BID (n=7). One pt at 300 mg/m2 had DLTs of dyspnea (grade 4)/hypoxia (grade 3), but no DLTs were observed in any other cohort. Adverse events were generally mild to moderate, consistent with the safety profile observed in adults. Plasma concentrations were generally dose-proportional across the dose range studied and were lower at steady-state on Day 15 vs. those measured on Day 1. Mean systemic exposure in the 1200 mg/m2 cohort was ~ 4-fold greater than that at the adult RP2D of 800 mg BID. A PK:PD relationship between C1D15 tazemetostat exposure and H3K27me3 levels in peripheral blood monocytes and granulocytes was observed with consistent and significant post-dose reductions in H3K27me3 at the 900 and 1200 mg/m2 doses. Confirmed complete or partial responses (CR/PR) per RECIST/RANO were observed in pts with ES (n=1), chordoma (n=2), and ATRT (n=1) at dose levels ranging from 520 to 900 mg/m2. Conclusion: Tazemetostat was generally well tolerated in children and showed promising antitumor activity including CRs in pts with INI1-negative tumors. The RP2D of 1200 mg/m2 BID was defined on the basis of PK, PD, and clinical safety, and resulted in higher systemic exposure than in adults. Dose expansion cohorts are currently enrolling. Citation Format: Susan Chi, Maryam Fouladi, Neerav Shukla, Franck Bourdeaut, Ashley Margol, Guy Makin, Geoff McCowage, Cynthia Wetmore, Margaret Macy, Ted Laetsch, Darren Hargrave, Navin Pinto, Joanna Yi, Dave Ebb, Giles Robinson, Maria Roche, Benjamin Suttle, Alicia Clawson, Peter Ho, Jill Rodstrom, Scott Daigle, Karsten Nysom. Phase 1 study of the EZH2 inhibitor, tazemetostat, in children with relapsed or refractory INI1-negative tumors including rhabdoid tumors, epithelioid sarcoma, chordoma, and synovial sarcoma [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2017 Oct 26-30; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Ther 2018;17(1 Suppl):Abstract nr A175.

Published

2018

29. Phase 1/2 KEYNOTE-051 study of pembrolizumab (pembro) in pediatric patients (pts) with advanced melanoma or a PD-L1+ advanced, relapsed, or refractory solid tumor or lymphoma

Author

Scot Ebbinghaus, Alberto S. Pappo, Jacek Toporski, Steven G. DuBois, Susan L. Cohn, Scott J. Diede, Hyoung Jin Kang, Lynley V. Marshall, Margaret E. Macy, Navin R. Pinto, Elizabeth Fox, Birgit Geoerger, Michal Yalon-Oren, Antonio Sergio Petrilli, Catherine Vezina, Theodore W. Laetsch, Kumudu Pathiraja, Rupert Handgretinger, Julia Glade-Bender, and Wayne Nicholls

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, biology, business.industry, Pembrolizumab, medicine.disease, Surgery, Lymphoma, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Refractory, 030220 oncology & carcinogenesis, Internal medicine, PD-L1, medicine, biology.protein, Solid tumor, business, Advanced melanoma

Abstract

10525 Background: In phase 1 of the KEYNOTE-051 study (NCT02332668), the 2 mg/kg Q3W approved adult dose of pembro was also determined to be the pediatric recommended phase 2 dose. In phase 2, presented herein, we further evaluated this dose in pediatric pts with advanced cancer. Methods: Children aged 6 mo to < 18 y with advanced melanoma or a PD-L1+ advanced, relapsed or refractory solid tumor or lymphoma, measurable disease per RECIST v1.1, and performance score ≥50 using Lansky Play or Karnofsky scales received pembro 2 mg/kg Q3W for 35 cycles or until confirmed disease progression per immune-related RECIST by investigator review, intolerable toxicity, or pt/investigator decision to discontinue. Tumor imaging was performed every 8 wk for the first 6 mo, then every 12 wk thereafter. AEs were graded by NCI CTCAE v4.0. Key efficacy endpoints were ORR, disease control rate (DCR), and PFS per RECIST v1.1 by investigator and OS. Results: Of 369 pts prescreened, 364 were evaluable for PD-L1 expression; of these, 121 (33.2%) were PD-L1+. 66 pts were enrolled; median follow-up was 2.5 mo (range, 0.2-18). As of the data cutoff (Nov 7, 2016), 23 (34.8%) pts were still on treatment. Median age was 13 y (range, 1-17), 77.3% had metastatic disease, and 34.8% had ≥3 prior lines of therapy for recurrent/metastatic disease. Primary diagnoses were non-CNS solid tumors (n = 45), CNS tumors (n = 16), and lymphoma (n = 5). 5 (7.6%) pts had grade 3-4 treatment-related AEs (TRAEs), most commonly neutropenia (n = 2). No treatment-related deaths occurred; 1 pt discontinued for a TRAE (grade 3 AST increased). 1 pt each with Hodgkin lymphoma, adrenocortical carcinoma, mesothelioma, and glioblastoma had partial response for an ORR of 6.1% (95% CI, 1.7-14.8); 7 (10.6%) pts had stable disease for a DCR of 16.7% (95% CI, 8.6-27.9). Median PFS and OS were 1.8 mo and 9.2 mo, respectively; 12-mo PFS was 10.2% and OS was 40.5%. Potential effects of pembro on the developing immune system (eg, T and B cells, vaccinated antibodies) will also be presented. Conclusions: Pembro showed low toxicity and warrants further study to determine activity in select pediatric tumors. Enrollment in KEYNOTE-051 is ongoing. Clinical trial information: NCT02332668.

Published

2017

30. Advances in Risk Classification and Treatment Strategies for Neuroblastoma.

Author

Pinto NR, Applebaum MA, Volchenboum SL, Matthay KK, London WB, Ambros PF, Nakagawara A, Berthold F, Schleiermacher G, Park JR, Valteau-Couanet D, Pearson AD, and Cohn SL

Subjects

Adolescent, Age of Onset, Child, Child, Preschool, Cooperative Behavior, Diffusion of Innovation, Humans, Infant, Infant, Newborn, Interdisciplinary Communication, International Cooperation, Neuroblastoma diagnosis, Neuroblastoma mortality, Predictive Value of Tests, Risk Assessment, Risk Factors, Survivors, Time Factors, Treatment Outcome, Young Adult, Medical Oncology trends, Neuroblastoma therapy, Pediatrics trends

Abstract

Risk-based treatment approaches for neuroblastoma have been ongoing for decades. However, the criteria used to define risk in various institutional and cooperative groups were disparate, limiting the ability to compare clinical trial results. To mitigate this problem and enhance collaborative research, homogenous pretreatment patient cohorts have been defined by the International Neuroblastoma Risk Group classification system. During the past 30 years, increasingly intensive, multimodality approaches have been developed to treat patients who are classified as high risk, whereas patients with low- or intermediate-risk neuroblastoma have received reduced therapy. This treatment approach has resulted in improved outcome, although survival for high-risk patients remains poor, emphasizing the need for more effective treatments. Increased knowledge regarding the biology and genetic basis of neuroblastoma has led to the discovery of druggable targets and promising, new therapeutic approaches. Collaborative efforts of institutions and international cooperative groups have led to advances in our understanding of neuroblastoma biology, refinements in risk classification, and stratified treatment strategies, resulting in improved outcome. International collaboration will be even more critical when evaluating therapies designed to treat small cohorts of patients with rare actionable mutations., (© 2015 by American Society of Clinical Oncology.)

Published

2015