18F-FDG PET image biomarkers improve prediction of late radiation-induced xerostomia

Lisanne V van Dijk; Walter Noordzij; Charlotte L Brouwer; Ronald Boellaard; Johannes G M Burgerhof; Johannes A Langendijk; Nanna M Sijtsema; Roel J H M Steenbakkers

doi:https://doi.org/10.1016/j.radonc.2017.08.024

18F-FDG PET image biomarkers improve prediction of late radiation-induced xerostomia

Lisanne V van Dijk, Walter Noordzij, Charlotte L Brouwer, Ronald Boellaard, Johannes G M Burgerhof, Johannes A Langendijk, Nanna M Sijtsema, Roel J H M Steenbakkers

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

53 Citations (Scopus)

Abstract

BACKGROUND AND PURPOSE: Current prediction of radiation-induced xerostomia 12months after radiotherapy (Xer12m) is based on mean parotid gland dose and baseline xerostomia (Xerbaseline) scores. The hypothesis of this study was that prediction of Xer12m is improved with patient-specific characteristics extracted from 18F-FDG PET images, quantified in PET image biomarkers (PET-IBMs).

PATIENTS AND METHODS: Intensity and textural PET-IBMs of the parotid gland were collected from pre-treatment 18F-FDG PET images of 161 head and neck cancer patients. Patient-rated toxicity was prospectively collected. Multivariable logistic regression models resulting from step-wise forward selection and Lasso regularisation were internally validated by bootstrapping. The reference model with parotid gland dose and Xerbaseline was compared with the resulting PET-IBM models.

RESULTS: High values of the intensity PET-IBM (90th percentile (P90)) and textural PET-IBM (Long Run High Grey-level Emphasis 3 (LRHG3E)) were significantly associated with lower risk of Xer12m. Both PET-IBMs significantly added in the prediction of Xer12m to the reference model. The AUC increased from 0.73 (0.65-0.81) (reference model) to 0.77 (0.70-0.84) (P90) and 0.77 (0.69-0.84) (LRHG3E).

CONCLUSION: Prediction of Xer12m was significantly improved with pre-treatment PET-IBMs, indicating that high metabolic parotid gland activity is associated with lower risk of developing late xerostomia. This study highlights the potential of incorporating patient-specific PET-derived functional characteristics into NTCP model development.

Original language	English
Pages (from-to)	89-95
Journal	Radiotherapy and oncology
Volume	126
Issue number	1
DOIs	https://doi.org/10.1016/j.radonc.2017.08.024
Publication status	Published - Jan 2018

Keywords

Journal Article

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https://doi.org/10.1016/j.radonc.2017.08.024

Cite this

@article{85587e1dda424a328758efb570296520,

title = "18F-FDG PET image biomarkers improve prediction of late radiation-induced xerostomia",

abstract = "BACKGROUND AND PURPOSE: Current prediction of radiation-induced xerostomia 12months after radiotherapy (Xer12m) is based on mean parotid gland dose and baseline xerostomia (Xerbaseline) scores. The hypothesis of this study was that prediction of Xer12m is improved with patient-specific characteristics extracted from 18F-FDG PET images, quantified in PET image biomarkers (PET-IBMs).PATIENTS AND METHODS: Intensity and textural PET-IBMs of the parotid gland were collected from pre-treatment 18F-FDG PET images of 161 head and neck cancer patients. Patient-rated toxicity was prospectively collected. Multivariable logistic regression models resulting from step-wise forward selection and Lasso regularisation were internally validated by bootstrapping. The reference model with parotid gland dose and Xerbaseline was compared with the resulting PET-IBM models.RESULTS: High values of the intensity PET-IBM (90th percentile (P90)) and textural PET-IBM (Long Run High Grey-level Emphasis 3 (LRHG3E)) were significantly associated with lower risk of Xer12m. Both PET-IBMs significantly added in the prediction of Xer12m to the reference model. The AUC increased from 0.73 (0.65-0.81) (reference model) to 0.77 (0.70-0.84) (P90) and 0.77 (0.69-0.84) (LRHG3E).CONCLUSION: Prediction of Xer12m was significantly improved with pre-treatment PET-IBMs, indicating that high metabolic parotid gland activity is associated with lower risk of developing late xerostomia. This study highlights the potential of incorporating patient-specific PET-derived functional characteristics into NTCP model development.",

keywords = "Journal Article",

author = "{van Dijk}, {Lisanne V} and Walter Noordzij and Brouwer, {Charlotte L} and Ronald Boellaard and Burgerhof, {Johannes G M} and Langendijk, {Johannes A} and Sijtsema, {Nanna M} and Steenbakkers, {Roel J H M}",

year = "2018",

month = jan,

doi = "https://doi.org/10.1016/j.radonc.2017.08.024",

language = "English",

volume = "126",

pages = "89--95",

journal = "Radiotherapy and oncology",

issn = "0167-8140",

publisher = "Elsevier Ireland Ltd",

number = "1",

}

TY - JOUR

T1 - 18F-FDG PET image biomarkers improve prediction of late radiation-induced xerostomia

AU - van Dijk, Lisanne V

AU - Noordzij, Walter

AU - Brouwer, Charlotte L

AU - Boellaard, Ronald

AU - Burgerhof, Johannes G M

AU - Langendijk, Johannes A

AU - Sijtsema, Nanna M

AU - Steenbakkers, Roel J H M

PY - 2018/1

Y1 - 2018/1

N2 - BACKGROUND AND PURPOSE: Current prediction of radiation-induced xerostomia 12months after radiotherapy (Xer12m) is based on mean parotid gland dose and baseline xerostomia (Xerbaseline) scores. The hypothesis of this study was that prediction of Xer12m is improved with patient-specific characteristics extracted from 18F-FDG PET images, quantified in PET image biomarkers (PET-IBMs).PATIENTS AND METHODS: Intensity and textural PET-IBMs of the parotid gland were collected from pre-treatment 18F-FDG PET images of 161 head and neck cancer patients. Patient-rated toxicity was prospectively collected. Multivariable logistic regression models resulting from step-wise forward selection and Lasso regularisation were internally validated by bootstrapping. The reference model with parotid gland dose and Xerbaseline was compared with the resulting PET-IBM models.RESULTS: High values of the intensity PET-IBM (90th percentile (P90)) and textural PET-IBM (Long Run High Grey-level Emphasis 3 (LRHG3E)) were significantly associated with lower risk of Xer12m. Both PET-IBMs significantly added in the prediction of Xer12m to the reference model. The AUC increased from 0.73 (0.65-0.81) (reference model) to 0.77 (0.70-0.84) (P90) and 0.77 (0.69-0.84) (LRHG3E).CONCLUSION: Prediction of Xer12m was significantly improved with pre-treatment PET-IBMs, indicating that high metabolic parotid gland activity is associated with lower risk of developing late xerostomia. This study highlights the potential of incorporating patient-specific PET-derived functional characteristics into NTCP model development.

AB - BACKGROUND AND PURPOSE: Current prediction of radiation-induced xerostomia 12months after radiotherapy (Xer12m) is based on mean parotid gland dose and baseline xerostomia (Xerbaseline) scores. The hypothesis of this study was that prediction of Xer12m is improved with patient-specific characteristics extracted from 18F-FDG PET images, quantified in PET image biomarkers (PET-IBMs).PATIENTS AND METHODS: Intensity and textural PET-IBMs of the parotid gland were collected from pre-treatment 18F-FDG PET images of 161 head and neck cancer patients. Patient-rated toxicity was prospectively collected. Multivariable logistic regression models resulting from step-wise forward selection and Lasso regularisation were internally validated by bootstrapping. The reference model with parotid gland dose and Xerbaseline was compared with the resulting PET-IBM models.RESULTS: High values of the intensity PET-IBM (90th percentile (P90)) and textural PET-IBM (Long Run High Grey-level Emphasis 3 (LRHG3E)) were significantly associated with lower risk of Xer12m. Both PET-IBMs significantly added in the prediction of Xer12m to the reference model. The AUC increased from 0.73 (0.65-0.81) (reference model) to 0.77 (0.70-0.84) (P90) and 0.77 (0.69-0.84) (LRHG3E).CONCLUSION: Prediction of Xer12m was significantly improved with pre-treatment PET-IBMs, indicating that high metabolic parotid gland activity is associated with lower risk of developing late xerostomia. This study highlights the potential of incorporating patient-specific PET-derived functional characteristics into NTCP model development.

KW - Journal Article

U2 - https://doi.org/10.1016/j.radonc.2017.08.024

DO - https://doi.org/10.1016/j.radonc.2017.08.024

M3 - Article

C2 - 28951007

SN - 0167-8140

VL - 126

SP - 89

EP - 95

JO - Radiotherapy and oncology

JF - Radiotherapy and oncology

IS - 1

ER -