Your search keyword '"Karen D. Wright"' showing total 19 results

1. Molecular profiling of 888 pediatric tumors informs future precision trials and data-sharing initiatives in pediatric cancer

Author

Suzanne J. Forrest, Hersh Gupta, Abigail Ward, Yvonne Y. Li, Duong Doan, Alyaa Al-Ibraheemi, Sanda Alexandrescu, Pratiti Bandopadhayay, Suzanne Shusterman, Elizabeth A. Mullen, Natalie B. Collins, Susan N. Chi, Karen D. Wright, Priti Kumari, Tali Mazor, Keith L. Ligon, Priyanka Shivdasani, Monica Manam, Laura E. MacConaill, Evelina Ceca, Sidney N. Benich, Wendy B. London, Richard L. Schilsky, Suanna S. Bruinooge, Jaime M. Guidry Auvil, Ethan Cerami, Barrett J. Rollins, Matthew L. Meyerson, Neal I. Lindeman, Bruce E. Johnson, Andrew D. Cherniack, Alanna J. Church, and Katherine A. Janeway

Subjects

Science

Abstract

Abstract To inform clinical trial design and real-world precision pediatric oncology practice, we classified diagnoses, assessed the landscape of mutations, and identified genomic variants matching trials in a large unselected institutional cohort of solid tumors patients sequenced at Dana-Farber / Boston Children’s Cancer and Blood Disorders Center. Tumors were sequenced with OncoPanel, a targeted next-generation DNA sequencing panel. Diagnoses were classified according to the International Classification of Diseases for Oncology (ICD-O-3.2). Over 6.5 years, 888 pediatric cancer patients with 95 distinct diagnoses had successful tumor sequencing. Overall, 33% (n = 289/888) of patients had at least 1 variant matching a precision oncology trial protocol, and 14% (41/289) were treated with molecularly targeted therapy. This study highlights opportunities to use genomic data from hospital-based sequencing performed either for research or clinical care to inform ongoing and future precision oncology clinical trials. Furthermore, the study results emphasize the importance of data sharing to define the genomic landscape and targeted treatment opportunities for the large group of rare pediatric cancers we encounter in clinical practice.

Published

2024

2. Author Correction: Molecular profiling of 888 pediatric tumors informs future precision trials and data-sharing initiatives in pediatric cancer

Author

Suzanne J. Forrest, Hersh Gupta, Abigail Ward, Yvonne Y. Li, Duong Doan, Alyaa Al-Ibraheemi, Sanda Alexandrescu, Pratiti Bandopadhayay, Suzanne Shusterman, Elizabeth A. Mullen, Natalie B. Collins, Susan N. Chi, Karen D. Wright, Priti Kumari, Tali Mazor, Keith L. Ligon, Priyanka Shivdasani, Monica Manam, Laura E. MacConaill, Evelina Ceca, Sidney N. Benich, Wendy B. London, Richard L. Schilsky, Suanna S. Bruinooge, Jaime M. Guidry Auvil, Ethan Cerami, Barrett J. Rollins, Matthew L. Meyerson, Neal I. Lindeman, Bruce E. Johnson, Andrew D. Cherniack, Alanna J. Church, and Katherine A. Janeway

Subjects

Science

Published

2024

3. Molecular classification and outcome of children with rare CNS embryonal tumors: results from St. Jude Children’s Research Hospital including the multi-center SJYC07 and SJMB03 clinical trials

Author

Anthony P. Y. Liu, Sandeep K. Dhanda, Tong Lin, Edgar Sioson, Aksana Vasilyeva, Brian Gudenas, Ruth G. Tatevossian, Sujuan Jia, Geoffrey Neale, Daniel C. Bowers, Tim Hassall, Sonia Partap, John R. Crawford, Murali Chintagumpala, Eric Bouffet, Geoff McCowage, Alberto Broniscer, Ibrahim Qaddoumi, Greg Armstrong, Karen D. Wright, Santhosh A. Upadhyaya, Anna Vinitsky, Christopher L. Tinkle, John Lucas, Jason Chiang, Daniel J. Indelicato, Robert Sanders, Paul Klimo, Frederick A. Boop, Thomas E. Merchant, David W. Ellison, Paul A. Northcott, Brent A. Orr, Xin Zhou, Arzu Onar-Thomas, Amar Gajjar, and Giles W. Robinson

Subjects

Central Nervous System Neoplasms, Cellular and Molecular Neuroscience, Brain Neoplasms, Humans, Neuroectodermal Tumors, Primitive, Forkhead Transcription Factors, Neurology (clinical), Neoplasms, Germ Cell and Embryonal, Child, Glioblastoma, Hospitals, Pathology and Forensic Medicine

Abstract

Methylation profiling has radically transformed our understanding of tumors previously called central nervous system primitive neuro-ectodermal tumors (CNS-PNET). While this marks a momentous step toward defining key differences, reclassification has thrown treatment into disarray. To shed light on response to therapy and guide clinical decision-making, we report outcomes and molecular features of children with CNS-PNETs from two multi-center risk-adapted studies (SJMB03 for patients ≥ 3 years; SJYC07 for patients 3 years) complemented by a non-protocol institutional cohort. Seventy patients who had a histological diagnosis of CNS-PNET or CNS embryonal tumor from one of the new categories that has supplanted CNS-PNET were included. This cohort was molecularly characterized by DNA methylation profiling (n = 70), whole-exome sequencing (n = 53), RNA sequencing (n = 20), and germline sequencing (n = 28). Clinical characteristics were detailed, and treatment was divided into craniospinal irradiation (CSI)-containing (SJMB03 and SJMB03-like) and CSI-sparing therapy (SJYC07 and SJYC07-like). When the cohort was analyzed in its entirety, no differences were observed in the 5-year survival rates even when CSI-containing therapy was compared to CSI-sparing therapy. However, when analyzed by DNA methylation molecular grouping, significant survival differences were observed, and treatment particulars provided suggestions of therapeutic response. Patients with CNS neuroblastoma with FOXR2 activation (CNS-NB-FOXR2) had a 5-year event-free survival (EFS)/overall survival (OS) of 66.7% ± 19.2%/83.3% ± 15.2%, and CIC rearranged sarcoma (CNS-SARC-CIC) had a 5-year EFS/OS both of 57.1% ± 18.7% with most receiving regimens that contained radiation (focal or CSI) and multidrug chemotherapy. Patients with high-grade neuroepithelial tumor with BCOR alteration (HGNET-BCOR) had abysmal responses to upfront chemotherapy-only regimens (5-year EFS = 0%), but survival extended with salvage radiation after progression [5-year OS = 53.6% ± 20.1%]. Patients with embryonal tumor with multilayered rosettes (ETMR) or high-grade glioma/glioblastoma multiforme (HGG/GBM) did not respond favorably to any modality (5-year EFS/OS = 10.7 ± 5.8%/17.9 ± 7.2%, and 10% ± 9.0%/10% ± 9.0%, respectively). As an accompaniment, we have assembled this data onto an interactive website to allow users to probe and query the cases. By reporting on a carefully matched clinical and molecular cohort, we provide the needed insight for future clinical management.

Published

2022

4. Upfront molecular targeted therapy for the treatment of BRAF-mutant pediatric high-grade glioma

Author

Tom Rosenberg, Kee Kiat Yeo, Audrey Mauguen, Sanda Alexandrescu, Sanjay P Prabhu, Jessica W Tsai, Seth Malinowski, Mrinal Joshirao, Karishma Parikh, Sameer Farouk Sait, Marc K Rosenblum, Jamal K Benhamida, George Michaiel, Hung N Tran, Sonika Dahiya, Kara Kachurak, Gregory K Friedman, Julie I Krystal, Michael A Huang, Ashley S Margol, Karen D Wright, Dolly Aguilera, Tobey J MacDonald, Susan N Chi, and Matthias A Karajannis

Subjects

Adult, Proto-Oncogene Proteins B-raf, Mitogen-Activated Protein Kinase Kinases, Cancer Research, Adolescent, Brain Neoplasms, Glioma, Young Adult, Oncology, Child, Preschool, Mutation, Humans, Neurology (clinical), Molecular Targeted Therapy, Child, Glioblastoma, Protein Kinase Inhibitors, Pediatric Neuro-Oncology, Retrospective Studies

Abstract

Background The prognosis for patients with pediatric high-grade glioma (pHGG) is poor despite aggressive multimodal therapy. Objective responses to targeted therapy with BRAF inhibitors have been reported in some patients with recurrent BRAF-mutant pHGG but are rarely sustained. Methods We performed a retrospective, multi-institutional review of patients with BRAF-mutant pHGG treated with off-label BRAF +/– MEK inhibitors as part of their initial therapy. Results Nineteen patients were identified, with a median age of 11.7 years (range, 2.3–21.4). Histologic diagnoses included HGG (n = 6), glioblastoma (n = 3), anaplastic ganglioglioma (n = 4), diffuse midline glioma (n = 3), high-grade neuroepithelial tumor (n = 1), anaplastic astrocytoma (n = 1), and anaplastic astroblastoma (n = 1). Recurrent concomitant oncogenic alterations included CDKN2A/B loss, H3 K27M, as well as mutations in ATRX, EGFR, and TERT. Eight patients received BRAF inhibitor monotherapy. Eleven patients received combination therapy with BRAF and MEK inhibitors. Most patients tolerated long-term treatment well with no grade 4–5 toxicities. Objective and durable imaging responses were seen in the majority of patients with measurable disease. At a median follow-up of 2.3 years (range, 0.3–6.5), three-year progression-free and overall survival for the cohort were 65% and 82%, respectively, and superior to a historical control cohort of BRAF-mutant pHGG patients treated with conventional therapies. Conclusions Upfront targeted therapy for patients with BRAF-mutant pHGG is feasible and effective, with superior clinical outcomes compared to historical data. This promising treatment paradigm is currently being evaluated prospectively in the Children’s Oncology Group ACNS1723 clinical trial.

Published

2023

5. Methods file from Establishing a Preclinical Multidisciplinary Board for Brain Tumors

Author

Richard J. Gilbertson, Karen D. Wright, Christopher Calabrese, Thomas E. Merchant, R. Kipling Guy, Martine F. Roussel, Clinton F. Stewart, Arzu Onar-Thomas, Burgess B. Freeman, Yogesh T. Patel, Amar Gajjar, Hope E. Terhune, Sabrina Terranova, Anang Shelat, Michael DeCuypere, Jason Dapper, Brandon Bianski, Nidal Boulos, and Birgit V. Nimmervoll

Abstract

Supplementary Methods

Published

2023

6. Figure S1 from Establishing a Preclinical Multidisciplinary Board for Brain Tumors

Author

Richard J. Gilbertson, Karen D. Wright, Christopher Calabrese, Thomas E. Merchant, R. Kipling Guy, Martine F. Roussel, Clinton F. Stewart, Arzu Onar-Thomas, Burgess B. Freeman, Yogesh T. Patel, Amar Gajjar, Hope E. Terhune, Sabrina Terranova, Anang Shelat, Michael DeCuypere, Jason Dapper, Brandon Bianski, Nidal Boulos, and Birgit V. Nimmervoll

Abstract

Tumor proliferation measured as Ki67 index in (A) mSEP-CR(-)RTBDNb and (B) mCPC treated with the indicated dose and route of administration of gemcitabine.

Published

2023

7. Table S2 from Establishing a Preclinical Multidisciplinary Board for Brain Tumors

Author

Richard J. Gilbertson, Karen D. Wright, Christopher Calabrese, Thomas E. Merchant, R. Kipling Guy, Martine F. Roussel, Clinton F. Stewart, Arzu Onar-Thomas, Burgess B. Freeman, Yogesh T. Patel, Amar Gajjar, Hope E. Terhune, Sabrina Terranova, Anang Shelat, Michael DeCuypere, Jason Dapper, Brandon Bianski, Nidal Boulos, and Birgit V. Nimmervoll

Abstract

information on drugs used in preclinical studies

Published

2023

8. Data from Establishing a Preclinical Multidisciplinary Board for Brain Tumors

Author

Richard J. Gilbertson, Karen D. Wright, Christopher Calabrese, Thomas E. Merchant, R. Kipling Guy, Martine F. Roussel, Clinton F. Stewart, Arzu Onar-Thomas, Burgess B. Freeman, Yogesh T. Patel, Amar Gajjar, Hope E. Terhune, Sabrina Terranova, Anang Shelat, Michael DeCuypere, Jason Dapper, Brandon Bianski, Nidal Boulos, and Birgit V. Nimmervoll

Abstract

Purpose: Curing all children with brain tumors will require an understanding of how each subtype responds to conventional treatments and how best to combine existing and novel therapies. It is extremely challenging to acquire this knowledge in the clinic alone, especially among patients with rare tumors. Therefore, we developed a preclinical brain tumor platform to test combinations of conventional and novel therapies in a manner that closely recapitulates clinic trials.Experimental Design: A multidisciplinary team was established to design and conduct neurosurgical, fractionated radiotherapy and chemotherapy studies, alone or in combination, in accurate mouse models of supratentorial ependymoma (SEP) subtypes and choroid plexus carcinoma (CPC). Extensive drug repurposing screens, pharmacokinetic, pharmacodynamic, and efficacy studies were used to triage active compounds for combination preclinical trials with “standard-of-care” surgery and radiotherapy.Results: Mouse models displayed distinct patterns of response to surgery, irradiation, and chemotherapy that varied with tumor subtype. Repurposing screens identified 3-hour infusions of gemcitabine as a relatively nontoxic and efficacious treatment of SEP and CPC. Combination neurosurgery, fractionated irradiation, and gemcitabine proved significantly more effective than surgery and irradiation alone, curing one half of all animals with aggressive forms of SEP.Conclusions: We report a comprehensive preclinical trial platform to assess the therapeutic activity of conventional and novel treatments among rare brain tumor subtypes. It also enables the development of complex, combination treatment regimens that should deliver optimal trial designs for clinical testing. Postirradiation gemcitabine infusion should be tested as new treatments of SEP and CPC. Clin Cancer Res; 24(7); 1654–66. ©2018 AACR.

Published

2023

9. Multi-institutional study of the frequency, genomic landscape, and outcome of IDH-mutant glioma in pediatrics

Author

Kee Kiat Yeo, Sanda Alexandrescu, Jennifer A Cotter, Jayne Vogelzang, Varun Bhave, Marilyn M Li, Jianling Ji, Jamal K Benhamida, Marc K Rosenblum, Tejus A Bale, Nancy Bouvier, Kristiyana Kaneva, Tom Rosenberg, Mary Jane Lim-Fat, Hia Ghosh, Migdalia Martinez, Dolly Aguilera, Amy Smith, Stewart Goldman, Eli L Diamond, Igor Gavrilovic, Tobey J MacDonald, Matthew D Wood, Kellie J Nazemi, AiLien Truong, Andrew Cluster, Keith L Ligon, Kristina Cole, Wenya Linda Bi, Ashley S Margol, Matthias A Karajannis, and Karen D Wright

Subjects

Cancer Research, Oncology, Neurology (clinical), Pediatric Neuro-Oncology

Abstract

Background The incidence and biology of IDH1/2 mutations in pediatric gliomas are unclear. Notably, current treatment approaches by pediatric and adult providers vary significantly. We describe the frequency and clinical outcomes of IDH1/2-mutant gliomas in pediatrics. Methods We performed a multi-institutional analysis of the frequency of pediatric IDH1/2-mutant gliomas, identified by next-generation sequencing (NGS). In parallel, we retrospectively reviewed pediatric IDH1/2-mutant gliomas, analyzing clinico-genomic features, treatment approaches, and outcomes. Results Incidence: Among 851 patients with pediatric glioma who underwent NGS, we identified 78 with IDH1/2 mutations. Among patients 0–9 and 10–21 years old, 2/378 (0.5%) and 76/473 (16.1%) had IDH1/2-mutant tumors, respectively. Frequency of IDH mutations was similar between low-grade glioma (52/570, 9.1%) and high-grade glioma (25/277, 9.0%). Four tumors were graded as intermediate histologically, with one IDH1 mutation. Outcome: Seventy-six patients with IDH1/2-mutant glioma had outcome data available. Eighty-four percent of patients with low-grade glioma (LGG) were managed observantly without additional therapy. For low-grade astrocytoma, 5-year progression-free survival (PFS) was 42.9% (95%CI:20.3–63.8) and, despite excellent short-term overall survival (OS), numerous disease-related deaths after year 10 were reported. Patients with high-grade astrocytoma had a 5-year PFS/OS of 36.8% (95%CI:8.8–66.4) and 84% (95%CI:50.1–95.6), respectively. Patients with oligodendroglioma had excellent OS. Conclusions A subset of pediatric gliomas is driven by IDH1/2 mutations, with a higher rate among adolescents. The majority of patients underwent upfront observant management without adjuvant therapy. Findings suggest that the natural history of pediatric IDH1/2-mutant glioma may be similar to that of adults, though additional studies are needed.

Published

2022

10. Liquid biopsy detection of genomic alterations in pediatric brain tumors from cell-free DNA in peripheral blood, CSF, and urine

Author

Mélanie Pagès, Denisse Rotem, Gregory Gydush, Sarah Reed, Justin Rhoades, Gavin Ha, Christopher Lo, Mark Fleharty, Madeleine Duran, Robert Jones, Sarah Becker, Michaela Haller, Claire E Sinai, Liliana Goumnerova, Todd R Golub, J Christopher Love, Keith L Ligon, Karen D Wright, Viktor A Adalsteinsson, Rameen Beroukhim, and Pratiti Bandopadhayay

Subjects

Motivation, Cancer Research, DNA Copy Number Variations, Brain Neoplasms, Liquid Biopsy, High-Throughput Nucleotide Sequencing, Genomics, Circulating Tumor DNA, Oncology, Mutation, Biomarkers, Tumor, Humans, Neurology (clinical), Child, Pediatric Neuro-Oncology, Cell-Free Nucleic Acids

Abstract

Background The ability to identify genetic alterations in cancers is essential for precision medicine; however, surgical approaches to obtain brain tumor tissue are invasive. Profiling circulating tumor DNA (ctDNA) in liquid biopsies has emerged as a promising approach to avoid invasive procedures. Here, we systematically evaluated the feasibility of profiling pediatric brain tumors using ctDNA obtained from plasma, cerebrospinal fluid (CSF), and urine. Methods We prospectively collected 564 specimens (257 blood, 240 urine, and 67 CSF samples) from 258 patients across all histopathologies. We performed ultra-low-pass whole-genome sequencing (ULP-WGS) to assess copy number variations and estimate tumor fraction and developed a pediatric CNS tumor hybrid capture panel for deep sequencing of specific mutations and fusions. Results ULP-WGS detected copy number alterations in 9/46 (20%) CSF, 3/230 (1.3%) plasma, and 0/153 urine samples. Sequencing detected alterations in 3/10 (30%) CSF, 2/74 (2.7%) plasma, and 0/2 urine samples. The only positive results were in high-grade tumors. However, most samples had insufficient somatic mutations (median 1, range 0-39) discoverable by the sequencing panel to provide sufficient power to detect tumor fractions of greater than 0.1%. Conclusions Children with brain tumors harbor very low levels of ctDNA in blood, CSF, and urine, with CSF having the most DNA detectable. Molecular profiling is feasible in a small subset of high-grade tumors. The level of clonal aberrations per genome is low in most of the tumors, posing a challenge for detection using whole-genome or even targeted sequencing methods. Substantial challenges therefore remain to genetically characterize pediatric brain tumors from liquid biopsies.

Published

2022

11. Abstract 3890: Sequencing of 888 pediatric solid tumors informs precision oncology trial design and data sharing initiatives in pediatric cancer

Author

Suzanne J. Forrest, Hersh Gupta, Abigail Ward, Yvonne Li, Duong Doan, Alyaa Al-Ibraheemi, Sanda Alexandrescu, Pratiti Bandopadhayay, Suzanne Shusterman, Elizabeth A. Mullen, Natalie Collins, Susan N. Chi, Karen D. Wright, Priti Kumari, Tali Mazor, Keith L. Ligon, Priyanka Shivdasani, Phani Davineni, Monica Manam, Richard L. Schilsky, Suanna S. Bruinooge, Jaime M. Guidry Auvil, Ethan Cerami, Barrett J. Rollins, Matthew L. Meyerson, Neal I. Lindeman, Laura MacConaill, Bruce E. Johnson, Andrew D. Cherniack, Alanna J. Church, and Katherine A. Janeway

Subjects

Cancer Research, Oncology

Abstract

Pediatric pan-cancer genome analyses do not capture the full range of diagnoses encountered in clinical practice. To inform basket trial design and real-world precision oncology practice, we classified diagnoses and assessed the landscape of mutations, including trial-matching, in an unselected cohort of pediatric solid tumors. Since 2013 all Dana-Farber/Boston Children’s patients have been offered participation in the Profile study. Participant tumor samples were sequenced with DFCI-OncoPanel, a targeted panel test sequencing exons of up to 447 cancer genes for single nucleotide variants, insertions and deletions and copy number alterations, and introns and exons of up to 60 genes for rearrangements. Patient diagnosis was classified according to ICD-O, version 3.2. Genomic alterations were analyzed for matching to the actionable mutation lists of precision oncology basket trials (NCI-COG Pediatric MATCH, NCI-MATCH, and the ASCO TAPUR Study v.3). Data will be shared with the Childhood Cancer Data Initiative. There were 888 pediatric patients with sequencing enrolled in Profile between January 2013 and March 2019; 512 (58%) with solid tumors and 376 (42%) with CNS tumors. Fifty-five percent (491/888) of patients had one of ten common pediatric cancer diagnoses: neuroblastoma (n=80), low-grade glioma (n=72), Wilms tumor (n=57), medulloblastoma (n=55), pilocytic astrocytoma (n=47), rhabdomyosarcoma (n=44), osteosarcoma (n=42), ependymoma (n=39), Ewing sarcoma (n=28) and glioblastoma (n=27). The remaining 45% (397/888) had one of 85 distinct rare malignancies with less than 25 cases per diagnosis. Most (80/85) of these rare diagnoses are not represented in prior pediatric pan-cancer sequencing studies. Recurrent (>5%) pathogenic alterations were, in common and rare diagnoses, TP53 mutations(m) and deletions(del) and BRAFm and rearrangements(r), in common diagnoses, MYC/MYCN amplification (amp) and EWSR1r and, in rare diagnoses, CTNNB1m, CDKN2A/Bdel and NF1m/del. We found that 31% (n=271/888) of patients had at least 1 variant matching a basket trial treatment arm. Genes with matching alterations include BRAF (10%), NF1 (4%), PI3KCA (3%), NRAS (2%), BRCA2 (2%), ALK (1%), and FGFR1 (1%). Sequencing of pediatric malignancies is increasing. This study highlights opportunities to use the resulting genomic data to inform genome-selected clinical trial design and uncover drivers in pediatric cancers. The proportion of cases in this cohort with genomic alterations meeting eligibility for basket trials is equivalent to that seen in the pediatric MATCH screening study. Due to the low prevalence of the diagnoses in the long tail of cancer types in this study, defining the genomic landscape of ultra-rare cancers will require data sharing. Classifying pediatric cancer diagnoses using the ICD-O standard ontology system is feasible and will facilitate data sharing. Citation Format: Suzanne J. Forrest, Hersh Gupta, Abigail Ward, Yvonne Li, Duong Doan, Alyaa Al-Ibraheemi, Sanda Alexandrescu, Pratiti Bandopadhayay, Suzanne Shusterman, Elizabeth A. Mullen, Natalie Collins, Susan N. Chi, Karen D. Wright, Priti Kumari, Tali Mazor, Keith L. Ligon, Priyanka Shivdasani, Phani Davineni, Monica Manam, Richard L. Schilsky, Suanna S. Bruinooge, Jaime M. Guidry Auvil, Ethan Cerami, Barrett J. Rollins, Matthew L. Meyerson, Neal I. Lindeman, Laura MacConaill, Bruce E. Johnson, Andrew D. Cherniack, Alanna J. Church, Katherine A. Janeway. Sequencing of 888 pediatric solid tumors informs precision oncology trial design and data sharing initiatives in pediatric 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 3890.

Published

2022

12. HGG-34. Upfront Molecular Targeted Therapy for the Treatment of BRAF-mutant Pediatric High-Grade Glioma

Author

Tom Rosenberg, Kee Kiat Yeo, Audrey Mauguen, Sanda Alexandrescu, Sanjay P Prabhu, Jessica W Tsai, Seth Malinowski, Mrinal Joshirao, Karishma Parikh, Sameer Farouk Sait, Marc K Rosenblum, Jamal K Benhamida, George Michaiel, Hung N Tran, Sonika Dahiya, Kara Kachurak, Gregory K Friedman, JulieI Krystal, Michael A Huang, Ashley S Margol, Karen D Wright, Dolly Aguilera, Tobey J MacDonald, Susan N Chi, and Matthias A Karajannis

Subjects

Cancer Research, Oncology, Neurology (clinical)

Abstract

BACKGROUND: The prognosis for pediatric high-grade glioma (pHGG) is poor despite aggressive multi-modal therapy. Objective responses to targeted therapy with BRAF inhibitors have been reported in some patients with recurrent BRAF-mutant pHGG but are rarely sustained. METHODS: We performed a retrospective, multi-institutional review of patients with BRAF-mutant pHGG treated with off-label BRAF +/- MEK inhibitors as part of their initial therapy. RESULTS: Nineteen patients were identified, with a median age of 10.7 years (range: 1.8–20.3). Histologic diagnoses included HGG (n=6), glioblastoma (n=3), anaplastic ganglioglioma (n=4), diffuse midline glioma (n=3), high-grade neuroepithelial tumor (n=1), anaplastic astrocytoma (n=1), and anaplastic astroblastoma (n=1). Recurrent concomitant oncogenic alterations included CDKN2A/B loss, H3 K27M, as well as mutations in ATRX, EGFR and TERT. Eight patients received BRAF inhibitor monotherapy. Eleven patients received combination therapy with BRAF and MEK inhibitors. Most patients tolerated long-term treatment well with no grade 4–5 toxicities. Objective and durable imaging responses were seen in the majority of patients with measurable disease. At a median follow-up of 2.3 years (range,0.3–6.5), three-year progression-free (PFS) and overall survival (OS) for the cohort were 65% and 82%, respectively, and superior to a historical control cohort treated with conventional therapies. CONCLUSIONS: Upfront targeted therapy for patients with BRAF-mutant pHGG is feasible and effective, with superior clinical outcomes observed compared to historical data. This promising treatment paradigm is currently being evaluated prospectively in the Children’s Oncology Group ACNS1723 clinical trial.

Published

2022

13. Incidental diagnosis of diffuse intrinsic pontine glioma in children

Author

Karen D, Wright, Noah D, Sabin, Daniel, Cheuk, RenéY, McNall-Knapp, Sheila A, Shurtleff, Amar, Gajjar, and Alberto, Broniscer

Subjects

Male, Adolescent, Child, Preschool, Brain Stem Neoplasms, Humans, Infant, Female, Glioma, Child, Article

Abstract

Children with diffuse intrinsic pontine glioma (DIPG) have a short onset, rapidly progressive neurologic decline before diagnosis. Therefore, incidental diagnosis of such an aggressive cancer is counterintuitive, yet our experience shows DIPG may occur as part of a spectrum of incidentally diagnosed pediatric brain cancers. Although children with incidentally diagnosed DIPG may experience a longer survival, it remains a potentially deadly cancer despite treatment with radiotherapy. Histologic confirmation is warranted when feasible in such patients to confirm diagnosis. Moreover, recent advances in genome-wide analyses may suggest incidentally diagnosed DIPGs are biologically distinct from the majority of these cancers.

Published

2014

14. Pubertal development and primary ovarian insufficiency in female survivors of embryonal brain tumors following risk-adapted craniospinal irradiation and adjuvant chemotherapy

Author

Mariko, DeWire, Daniel M, Green, Charles A, Sklar, Thomas E, Merchant, Dana, Wallace, Tong, Lin, Tamara, Vern-Gross, Larry E, Kun, Matthew J, Krasin, James M, Boyett, Karen D, Wright, Cynthia, Wetmore, Alberto, Broniscer, and Amar, Gajjar

Subjects

Adult, Puberty, Delayed, Alkylating Agents, Adolescent, Brain Neoplasms, Puberty, Precocious, Neoplasms, Germ Cell and Embryonal, Primary Ovarian Insufficiency, Article, Young Adult, Craniospinal Irradiation, Child, Preschool, Humans, Female, Follicle Stimulating Hormone, Child

Abstract

Female survivors of central nervous system (CNS) tumors are at an increased risk for gonadal damage and variations in the timing of puberty following radiotherapy and alkylating agent-based chemotherapy.Clinical and laboratory data were obtained from 30 evaluable female patients with newly diagnosed embryonal CNS tumors treated on a prospective protocol (SJMB 96) at St. Jude Children's Research Hospital (SJCRH). Pubertal development was evaluated by Tanner staging. Primary ovarian insufficiency (POI) was determined by Tanner staging and FSH level. Females with Tanner stage I-II and FSH 15 mIU/ml, or Tanner stage III-V, FSH 25 mIU/ml and FSH greater than LH were defined to have ovarian insufficiency. Recovery of ovarian function was defined as normalization of FSH without therapeutic intervention.Median length of follow-up post completion of therapy was 7.2 years (4.0-10.8 years). The cumulative incidence of pubertal onset was 75.6% by the age of 13. Precocious puberty was observed in 11.1% and delayed puberty in 11.8%. The cumulative incidence of POI was 82.8%, though recovery was observed in 38.5%.Treatment for primary CNS embryonal tumors may cause variations in the timing of pubertal development, impacting physical and psychosocial development. Female survivors are at risk for POI, a subset of whom will recover function over time. Further refinement of therapies is needed in order to reduce late ovarian insufficiency. Pediatr Blood Cancer 2015;62:329-334. © 2014 Wiley Periodicals, Inc.

Published

2014

15. Isochromosome 17q, MYC amplification and large cell/anaplastic phenotype in a case of medullomyoblastoma with extracranial metastases

Author

Karen D, Wright, Kendra, von der Embse, Jamie, Coleman, Zoltan, Patay, David W, Ellison, and Amar, Gajjar

Subjects

Isochromosomes, Child, Preschool, Gene Amplification, Genes, myc, Humans, Female, Neoplasm Metastasis, Cerebellar Neoplasms, Prognosis, Article, Chromosomes, Human, Pair 17, Medulloblastoma

Abstract

Medullomyoblastoma is a rare variant of medulloblastoma, a member of the family of central nervous system (CNS) embryonal tumors. The outcome of standard therapy for CNS embryonal tumors is often unpredictable in the setting of medullomyoblastoma. Here, we present the clinical course and treatment of an almost 4-year-old girl with medullomyoblastoma that was characterized by MYC amplification, isochromosome 17q and large cell/anaplastic histopathology.

Published

2011

16. DAY101 In Gliomas and Other Tumors

Author

PLGA Fund at Pediatric Brain Tumor Foundation, National Cancer Institute (NCI), Pacific Pediatric Neuro-Oncology Consortium, Team Jack Foundation, Day One Biopharmaceuticals, Inc., and Karen D. Wright, MD, Sponsor Investigator

Published

2024

17. STRAIN and sex variation in the susceptibility to streptococcal CELL WALL–INDUCED POLYARTHRITIS IN THE RAT

Author

Gary B. Calandra, A. Julian Garvin, Ronald L. Wilder, Carl T. Hansen, and Karen D. Wright

Subjects

Immunology, Cell, Arthritis, Spleen, Inflammation, Chromosomal translocation, Biology, Group A, Cell wall, Sex Factors, Rheumatology, Cell Wall, Streptococcal Infections, medicine, Animals, Immunology and Allergy, Pharmacology (medical), Arthritis, Infectious, Rats, Inbred Strains, medicine.disease, Rats, Radiography, Disease Models, Animal, medicine.anatomical_structure, Polyarthritis, Disease Susceptibility, medicine.symptom

Abstract

Sixteen inbred rat strains were examined for susceptibility and resistance to group A streptococcal cell wall-induced polyarthritis. The findings indicated that 2 or more genetic loci, as well as sex-related factors, played a major role in determining susceptibility to arthritis in this model. Breeding studies demonstrated that susceptibility was a dominant or codominant trait. A positive association between the severity of arthritis and the development of chronic inflammation in multiple tissues was also observed. In strains that were relatively resistant to arthritis, chronic inflammation was generally limited to the spleen. Since translocation of the poorly degradable and phlogogenic streptococcal cell walls to the synovium and other tissues appears to initiate inflammation, these studies suggested that susceptibility might be the result of a defect in host mechanisms limiting cell wall dissemination.

Published

1982

18. Molecularly Determined Treatment of Diffuse Intrinsic Pontine Gliomas (DIPG)

Author

Boston Children's Hospital, University of California, San Francisco, Ann & Robert H Lurie Children's Hospital of Chicago, Children's Healthcare of Atlanta, Children's Hospital Colorado, Children's Hospital Los Angeles, Children's Hospital of Michigan, Children's Hospitals and Clinics of Minnesota, Cook Children's Medical Center, OHSU Doernbecher Children's Hospital, Duke University, Johns Hopkins University, Nicklaus Children's Hospital f/k/a Miami Children's Hospital, Nemours Children's Clinic, New York University, Milton S. Hershey Medical Center, Seattle Children's Hospital, Lucile Packard Children's Hospital, University of Louisville, Children's National Research Institute, Washington University School of Medicine, Phoenix Children's Hospital, Medical University of South Carolina, and Karen D. Wright MD, Prinicipal Investigator

Published

2019

19. Everolimus (RAD001) for Children With Chemotherapy-Refractory Progressive or Recurrent Low-Grade Gliomas

Author

Novartis, Pediatric Oncology Experimental Therapeutics Investigators' Consortium, and Karen D. Wright MD, Principal Investigator

Published

2018