Modalities for image- and molecular-guided cancer surgery

M. A. Stammes; S. L. Bugby; T. Porta; K. Pierzchalski; T. Devling; C. Otto; J. Dijkstra; A. L. Vahrmeijer; L. -F. de Geus-Oei; J. S. D. Mieog

doi:10.1002/bjs.10789

Modalities for image- and molecular-guided cancer surgery

M. A. Stammes, S. L. Bugby, T. Porta, K. Pierzchalski, T. Devling, C. Otto, J. Dijkstra, A. L. Vahrmeijer, L. -F. de Geus-Oei, J. S. D. Mieog^*

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

Background: Surgery is the cornerstone of treatment for many solid tumours. A wide variety of imaging modalities are available before surgery for staging, although surgeons still rely primarily on visual and haptic cues in the operating environment. Image and molecular guidance might improve the adequacy of resection through enhanced tumour definition and detection of aberrant deposits. Intraoperative modalities available for image-and molecular-guided cancer surgery are reviewed here.

Methods: Intraoperative cancer detection techniques were identified through a systematic literature search, with selection of peer-reviewed publications from January 2012 to January 2017. Modalities were reviewed, described and compared according to 25 predefined characteristics. To summarize the data in a comparable way, a three-point rating scale was applied to quantitative characteristics.

Results: The search identified ten image-and molecular-guided surgery techniques, which can be divided into four groups: conventional, optical, nuclear and endogenous reflectance modalities. Conventional techniques are the most well known imaging modalities, but unfortunately have the drawback of a defined resolution and long acquisition time. Optical imaging is a real-time modality; however, the penetration depth is limited. Nuclear modalities have excellent penetration depth, but their intraoperative use is limited by the use of radioactivity. Endogenous reflectance modalities provide high resolution, although with a narrow field of view.

Conclusion: Each modality has its strengths and weaknesses; no single technique will be suitable for all surgical procedures. Strict selection of modalities per cancer type and surgical requirements is required as well as combining techniques to find the optimal balance.

Original language	English
Pages (from-to)	E69-E83
Number of pages	15
Journal	British Journal of Surgery
Volume	105
Issue number	2
DOIs	https://doi.org/10.1002/bjs.10789
Publication status	Published - Jan 2018

Keywords

BRAIN-TUMOR SURGERY
OPTICAL COHERENCE TOMOGRAPHY
HYBRID GAMMA-CAMERA
MAGNETIC-RESONANCE
MASS-SPECTROMETRY
CERENKOV LUMINESCENCE
COMPUTED-TOMOGRAPHY
ONCOLOGIC SURGERY
GRADE GLIOMAS
BREAST-CANCER

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@article{e78a1cfb553f44158304793b1ed3944d,

title = "Modalities for image- and molecular-guided cancer surgery",

abstract = "Background: Surgery is the cornerstone of treatment for many solid tumours. A wide variety of imaging modalities are available before surgery for staging, although surgeons still rely primarily on visual and haptic cues in the operating environment. Image and molecular guidance might improve the adequacy of resection through enhanced tumour definition and detection of aberrant deposits. Intraoperative modalities available for image-and molecular-guided cancer surgery are reviewed here.Methods: Intraoperative cancer detection techniques were identified through a systematic literature search, with selection of peer-reviewed publications from January 2012 to January 2017. Modalities were reviewed, described and compared according to 25 predefined characteristics. To summarize the data in a comparable way, a three-point rating scale was applied to quantitative characteristics.Results: The search identified ten image-and molecular-guided surgery techniques, which can be divided into four groups: conventional, optical, nuclear and endogenous reflectance modalities. Conventional techniques are the most well known imaging modalities, but unfortunately have the drawback of a defined resolution and long acquisition time. Optical imaging is a real-time modality; however, the penetration depth is limited. Nuclear modalities have excellent penetration depth, but their intraoperative use is limited by the use of radioactivity. Endogenous reflectance modalities provide high resolution, although with a narrow field of view.Conclusion: Each modality has its strengths and weaknesses; no single technique will be suitable for all surgical procedures. Strict selection of modalities per cancer type and surgical requirements is required as well as combining techniques to find the optimal balance.",

keywords = "BRAIN-TUMOR SURGERY, OPTICAL COHERENCE TOMOGRAPHY, HYBRID GAMMA-CAMERA, MAGNETIC-RESONANCE, MASS-SPECTROMETRY, CERENKOV LUMINESCENCE, COMPUTED-TOMOGRAPHY, ONCOLOGIC SURGERY, GRADE GLIOMAS, BREAST-CANCER",

author = "Stammes, {M. A.} and Bugby, {S. L.} and T. Porta and K. Pierzchalski and T. Devling and C. Otto and J. Dijkstra and Vahrmeijer, {A. L.} and {de Geus-Oei}, {L. -F.} and Mieog, {J. S. D.}",

year = "2018",

month = jan,

doi = "10.1002/bjs.10789",

language = "English",

volume = "105",

pages = "E69--E83",

journal = "British Journal of Surgery",

issn = "0007-1323",

publisher = "Oxford University Press",

number = "2",

}

TY - JOUR

T1 - Modalities for image- and molecular-guided cancer surgery

AU - Stammes, M. A.

AU - Bugby, S. L.

AU - Porta, T.

AU - Pierzchalski, K.

AU - Devling, T.

AU - Otto, C.

AU - Dijkstra, J.

AU - Vahrmeijer, A. L.

AU - de Geus-Oei, L. -F.

AU - Mieog, J. S. D.

PY - 2018/1

Y1 - 2018/1

N2 - Background: Surgery is the cornerstone of treatment for many solid tumours. A wide variety of imaging modalities are available before surgery for staging, although surgeons still rely primarily on visual and haptic cues in the operating environment. Image and molecular guidance might improve the adequacy of resection through enhanced tumour definition and detection of aberrant deposits. Intraoperative modalities available for image-and molecular-guided cancer surgery are reviewed here.Methods: Intraoperative cancer detection techniques were identified through a systematic literature search, with selection of peer-reviewed publications from January 2012 to January 2017. Modalities were reviewed, described and compared according to 25 predefined characteristics. To summarize the data in a comparable way, a three-point rating scale was applied to quantitative characteristics.Results: The search identified ten image-and molecular-guided surgery techniques, which can be divided into four groups: conventional, optical, nuclear and endogenous reflectance modalities. Conventional techniques are the most well known imaging modalities, but unfortunately have the drawback of a defined resolution and long acquisition time. Optical imaging is a real-time modality; however, the penetration depth is limited. Nuclear modalities have excellent penetration depth, but their intraoperative use is limited by the use of radioactivity. Endogenous reflectance modalities provide high resolution, although with a narrow field of view.Conclusion: Each modality has its strengths and weaknesses; no single technique will be suitable for all surgical procedures. Strict selection of modalities per cancer type and surgical requirements is required as well as combining techniques to find the optimal balance.

AB - Background: Surgery is the cornerstone of treatment for many solid tumours. A wide variety of imaging modalities are available before surgery for staging, although surgeons still rely primarily on visual and haptic cues in the operating environment. Image and molecular guidance might improve the adequacy of resection through enhanced tumour definition and detection of aberrant deposits. Intraoperative modalities available for image-and molecular-guided cancer surgery are reviewed here.Methods: Intraoperative cancer detection techniques were identified through a systematic literature search, with selection of peer-reviewed publications from January 2012 to January 2017. Modalities were reviewed, described and compared according to 25 predefined characteristics. To summarize the data in a comparable way, a three-point rating scale was applied to quantitative characteristics.Results: The search identified ten image-and molecular-guided surgery techniques, which can be divided into four groups: conventional, optical, nuclear and endogenous reflectance modalities. Conventional techniques are the most well known imaging modalities, but unfortunately have the drawback of a defined resolution and long acquisition time. Optical imaging is a real-time modality; however, the penetration depth is limited. Nuclear modalities have excellent penetration depth, but their intraoperative use is limited by the use of radioactivity. Endogenous reflectance modalities provide high resolution, although with a narrow field of view.Conclusion: Each modality has its strengths and weaknesses; no single technique will be suitable for all surgical procedures. Strict selection of modalities per cancer type and surgical requirements is required as well as combining techniques to find the optimal balance.

KW - BRAIN-TUMOR SURGERY

KW - OPTICAL COHERENCE TOMOGRAPHY

KW - HYBRID GAMMA-CAMERA

KW - MAGNETIC-RESONANCE

KW - MASS-SPECTROMETRY

KW - CERENKOV LUMINESCENCE

KW - COMPUTED-TOMOGRAPHY

KW - ONCOLOGIC SURGERY

KW - GRADE GLIOMAS

KW - BREAST-CANCER

U2 - 10.1002/bjs.10789

DO - 10.1002/bjs.10789

M3 - (Systematic) Review article

C2 - 29341161

SN - 0007-1323

VL - 105

SP - E69-E83

JO - British Journal of Surgery

JF - British Journal of Surgery

IS - 2

ER -

Modalities for image- and molecular-guided cancer surgery

Abstract

Keywords

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