Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology

Wilfred Ngwa; Twalib Ngoma; Anthony Zietman; Nina Mayr; Ahmed Elzawawy; Thomas A. Winningham; Onyinye Balogun; Nelly Enwerem-Bromson; Christian Ntizimira; Olufunmilayo I. Olopade; Doyin Oluwole; Folakemi Odedina; Makeda Williams; John Flanigan; Lydia Asana; Kenneth Ngwa; Stephen Avery; Julianne M. Pollard; Teboh Roland; Neba Funwi-Gabga; Victor Mbarika; Patricia Hardenbergh; Karen Winkfield; Yakov Pipman; Christina Stefan; Mamsau Ngoma; Sulma Mohammed; Matthew Katz; Sajo Erno; Janaki Moni; Thomas Fitzgerald; Nathan Tonlaar; Jason Efstathiou; David Gierga; Charles Ayo; Felicia Knaul; Mary Gospodarowicz; G. Mike Makrigiorgos; Paul L. Nguyen

doi:10.1016/j.ijrobp.2015.10.063

Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology

Wilfred Ngwa, Twalib Ngoma, Anthony Zietman, Nina Mayr, Ahmed Elzawawy, Thomas A. Winningham, Onyinye Balogun, Nelly Enwerem-Bromson, Christian Ntizimira, Olufunmilayo I. Olopade, Doyin Oluwole, Folakemi Odedina, Makeda Williams, John Flanigan, Lydia Asana, Kenneth Ngwa, Stephen Avery, Julianne M. Pollard, Teboh Roland, Neba Funwi-GabgaVictor Mbarika, Patricia Hardenbergh, Karen Winkfield, Yakov Pipman, Christina Stefan, Mamsau Ngoma, Sulma Mohammed, Matthew Katz, Sajo Erno, Janaki Moni, Thomas Fitzgerald, Nathan Tonlaar, Jason Efstathiou, David Gierga, Charles Ayo, Felicia Knaul, Mary Gospodarowicz, G. Mike Makrigiorgos, Paul L. Nguyen

Quantitative Health Sciences

Research output: Contribution to journal › Editorial › peer-review

Original language	English (US)
Pages (from-to)	440-449
Number of pages	10
Journal	International Journal of Radiation Oncology Biology Physics
Volume	94
Issue number	3
DOIs	https://doi.org/10.1016/j.ijrobp.2015.10.063
State	Published - 2016

ASJC Scopus subject areas

Radiation
Oncology
Radiology Nuclear Medicine and imaging
Cancer Research

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Ngwa, W., Ngoma, T., Zietman, A., Mayr, N., Elzawawy, A., Winningham, T. A., Balogun, O., Enwerem-Bromson, N., Ntizimira, C., Olopade, O. I., Oluwole, D., Odedina, F., Williams, M., Flanigan, J., Asana, L., Ngwa, K., Avery, S., Pollard, J. M., Roland, T., ... Nguyen, P. L. (2016). Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology. International Journal of Radiation Oncology Biology Physics, 94(3), 440-449. https://doi.org/10.1016/j.ijrobp.2015.10.063

Ngwa, W, Ngoma, T, Zietman, A, Mayr, N, Elzawawy, A, Winningham, TA, Balogun, O, Enwerem-Bromson, N, Ntizimira, C, Olopade, OI, Oluwole, D, Odedina, F, Williams, M, Flanigan, J, Asana, L, Ngwa, K, Avery, S, Pollard, JM, Roland, T, Funwi-Gabga, N, Mbarika, V, Hardenbergh, P, Winkfield, K, Pipman, Y, Stefan, C, Ngoma, M, Mohammed, S, Katz, M, Erno, S, Moni, J, Fitzgerald, T, Tonlaar, N, Efstathiou, J, Gierga, D, Ayo, C, Knaul, F, Gospodarowicz, M, Makrigiorgos, GM & Nguyen, PL 2016, 'Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology', International Journal of Radiation Oncology Biology Physics, vol. 94, no. 3, pp. 440-449. https://doi.org/10.1016/j.ijrobp.2015.10.063

@article{0fca71c279194e89a6b559ba04ffd7de,

title = "Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology",

author = "Wilfred Ngwa and Twalib Ngoma and Anthony Zietman and Nina Mayr and Ahmed Elzawawy and Winningham, {Thomas A.} and Onyinye Balogun and Nelly Enwerem-Bromson and Christian Ntizimira and Olopade, {Olufunmilayo I.} and Doyin Oluwole and Folakemi Odedina and Makeda Williams and John Flanigan and Lydia Asana and Kenneth Ngwa and Stephen Avery and Pollard, {Julianne M.} and Teboh Roland and Neba Funwi-Gabga and Victor Mbarika and Patricia Hardenbergh and Karen Winkfield and Yakov Pipman and Christina Stefan and Mamsau Ngoma and Sulma Mohammed and Matthew Katz and Sajo Erno and Janaki Moni and Thomas Fitzgerald and Nathan Tonlaar and Jason Efstathiou and David Gierga and Charles Ayo and Felicia Knaul and Mary Gospodarowicz and Makrigiorgos, {G. Mike} and Nguyen, {Paul L.}",

note = "Funding Information: ICT-powered models for global radiation oncology research are only beginning to emerge. One model is the planned launch of the GHC microgrant competition referencing the model of the United States National Cancer Institute's Beginning Investigator Grant for Catalytic Research (NCI BIG Cat) (22) but incorporating a component of crowdfunding. The program will particularly promote transatlantic research collaborations and comentorship between LMIC faculty in Africa and faculty at NCI comprehensive cancer centers such as the Dana Farber/Harvard Cancer Center. A major goal for this effort is to promote submission of results in conference abstracts and publications with coauthors from both LMICs and US institutions. A primary focus is to grow trans-Atlantic partnerships with LMICs in sub-Saharan Africa, help grow visibility for LMIC partners, and generate new knowledge or preliminary data that could lead to more grant funding or new hypotheses. The crowdfunding approach (11) will also deliberately grow engagement with the African diaspora. It will enhance appreciation of highly meritorious cancer research that transcends continents, advancing health care and economic development. Development of low-cost technologies in radiation oncology that can be used and/or easily maintained in LMICs, including mobile health technologies, are also needed, for example, for treatment, quality assurance, imaging, dosimetry, and others. Some of these technologies continue to be developed as highlighted at the GHC summit. The NCI currently has a funding mechanism for supporting such research, and this should be encouraged for both developed countries and LMIC researchers. Elzawawy has recently highlighted some of such resource sparing, cost-effective radiation therapy techniques and methodologies that would lead to increase affordability of radiation therapy cancer care for more patients who are in need (23) . ",

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doi = "10.1016/j.ijrobp.2015.10.063",

language = "English (US)",

volume = "94",

pages = "440--449",

journal = "International Journal of Radiation Oncology Biology Physics",

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number = "3",

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TY - JOUR

T1 - Closing the Cancer Divide Through Ubuntu

T2 - Information and Communication Technology-Powered Models for Global Radiation Oncology

AU - Ngwa, Wilfred

AU - Ngoma, Twalib

AU - Zietman, Anthony

AU - Mayr, Nina

AU - Elzawawy, Ahmed

AU - Winningham, Thomas A.

AU - Balogun, Onyinye

AU - Enwerem-Bromson, Nelly

AU - Ntizimira, Christian

AU - Olopade, Olufunmilayo I.

AU - Oluwole, Doyin

AU - Odedina, Folakemi

AU - Williams, Makeda

AU - Flanigan, John

AU - Asana, Lydia

AU - Ngwa, Kenneth

AU - Avery, Stephen

AU - Pollard, Julianne M.

AU - Roland, Teboh

AU - Funwi-Gabga, Neba

AU - Mbarika, Victor

AU - Hardenbergh, Patricia

AU - Winkfield, Karen

AU - Pipman, Yakov

AU - Stefan, Christina

AU - Ngoma, Mamsau

AU - Mohammed, Sulma

AU - Katz, Matthew

AU - Erno, Sajo

AU - Moni, Janaki

AU - Fitzgerald, Thomas

AU - Tonlaar, Nathan

AU - Efstathiou, Jason

AU - Gierga, David

AU - Ayo, Charles

AU - Knaul, Felicia

AU - Gospodarowicz, Mary

AU - Makrigiorgos, G. Mike

AU - Nguyen, Paul L.

N1 - Funding Information: ICT-powered models for global radiation oncology research are only beginning to emerge. One model is the planned launch of the GHC microgrant competition referencing the model of the United States National Cancer Institute's Beginning Investigator Grant for Catalytic Research (NCI BIG Cat) (22) but incorporating a component of crowdfunding. The program will particularly promote transatlantic research collaborations and comentorship between LMIC faculty in Africa and faculty at NCI comprehensive cancer centers such as the Dana Farber/Harvard Cancer Center. A major goal for this effort is to promote submission of results in conference abstracts and publications with coauthors from both LMICs and US institutions. A primary focus is to grow trans-Atlantic partnerships with LMICs in sub-Saharan Africa, help grow visibility for LMIC partners, and generate new knowledge or preliminary data that could lead to more grant funding or new hypotheses. The crowdfunding approach (11) will also deliberately grow engagement with the African diaspora. It will enhance appreciation of highly meritorious cancer research that transcends continents, advancing health care and economic development. Development of low-cost technologies in radiation oncology that can be used and/or easily maintained in LMICs, including mobile health technologies, are also needed, for example, for treatment, quality assurance, imaging, dosimetry, and others. Some of these technologies continue to be developed as highlighted at the GHC summit. The NCI currently has a funding mechanism for supporting such research, and this should be encouraged for both developed countries and LMIC researchers. Elzawawy has recently highlighted some of such resource sparing, cost-effective radiation therapy techniques and methodologies that would lead to increase affordability of radiation therapy cancer care for more patients who are in need (23) .

PY - 2016

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JO - International Journal of Radiation Oncology Biology Physics

JF - International Journal of Radiation Oncology Biology Physics

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ER -

Closing the Cancer Divide Through Ubuntu: Information and Communication Technology-Powered Models for Global Radiation Oncology

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