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David Boothman

David Boothman

Indiana University Bloomington

H-index: 82

North America-United States

About David Boothman

David Boothman, With an exceptional h-index of 82 and a recent h-index of 40 (since 2020), a distinguished researcher at Indiana University Bloomington,

His recent articles reflect a diverse array of research interests and contributions to the field:

Tumor-selective combination therapy

Synergistic effect of ß-lapachone and aminooxyacetic acid on central metabolism in breast cancer.

Synergistic effect of β-lapachone and aminooxyacetic acid on central metabolism in breast cancer

Block copolymer and micelle compositions and methods of use thereof

Novel block copolymer and micelle compositions and methods of use thereof

Personalized genome-scale metabolic models identify targets of redox metabolism in radiation-resistant tumors

Inhibition of TXNRD or SOD1 overcomes NRF2-mediated resistance to β-lapachone

Targeting base excision repair in cancer: NQO1-bioactivatable drugs improve tumor selectivity and reduce treatment toxicity through radiosensitization of human cancer

David Boothman Information

University

Position

___

Citations(all)

20908

Citations(since 2020)

5425

Cited By

17836

hIndex(all)

82

hIndex(since 2020)

40

i10Index(all)

186

i10Index(since 2020)

113

Email

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University Profile Page

Indiana University Bloomington

Google Scholar

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Top articles of David Boothman

Title

Journal

Author(s)

Publication Date

Tumor-selective combination therapy

2022/5/26

Synergistic effect of ß-lapachone and aminooxyacetic acid on central metabolism in breast cancer.

Mario C Chang

Rohit Mahar

Marc A McLeod

Anthony G Giacalone

Xiu-mei Huang

...

2022/7/22

Synergistic effect of β-lapachone and aminooxyacetic acid on central metabolism in breast cancer

Nutrients

Mario C Chang

Rohit Mahar

Marc A McLeod

Anthony G Giacalone

Xiumei Huang

...

2022/7/22

Block copolymer and micelle compositions and methods of use thereof

2020/10/22

Novel block copolymer and micelle compositions and methods of use thereof

2021/7/1

Personalized genome-scale metabolic models identify targets of redox metabolism in radiation-resistant tumors

Cell systems

Joshua E Lewis

Tom E Forshaw

David A Boothman

Cristina M Furdui

Melissa L Kemp

2021/1/20

Inhibition of TXNRD or SOD1 overcomes NRF2-mediated resistance to β-lapachone

Redox biology

Laura Torrente

Nicolas Prieto-Farigua

Aimee Falzone

Cody M Elkins

David A Boothman

...

2020/2/1

Targeting base excision repair in cancer: NQO1-bioactivatable drugs improve tumor selectivity and reduce treatment toxicity through radiosensitization of human cancer

Colton L Starcher

S Louise Pay

Naveen Singh

I-Ju Yeh

Snehal B Bhandare

...

2020/8/19

Tissue analysis of NAD (P) H: quinone oxidoreductase (NQO1) and catalase expression in patients with germ cell tumors (GCT)

Cancer Research

Neda Hashemi Sadraei

Nabil Adra

Constance Temm

Kenneth A Kesler

Muhammad T Idrees

...

2020/8/15

Zinc metallochaperones for mutant p53 reactivation in cancer therapeutics

Cancer Research

Xin Yu

Bing Na

Saif Zaman

Tracy Withers

John Gilleran

...

2020/8/15

NAD (P) H: Quinone oxidoreductase (NQO1) and catalase expression in nonseminomatous germ cell tumors.

Neda Hashemi-Sadraei

Nabil Adra

Kenneth A Kessler

Muhammad T Idrees

Lawrence Einhorn

...

2020/2/20

NQO1-Bioactivatable Therapeutics as Radiosensitizers for Cancer Treatment

Naveen Singh

Edward A Motea

Xiumei Huang

Colton L Starcher

Jayne Silver

...

2020/2/13

MTHFD2 blockade enhances the efficacy of β-lapachone chemotherapy with ionizing radiation in head and neck squamous cell cancer

Frontiers in Oncology

Kirtikar Shukla

Naveen Singh

Joshua E Lewis

Allen W Tsang

David A Boothman

...

2020/11/11

See List of Professors in David Boothman University(Indiana University Bloomington)