Alisa L. Eicher scite author profile

Purpose Survival for children and young adults with high-risk B-acute lymphoblastic leukemia has improved significantly, but 20% to 25% of patients are not cured. Children’s Oncology Group study AALL0232 tested two interventions to improve survival. Patients and Methods Between January 2004 and January 2011, AALL0232 enrolled 3,154 participants 1 to 30 years old with newly diagnosed high-risk B-acute lymphoblastic leukemia. By using a 2 × 2 factorial design, 2,914 participants were randomly assigned to receive dexamethasone (14 days) versus prednisone (28 days) during induction and high-dose methotrexate versus Capizzi escalating-dose methotrexate plus pegaspargase during interim maintenance 1. Results Planned interim monitoring showed the superiority of the high-dose methotrexate regimens, which exceeded the predefined boundary and led to cessation of enrollment in January 2011. At that time, participants randomly assigned to high-dose methotrexate during interim maintenance 1 versus those randomly assigned to Capizzi methotrexate had a 5-year event-free survival (EFS) of 82% versus 75.4% (P = .006). Mature final data showed 5-year EFS rates of 79.6% for high-dose methotrexate and 75.2% for Capizzi methotrexate (P = .008). High-dose methotrexate decreased both marrow and CNS recurrences. Patients 1 to 9 years old who received dexamethasone and high-dose methotrexate had a superior outcome compared with those who received the other three regimens (5-year EFS, 91.2% v 83.2%, 80.8%, and 82.1%; P = .015). Older participants derived no benefit from dexamethasone during induction and experienced excess rates of osteonecrosis. Conclusion High-dose methotrexate is superior to Capizzi methotrexate for the treatment of high-risk B-acute lymphoblastic leukemia, with no increase in acute toxicity. Dexamethasone given during induction benefited younger children but provided no benefit and was associated with a higher risk of osteonecrosis among participants 10 years and older.

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Antioxidant role and subcellular location of hypotaurine and taurine in human neutrophils

Green

Fellman

Eicher

et al. 1991

Biochimica et Biophysica Acta (BBA) - General Subjects

142

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Myeloperoxidase oxidation of sulfur‐centered and benzoic acid hydroxyl radical scavengers

1985

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Myeloperoxidase (MPO) oxidizes sulfur‐centered and benzoate hydroxyl radical scavengers through formation of HOCl. Sulfur‐centered hydroxyl radical scavengers compete with benzoate as antioxidants ofHOCl. We conclude from these observations that competition experiments between benzoate and sulfur‐centered hydroxyl radical scavengers are not sufficiently specific to infer participation of hydroxyl radicals in oxidative reactions mediated by neutrophils because of the unique action of MPO in affecting oxidation of the test radical scavengers.

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The Oxidation of Hypotaurine to Taurine: Bis-Aminoethyl-α-Disulfone, A Metabolic Intermediate in Mammalian Tissue

Fellman

Green

Eicher

1987

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Mitogenic Stimulation of HeLa Cells Increases the Activity of the Anoxic Stress Protein, LDH 6/k: Suppression by Queuine

Reisser

Eicher

Langgut

1993

Biochemical and Biophysical Research Communications

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Alisa L. Eicher

Dexamethasone and High-Dose Methotrexate Improve Outcome for Children and Young Adults With High-Risk B-Acute Lymphoblastic Leukemia: A Report From Children’s Oncology Group Study AALL0232

Antioxidant role and subcellular location of hypotaurine and taurine in human neutrophils

Myeloperoxidase oxidation of sulfur‐centered and benzoic acid hydroxyl radical scavengers

The Oxidation of Hypotaurine to Taurine: Bis-Aminoethyl-α-Disulfone, A Metabolic Intermediate in Mammalian Tissue

Mitogenic Stimulation of HeLa Cells Increases the Activity of the Anoxic Stress Protein, LDH 6/k: Suppression by Queuine

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