Vessel architectural imaging identifies cancer patient responders to anti-angiogenic therapy

Kyrre E. Emblem; Kim Mouridsen; Atle Bjornerud; Christian T. Farrar; Dominique Jennings; Ronald J. H. Borra; Patrick Y. Wen; Percy Ivy; Tracy T. Batchelor; Bruce R. Rosen; Rakesh K. Jain; A. Gregory Sorensen

doi:10.1038/nm.3289

Vessel architectural imaging identifies cancer patient responders to anti-angiogenic therapy

Kyrre E. Emblem^*, Kim Mouridsen, Atle Bjornerud, Christian T. Farrar, Dominique Jennings, Ronald J. H. Borra, Patrick Y. Wen, Percy Ivy, Tracy T. Batchelor, Bruce R. Rosen, Rakesh K. Jain, A. Gregory Sorensen

^*Corresponding author for this work

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

213 Citations (Scopus)

Abstract

Measurement of vessel caliber by magnetic resonance imaging (MRI) is a valuable technique for in vivo monitoring of hemodynamic status and vascular development, especially in the brain. Here, we introduce a new paradigm in MRI termed vessel architectural imaging (VAI) that exploits an overlooked temporal shift in the magnetic resonance signal, forming the basis for vessel caliber estimation, and show how this phenomenon can reveal new information on vessel type and function not assessed by any other noninvasive imaging technique. We also show how this biomarker can provide new biological insights into the treatment of patients with cancer. As an example, we demonstrate using VAI that anti-angiogenic therapy can improve microcirculation and oxygen saturation and reduce vessel calibers in patients with recurrent glioblastomas and, more crucially, that patients with these responses have prolonged survival. Thus, VAI has the potential to identify patients who would benefit from therapies.

Original language	English
Pages (from-to)	1178-1183
Number of pages	6
Journal	Nature Medicine
Volume	19
Issue number	9
DOIs	https://doi.org/10.1038/nm.3289
Publication status	Published - Sept-2013

Keywords

ENDOTHELIAL GROWTH-FACTOR
MAGNETIC-SUSCEPTIBILITY
ANTIANGIOGENIC THERAPY
GLIOBLASTOMA PATIENTS
TUMOR ANGIOGENESIS
KINASE INHIBITOR
MR CONTRAST
VASCULATURE
MICROCIRCULATION
MECHANISMS

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Vessel architectural imaging identifies cancer patient responders to anti-angiogenic therapy
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@article{5550fe80b21f4a0c9a92a83284aeae47,

title = "Vessel architectural imaging identifies cancer patient responders to anti-angiogenic therapy",

abstract = "Measurement of vessel caliber by magnetic resonance imaging (MRI) is a valuable technique for in vivo monitoring of hemodynamic status and vascular development, especially in the brain. Here, we introduce a new paradigm in MRI termed vessel architectural imaging (VAI) that exploits an overlooked temporal shift in the magnetic resonance signal, forming the basis for vessel caliber estimation, and show how this phenomenon can reveal new information on vessel type and function not assessed by any other noninvasive imaging technique. We also show how this biomarker can provide new biological insights into the treatment of patients with cancer. As an example, we demonstrate using VAI that anti-angiogenic therapy can improve microcirculation and oxygen saturation and reduce vessel calibers in patients with recurrent glioblastomas and, more crucially, that patients with these responses have prolonged survival. Thus, VAI has the potential to identify patients who would benefit from therapies.",

keywords = "ENDOTHELIAL GROWTH-FACTOR, MAGNETIC-SUSCEPTIBILITY, ANTIANGIOGENIC THERAPY, GLIOBLASTOMA PATIENTS, TUMOR ANGIOGENESIS, KINASE INHIBITOR, MR CONTRAST, VASCULATURE, MICROCIRCULATION, MECHANISMS",

author = "Emblem, {Kyrre E.} and Kim Mouridsen and Atle Bjornerud and Farrar, {Christian T.} and Dominique Jennings and Borra, {Ronald J. H.} and Wen, {Patrick Y.} and Percy Ivy and Batchelor, {Tracy T.} and Rosen, {Bruce R.} and Jain, {Rakesh K.} and Sorensen, {A. Gregory}",

year = "2013",

month = sep,

doi = "10.1038/nm.3289",

language = "English",

volume = "19",

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journal = "Nature Medicine",

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AU - Emblem, Kyrre E.

AU - Mouridsen, Kim

AU - Bjornerud, Atle

AU - Farrar, Christian T.

AU - Jennings, Dominique

AU - Borra, Ronald J. H.

AU - Wen, Patrick Y.

AU - Ivy, Percy

AU - Batchelor, Tracy T.

AU - Rosen, Bruce R.

AU - Jain, Rakesh K.

AU - Sorensen, A. Gregory

PY - 2013/9

Y1 - 2013/9

N2 - Measurement of vessel caliber by magnetic resonance imaging (MRI) is a valuable technique for in vivo monitoring of hemodynamic status and vascular development, especially in the brain. Here, we introduce a new paradigm in MRI termed vessel architectural imaging (VAI) that exploits an overlooked temporal shift in the magnetic resonance signal, forming the basis for vessel caliber estimation, and show how this phenomenon can reveal new information on vessel type and function not assessed by any other noninvasive imaging technique. We also show how this biomarker can provide new biological insights into the treatment of patients with cancer. As an example, we demonstrate using VAI that anti-angiogenic therapy can improve microcirculation and oxygen saturation and reduce vessel calibers in patients with recurrent glioblastomas and, more crucially, that patients with these responses have prolonged survival. Thus, VAI has the potential to identify patients who would benefit from therapies.

AB - Measurement of vessel caliber by magnetic resonance imaging (MRI) is a valuable technique for in vivo monitoring of hemodynamic status and vascular development, especially in the brain. Here, we introduce a new paradigm in MRI termed vessel architectural imaging (VAI) that exploits an overlooked temporal shift in the magnetic resonance signal, forming the basis for vessel caliber estimation, and show how this phenomenon can reveal new information on vessel type and function not assessed by any other noninvasive imaging technique. We also show how this biomarker can provide new biological insights into the treatment of patients with cancer. As an example, we demonstrate using VAI that anti-angiogenic therapy can improve microcirculation and oxygen saturation and reduce vessel calibers in patients with recurrent glioblastomas and, more crucially, that patients with these responses have prolonged survival. Thus, VAI has the potential to identify patients who would benefit from therapies.

KW - ENDOTHELIAL GROWTH-FACTOR

KW - MAGNETIC-SUSCEPTIBILITY

KW - ANTIANGIOGENIC THERAPY

KW - GLIOBLASTOMA PATIENTS

KW - TUMOR ANGIOGENESIS

KW - KINASE INHIBITOR

KW - MR CONTRAST

KW - VASCULATURE

KW - MICROCIRCULATION

KW - MECHANISMS

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VL - 19

SP - 1178

EP - 1183

JO - Nature Medicine

JF - Nature Medicine

IS - 9

ER -

Vessel architectural imaging identifies cancer patient responders to anti-angiogenic therapy

Abstract

Keywords

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