A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent

Pieter Jan Steinkamp; Floris Jan Voskuil; Bert van der Vegt; Jan Johannes Doff; Kees-Pieter Schepman; Sebastiaan Antonius Hendrik Johannes de Visscher; Wendy Kelder; Yalia Jayalakshmi; Jinming Gao; Baran Devrim Sumer; Gooitzen Michell van Dam; Max Johannes Hendrikus Witjes

doi:10.1007/s11307-021-01614-z

A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent

Pieter Jan Steinkamp, Floris Jan Voskuil, Bert van der Vegt, Jan Johannes Doff, Kees-Pieter Schepman, Sebastiaan Antonius Hendrik Johannes de Visscher, Wendy Kelder, Yalia Jayalakshmi, Jinming Gao, Baran Devrim Sumer, Gooitzen Michell van Dam, Max Johannes Hendrikus Witjes^*

^*Corresponding author for this work

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

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Abstract

PURPOSE: Intra-operative management of the surgical margin in patients diagnosed with head and neck squamous cell carcinoma (HNSCC) remains challenging as surgeons still have to rely on visual and tactile information. Fluorescence-guided surgery using tumor-specific imaging agents can assist in clinical decision-making. However, a standardized imaging methodology is lacking. In this study, we determined whether a standardized, specimen-driven, fluorescence imaging framework using ONM-100 could assist in clinical decision-making during surgery.

PROCEDURES: Thirteen patients with histologically proven HNSCC were included in this clinical study and received ONM-100 24 ± 8 h before surgery. Fluorescence images of the excised surgical specimen and of the surgical cavity were analyzed. A fluorescent lesion with a tumor-to-background ratio (TBR) > 1.5 was considered fluorescence-positive and correlated to standard of care (SOC) histopathology.

RESULTS: All six tumor-positive surgical margins were detected immediately after excision using fluorescence-guided intra-operative imaging. Postoperative analysis showed a median TBR (±IQR) of the fluorescent lesions on the resection margin of 3.36 ± 1.62. Three fluorescence-positive lesions in the surgical cavity were biopsied and showed occult carcinoma and severe dysplasia, and a false-positive fluorescence lesion.

CONCLUSION: Our specimen-driven fluorescence framework using a novel, pH-activatable, fluorescent imaging agent could assist in reliable and real-time adequate clinical decision-making showing that a fluorescent lesion on the surgical specimen with a TBR of 1.5 is correlated to a tumor-positive resection margin. The binary mechanism of ONM-100 allows for a sharp tumor delineation in all patients, giving the surgeon a clinical tool for real-time margin assessment, with a high sensitivity.

Original language	English
Number of pages	9
Journal	Molecular Imaging and Biology
Early online date	24-May-2021
DOIs	https://doi.org/10.1007/s11307-021-01614-z
Publication status	Published - 2021

Keywords

Fluorescence-guided surgery
pH activation
Tumor type-agnostic imaging
Margin assessment
Standardization
SURGICAL MARGINS

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Steinkamp, P. J., Voskuil, F. J., van der Vegt, B., Doff, J. J., Schepman, K.-P., de Visscher, S. A. H. J., Kelder, W., Jayalakshmi, Y., Gao, J., Sumer, B. D., van Dam, G. M., & Witjes, M. J. H. (2021). A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent. Molecular Imaging and Biology. https://doi.org/10.1007/s11307-021-01614-z

@article{df63d79b6301491f9a6b5155db107a25,

title = "A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent",

abstract = "PURPOSE: Intra-operative management of the surgical margin in patients diagnosed with head and neck squamous cell carcinoma (HNSCC) remains challenging as surgeons still have to rely on visual and tactile information. Fluorescence-guided surgery using tumor-specific imaging agents can assist in clinical decision-making. However, a standardized imaging methodology is lacking. In this study, we determined whether a standardized, specimen-driven, fluorescence imaging framework using ONM-100 could assist in clinical decision-making during surgery.PROCEDURES: Thirteen patients with histologically proven HNSCC were included in this clinical study and received ONM-100 24 ± 8 h before surgery. Fluorescence images of the excised surgical specimen and of the surgical cavity were analyzed. A fluorescent lesion with a tumor-to-background ratio (TBR) > 1.5 was considered fluorescence-positive and correlated to standard of care (SOC) histopathology.RESULTS: All six tumor-positive surgical margins were detected immediately after excision using fluorescence-guided intra-operative imaging. Postoperative analysis showed a median TBR (±IQR) of the fluorescent lesions on the resection margin of 3.36 ± 1.62. Three fluorescence-positive lesions in the surgical cavity were biopsied and showed occult carcinoma and severe dysplasia, and a false-positive fluorescence lesion.CONCLUSION: Our specimen-driven fluorescence framework using a novel, pH-activatable, fluorescent imaging agent could assist in reliable and real-time adequate clinical decision-making showing that a fluorescent lesion on the surgical specimen with a TBR of 1.5 is correlated to a tumor-positive resection margin. The binary mechanism of ONM-100 allows for a sharp tumor delineation in all patients, giving the surgeon a clinical tool for real-time margin assessment, with a high sensitivity.",

keywords = "Fluorescence-guided surgery, pH activation, Tumor type-agnostic imaging, Margin assessment, Standardization, SURGICAL MARGINS",

author = "Steinkamp, {Pieter Jan} and Voskuil, {Floris Jan} and {van der Vegt}, Bert and Doff, {Jan Johannes} and Kees-Pieter Schepman and {de Visscher}, {Sebastiaan Antonius Hendrik Johannes} and Wendy Kelder and Yalia Jayalakshmi and Jinming Gao and Sumer, {Baran Devrim} and {van Dam}, {Gooitzen Michell} and Witjes, {Max Johannes Hendrikus}",

year = "2021",

doi = "10.1007/s11307-021-01614-z",

language = "English",

journal = "Molecular Imaging and Biology",

issn = "1536-1632",

publisher = "Springer",

}

Steinkamp, PJ, Voskuil, FJ , van der Vegt, B , Doff, JJ , Schepman, K-P , de Visscher, SAHJ, Kelder, W, Jayalakshmi, Y, Gao, J, Sumer, BD, van Dam, GM & Witjes, MJH 2021, 'A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent', Molecular Imaging and Biology. https://doi.org/10.1007/s11307-021-01614-z

TY - JOUR

T1 - A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent

AU - Steinkamp, Pieter Jan

AU - Voskuil, Floris Jan

AU - van der Vegt, Bert

AU - Doff, Jan Johannes

AU - Schepman, Kees-Pieter

AU - de Visscher, Sebastiaan Antonius Hendrik Johannes

AU - Kelder, Wendy

AU - Jayalakshmi, Yalia

AU - Gao, Jinming

AU - Sumer, Baran Devrim

AU - van Dam, Gooitzen Michell

AU - Witjes, Max Johannes Hendrikus

PY - 2021

Y1 - 2021

N2 - PURPOSE: Intra-operative management of the surgical margin in patients diagnosed with head and neck squamous cell carcinoma (HNSCC) remains challenging as surgeons still have to rely on visual and tactile information. Fluorescence-guided surgery using tumor-specific imaging agents can assist in clinical decision-making. However, a standardized imaging methodology is lacking. In this study, we determined whether a standardized, specimen-driven, fluorescence imaging framework using ONM-100 could assist in clinical decision-making during surgery.PROCEDURES: Thirteen patients with histologically proven HNSCC were included in this clinical study and received ONM-100 24 ± 8 h before surgery. Fluorescence images of the excised surgical specimen and of the surgical cavity were analyzed. A fluorescent lesion with a tumor-to-background ratio (TBR) > 1.5 was considered fluorescence-positive and correlated to standard of care (SOC) histopathology.RESULTS: All six tumor-positive surgical margins were detected immediately after excision using fluorescence-guided intra-operative imaging. Postoperative analysis showed a median TBR (±IQR) of the fluorescent lesions on the resection margin of 3.36 ± 1.62. Three fluorescence-positive lesions in the surgical cavity were biopsied and showed occult carcinoma and severe dysplasia, and a false-positive fluorescence lesion.CONCLUSION: Our specimen-driven fluorescence framework using a novel, pH-activatable, fluorescent imaging agent could assist in reliable and real-time adequate clinical decision-making showing that a fluorescent lesion on the surgical specimen with a TBR of 1.5 is correlated to a tumor-positive resection margin. The binary mechanism of ONM-100 allows for a sharp tumor delineation in all patients, giving the surgeon a clinical tool for real-time margin assessment, with a high sensitivity.

AB - PURPOSE: Intra-operative management of the surgical margin in patients diagnosed with head and neck squamous cell carcinoma (HNSCC) remains challenging as surgeons still have to rely on visual and tactile information. Fluorescence-guided surgery using tumor-specific imaging agents can assist in clinical decision-making. However, a standardized imaging methodology is lacking. In this study, we determined whether a standardized, specimen-driven, fluorescence imaging framework using ONM-100 could assist in clinical decision-making during surgery.PROCEDURES: Thirteen patients with histologically proven HNSCC were included in this clinical study and received ONM-100 24 ± 8 h before surgery. Fluorescence images of the excised surgical specimen and of the surgical cavity were analyzed. A fluorescent lesion with a tumor-to-background ratio (TBR) > 1.5 was considered fluorescence-positive and correlated to standard of care (SOC) histopathology.RESULTS: All six tumor-positive surgical margins were detected immediately after excision using fluorescence-guided intra-operative imaging. Postoperative analysis showed a median TBR (±IQR) of the fluorescent lesions on the resection margin of 3.36 ± 1.62. Three fluorescence-positive lesions in the surgical cavity were biopsied and showed occult carcinoma and severe dysplasia, and a false-positive fluorescence lesion.CONCLUSION: Our specimen-driven fluorescence framework using a novel, pH-activatable, fluorescent imaging agent could assist in reliable and real-time adequate clinical decision-making showing that a fluorescent lesion on the surgical specimen with a TBR of 1.5 is correlated to a tumor-positive resection margin. The binary mechanism of ONM-100 allows for a sharp tumor delineation in all patients, giving the surgeon a clinical tool for real-time margin assessment, with a high sensitivity.

KW - Fluorescence-guided surgery

KW - pH activation

KW - Tumor type-agnostic imaging

KW - Margin assessment

KW - Standardization

KW - SURGICAL MARGINS

U2 - 10.1007/s11307-021-01614-z

DO - 10.1007/s11307-021-01614-z

M3 - Article

C2 - 34031845

SN - 1536-1632

JO - Molecular Imaging and Biology

JF - Molecular Imaging and Biology

ER -

A Standardized Framework for Fluorescence-Guided Margin Assessment for Head and Neck Cancer Using a Tumor Acidosis Sensitive Optical Imaging Agent

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