The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective

Robert H. Press; Hui Kuo G. Shu; Hyunsuk Shim; James M. Mountz; Brenda F. Kurland; Richard L. Wahl; Ella F. Jones; Nola M. Hylton; Elizabeth R. Gerstner; Robert J. Nordstrom; Lori Henderson; Karen A. Kurdziel; Bhadrasain Vikram; Michael A. Jacobs; Matthias Holdhoff; Edward Taylor; David A. Jaffray; Lawrence H. Schwartz; David A. Mankoff; Paul E. Kinahan; Hannah M. Linden; Philippe Lambin; Thomas J. Dilling; Daniel L. Rubin; Lubomir Hadjiiski; John M. Buatti

doi:10.1016/j.ijrobp.2018.06.023

The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective

Robert H. Press, Hui Kuo G. Shu, Hyunsuk Shim, James M. Mountz, Brenda F. Kurland, Richard L. Wahl, Ella F. Jones, Nola M. Hylton, Elizabeth R. Gerstner, Robert J. Nordstrom, Lori Henderson, Karen A. Kurdziel, Bhadrasain Vikram, Michael A. Jacobs, Matthias Holdhoff, Edward Taylor, David A. Jaffray, Lawrence H. Schwartz, David A. Mankoff, Paul E. KinahanHannah M. Linden, Philippe Lambin, Thomas J. Dilling, Daniel L. Rubin, Lubomir Hadjiiski, John M. Buatti

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

28 Scopus citations

Abstract

Modern radiation therapy is delivered with great precision, in part by relying on high-resolution multidimensional anatomic imaging to define targets in space and time. The development of quantitative imaging (QI) modalities capable of monitoring biologic parameters could provide deeper insight into tumor biology and facilitate more personalized clinical decision-making. The Quantitative Imaging Network (QIN) was established by the National Cancer Institute to advance and validate these QI modalities in the context of oncology clinical trials. In particular, the QIN has significant interest in the application of QI to widen the therapeutic window of radiation therapy. QI modalities have great promise in radiation oncology and will help address significant clinical needs, including finer prognostication, more specific target delineation, reduction of normal tissue toxicity, identification of radioresistant disease, and clearer interpretation of treatment response. Patient-specific QI is being incorporated into radiation treatment design in ways such as dose escalation and adaptive replanning, with the intent of improving outcomes while lessening treatment morbidities. This review discusses the current vision of the QIN, current areas of investigation, and how the QIN hopes to enhance the integration of QI into the practice of radiation oncology.

Original language	English (US)
Pages (from-to)	1219-1235
Number of pages	17
Journal	International Journal of Radiation Oncology Biology Physics
Volume	102
Issue number	4
DOIs	https://doi.org/10.1016/j.ijrobp.2018.06.023
State	Published - Nov 15 2018
Externally published	Yes

ASJC Scopus subject areas

Radiation
Oncology
Radiology Nuclear Medicine and imaging
Cancer Research

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10.1016/j.ijrobp.2018.06.023

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Press, R. H., Shu, H. K. G., Shim, H., Mountz, J. M., Kurland, B. F., Wahl, R. L., Jones, E. F., Hylton, N. M., Gerstner, E. R., Nordstrom, R. J., Henderson, L., Kurdziel, K. A., Vikram, B., Jacobs, M. A., Holdhoff, M., Taylor, E., Jaffray, D. A., Schwartz, L. H., Mankoff, D. A., ... Buatti, J. M. (2018). The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective. International Journal of Radiation Oncology Biology Physics, 102(4), 1219-1235. https://doi.org/10.1016/j.ijrobp.2018.06.023

Press, RH, Shu, HKG, Shim, H, Mountz, JM, Kurland, BF, Wahl, RL, Jones, EF, Hylton, NM, Gerstner, ER, Nordstrom, RJ, Henderson, L, Kurdziel, KA, Vikram, B, Jacobs, MA, Holdhoff, M, Taylor, E, Jaffray, DA, Schwartz, LH, Mankoff, DA, Kinahan, PE, Linden, HM, Lambin, P, Dilling, TJ, Rubin, DL, Hadjiiski, L & Buatti, JM 2018, 'The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective', International Journal of Radiation Oncology Biology Physics, vol. 102, no. 4, pp. 1219-1235. https://doi.org/10.1016/j.ijrobp.2018.06.023

@article{fb0ce6121452489398aa88521cd1fc4d,

title = "The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective",

abstract = "Modern radiation therapy is delivered with great precision, in part by relying on high-resolution multidimensional anatomic imaging to define targets in space and time. The development of quantitative imaging (QI) modalities capable of monitoring biologic parameters could provide deeper insight into tumor biology and facilitate more personalized clinical decision-making. The Quantitative Imaging Network (QIN) was established by the National Cancer Institute to advance and validate these QI modalities in the context of oncology clinical trials. In particular, the QIN has significant interest in the application of QI to widen the therapeutic window of radiation therapy. QI modalities have great promise in radiation oncology and will help address significant clinical needs, including finer prognostication, more specific target delineation, reduction of normal tissue toxicity, identification of radioresistant disease, and clearer interpretation of treatment response. Patient-specific QI is being incorporated into radiation treatment design in ways such as dose escalation and adaptive replanning, with the intent of improving outcomes while lessening treatment morbidities. This review discusses the current vision of the QIN, current areas of investigation, and how the QIN hopes to enhance the integration of QI into the practice of radiation oncology.",

author = "Press, {Robert H.} and Shu, {Hui Kuo G.} and Hyunsuk Shim and Mountz, {James M.} and Kurland, {Brenda F.} and Wahl, {Richard L.} and Jones, {Ella F.} and Hylton, {Nola M.} and Gerstner, {Elizabeth R.} and Nordstrom, {Robert J.} and Lori Henderson and Kurdziel, {Karen A.} and Bhadrasain Vikram and Jacobs, {Michael A.} and Matthias Holdhoff and Edward Taylor and Jaffray, {David A.} and Schwartz, {Lawrence H.} and Mankoff, {David A.} and Kinahan, {Paul E.} and Linden, {Hannah M.} and Philippe Lambin and Dilling, {Thomas J.} and Rubin, {Daniel L.} and Lubomir Hadjiiski and Buatti, {John M.}",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Inc.",

year = "2018",

month = nov,

day = "15",

doi = "10.1016/j.ijrobp.2018.06.023",

language = "English (US)",

volume = "102",

pages = "1219--1235",

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T2 - A Quantitative Imaging Network (QIN) Perspective

AU - Press, Robert H.

AU - Shu, Hui Kuo G.

AU - Shim, Hyunsuk

AU - Mountz, James M.

AU - Kurland, Brenda F.

AU - Wahl, Richard L.

AU - Jones, Ella F.

AU - Hylton, Nola M.

AU - Gerstner, Elizabeth R.

AU - Nordstrom, Robert J.

AU - Henderson, Lori

AU - Kurdziel, Karen A.

AU - Vikram, Bhadrasain

AU - Jacobs, Michael A.

AU - Holdhoff, Matthias

AU - Taylor, Edward

AU - Jaffray, David A.

AU - Schwartz, Lawrence H.

AU - Mankoff, David A.

AU - Kinahan, Paul E.

AU - Linden, Hannah M.

AU - Lambin, Philippe

AU - Dilling, Thomas J.

AU - Rubin, Daniel L.

AU - Hadjiiski, Lubomir

AU - Buatti, John M.

PY - 2018/11/15

Y1 - 2018/11/15

N2 - Modern radiation therapy is delivered with great precision, in part by relying on high-resolution multidimensional anatomic imaging to define targets in space and time. The development of quantitative imaging (QI) modalities capable of monitoring biologic parameters could provide deeper insight into tumor biology and facilitate more personalized clinical decision-making. The Quantitative Imaging Network (QIN) was established by the National Cancer Institute to advance and validate these QI modalities in the context of oncology clinical trials. In particular, the QIN has significant interest in the application of QI to widen the therapeutic window of radiation therapy. QI modalities have great promise in radiation oncology and will help address significant clinical needs, including finer prognostication, more specific target delineation, reduction of normal tissue toxicity, identification of radioresistant disease, and clearer interpretation of treatment response. Patient-specific QI is being incorporated into radiation treatment design in ways such as dose escalation and adaptive replanning, with the intent of improving outcomes while lessening treatment morbidities. This review discusses the current vision of the QIN, current areas of investigation, and how the QIN hopes to enhance the integration of QI into the practice of radiation oncology.

AB - Modern radiation therapy is delivered with great precision, in part by relying on high-resolution multidimensional anatomic imaging to define targets in space and time. The development of quantitative imaging (QI) modalities capable of monitoring biologic parameters could provide deeper insight into tumor biology and facilitate more personalized clinical decision-making. The Quantitative Imaging Network (QIN) was established by the National Cancer Institute to advance and validate these QI modalities in the context of oncology clinical trials. In particular, the QIN has significant interest in the application of QI to widen the therapeutic window of radiation therapy. QI modalities have great promise in radiation oncology and will help address significant clinical needs, including finer prognostication, more specific target delineation, reduction of normal tissue toxicity, identification of radioresistant disease, and clearer interpretation of treatment response. Patient-specific QI is being incorporated into radiation treatment design in ways such as dose escalation and adaptive replanning, with the intent of improving outcomes while lessening treatment morbidities. This review discusses the current vision of the QIN, current areas of investigation, and how the QIN hopes to enhance the integration of QI into the practice of radiation oncology.

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ER -

The Use of Quantitative Imaging in Radiation Oncology: A Quantitative Imaging Network (QIN) Perspective

Abstract

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