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A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
by Oesterheld, Javier , Nagulapally, Abhinav B. , Bergendahl, Genevieve , Eslin, Don , Serrano, Jonathan , Ferguson, William , Lewis, Elizabeth C. , Brown, Valerie I. , Hanson, Derek , Harrod, Virginia L. , Hendricks, William P. D. , Hanna, Gina , Byron, Sara A. , Wada, Randal K. , Kim, Elizabeth , Mitchell, Deanna , Isakoff, Michael S. , Snuderl, Matija , Saulnier Sholler, Giselle L. , Kraveka, Jacqueline M. , Dykema, Karl J. , Rawwas, Jawhar , Trent, Jeffrey M. , Roberts, William D.
in Algorithms / Antineoplastic Agents - therapeutic use / Cancer therapies / Chemotherapy / DFMO / DNA methylation / Drug dosages / Eflornithine - adverse effects / Genomics / Histology / Humans / Immunologic Factors / Immunotherapy / Induction Chemotherapy / Induction therapy / maintenance / Neuroblastoma / Neuroblastoma - drug therapy / Neuroblastoma - genetics / Oncology / Original / Patients / Pediatrics / Pilot Projects / precision medicine / Radiation therapy / Retrospective Studies / RNA - therapeutic use / Stem cell transplantation / Toxicity / Tumors
2022
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A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
by Oesterheld, Javier , Nagulapally, Abhinav B. , Bergendahl, Genevieve , Eslin, Don , Serrano, Jonathan , Ferguson, William , Lewis, Elizabeth C. , Brown, Valerie I. , Hanson, Derek , Harrod, Virginia L. , Hendricks, William P. D. , Hanna, Gina , Byron, Sara A. , Wada, Randal K. , Kim, Elizabeth , Mitchell, Deanna , Isakoff, Michael S. , Snuderl, Matija , Saulnier Sholler, Giselle L. , Kraveka, Jacqueline M. , Dykema, Karl J. , Rawwas, Jawhar , Trent, Jeffrey M. , Roberts, William D.
in Algorithms / Antineoplastic Agents - therapeutic use / Cancer therapies / Chemotherapy / DFMO / DNA methylation / Drug dosages / Eflornithine - adverse effects / Genomics / Histology / Humans / Immunologic Factors / Immunotherapy / Induction Chemotherapy / Induction therapy / maintenance / Neuroblastoma / Neuroblastoma - drug therapy / Neuroblastoma - genetics / Oncology / Original / Patients / Pediatrics / Pilot Projects / precision medicine / Radiation therapy / Retrospective Studies / RNA - therapeutic use / Stem cell transplantation / Toxicity / Tumors
2022
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A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
by Oesterheld, Javier , Nagulapally, Abhinav B. , Bergendahl, Genevieve , Eslin, Don , Serrano, Jonathan , Ferguson, William , Lewis, Elizabeth C. , Brown, Valerie I. , Hanson, Derek , Harrod, Virginia L. , Hendricks, William P. D. , Hanna, Gina , Byron, Sara A. , Wada, Randal K. , Kim, Elizabeth , Mitchell, Deanna , Isakoff, Michael S. , Snuderl, Matija , Saulnier Sholler, Giselle L. , Kraveka, Jacqueline M. , Dykema, Karl J. , Rawwas, Jawhar , Trent, Jeffrey M. , Roberts, William D.
in Algorithms / Antineoplastic Agents - therapeutic use / Cancer therapies / Chemotherapy / DFMO / DNA methylation / Drug dosages / Eflornithine - adverse effects / Genomics / Histology / Humans / Immunologic Factors / Immunotherapy / Induction Chemotherapy / Induction therapy / maintenance / Neuroblastoma / Neuroblastoma - drug therapy / Neuroblastoma - genetics / Oncology / Original / Patients / Pediatrics / Pilot Projects / precision medicine / Radiation therapy / Retrospective Studies / RNA - therapeutic use / Stem cell transplantation / Toxicity / Tumors
2022

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A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma
Journal Article

A pilot study of genomic‐guided induction therapy followed by immunotherapy with difluoromethylornithine maintenance for high‐risk neuroblastoma

Oesterheld, Javier,
Nagulapally, Abhinav B.,
Bergendahl, Genevieve,
Eslin, Don,
Serrano, Jonathan,
Ferguson, William,
Lewis, Elizabeth C.,
Brown, Valerie I.,
Hanson, Derek,
Harrod, Virginia L.,
Hendricks, William P. D.,
Hanna, Gina,
Byron, Sara A.,
Wada, Randal K.,
Kim, Elizabeth,
Mitchell, Deanna,
Isakoff, Michael S.,
Snuderl, Matija,
Saulnier Sholler, Giselle L.,
Kraveka, Jacqueline M.,
Dykema, Karl J.,
Rawwas, Jawhar,
Trent, Jeffrey M.,
Roberts, William D.
2022
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Overview
Background Survival for patients with high‐risk neuroblastoma (HRNB) remains poor despite aggressive multimodal therapies. Aims To study the feasibility and safety of incorporating a genomic‐based targeted agent to induction therapy for HRNB as well as the feasibility and safety of adding difluoromethylornithine (DFMO) to anti‐GD2 immunotherapy. Methods Twenty newly diagnosed HRNB patients were treated on this multicenter pilot trial. Molecular tumor boards selected one of six targeted agents based on tumor‐normal whole exome sequencing and tumor RNA‐sequencing results. Treatment followed standard upfront HRNB chemotherapy with the addition of the selected targeted agent to cycles 3–6 of induction. Following consolidation, DFMO (750 mg/m2 twice daily) was added to maintenance with dinutuximab and isotretinoin, followed by continuation of DFMO alone for 2 years. DNA methylation analysis was performed retrospectively and compared to RNA expression. Results Of the 20 subjects enrolled, 19 started targeted therapy during cycle 3 and 1 started during cycle 5. Eighty‐five percent of subjects met feasibility criteria (receiving 75% of targeted agent doses). Addition of targeted agents did not result in toxicities requiring dose reduction of chemotherapy or permanent discontinuation of targeted agent. Following standard consolidation, 15 subjects continued onto immunotherapy with DFMO. This combination was well‐tolerated and resulted in no unexpected adverse events related to DFMO. Conclusion This study demonstrates the safety and feasibility of adding targeted agents to standard induction therapy and adding DFMO to immunotherapy for HRNB. This treatment regimen has been expanded to a Phase II trial to evaluate efficacy.
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Publisher
John Wiley & Sons, Inc,John Wiley and Sons Inc,Wiley
Subject

Algorithms

/ Antineoplastic Agents - therapeutic use

/ Cancer therapies

/ Chemotherapy

/ DFMO

/ DNA methylation

/ Drug dosages

/ Eflornithine - adverse effects

/ Genomics

/ Histology

/ Humans

/ Immunologic Factors

/ Immunotherapy

/ Induction Chemotherapy

/ Induction therapy

/ maintenance

/ Neuroblastoma

/ Neuroblastoma - drug therapy

/ Neuroblastoma - genetics

/ Oncology

/ Original

/ Patients

/ Pediatrics

/ Pilot Projects

/ precision medicine

/ Radiation therapy

/ Retrospective Studies

/ RNA - therapeutic use

/ Stem cell transplantation

/ Toxicity

/ Tumors

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