PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer

Baoqiang Ma; Jiapan Guo; Lisanne V van Dijk; Johannes A Langendijk; Peter M A van Ooijen; Stefan Both; Nanna M Sijtsema

doi:10.1016/j.radonc.2025.110852

PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer

Baoqiang Ma, Jiapan Guo, Lisanne V van Dijk, Johannes A Langendijk, Peter M A van Ooijen, Stefan Both, Nanna M Sijtsema

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

Abstract

BACKGROUND: In the HECKTOR 2022 challenge set [1], several state-of-the-art (SOTA, achieving best performance) deep learning models were introduced for predicting recurrence-free period (RFP) in head and neck cancer patients using PET and CT images.

PURPOSE: This study investigates whether a conventional DenseNet architecture, with optimized numbers of layers and image-fusion strategies, could achieve comparable performance as SOTA models.

METHODS: The HECKTOR 2022 dataset comprises 489 oropharyngeal cancer (OPC) patients from seven distinct centers. It was randomly divided into a training set (n = 369) and an independent test set (n = 120). Furthermore, an additional dataset of 400 OPC patients, who underwent chemo(radiotherapy) at our center, was employed for external testing. Each patients' data included pre-treatment CT- and PET-scans, manually generated GTV (Gross tumour volume) contours for primary tumors and lymph nodes, and RFP information. The present study compared the performance of DenseNet against three SOTA models developed on the HECKTOR 2022 dataset.

RESULTS: When inputting CT, PET and GTV using the early fusion (considering them as different channels of input) approach, DenseNet81 (with 81 layers) obtained an internal test C-index of 0.69, a performance metric comparable with SOTA models. Notably, the removal of GTV from the input data yielded the same internal test C-index of 0.69 while improving the external test C-index from 0.59 to 0.63. Furthermore, compared to PET-only models, when utilizing the late fusion (concatenation of extracted features) with CT and PET, DenseNet81 demonstrated superior C-index values of 0.68 and 0.66 in both internal and external test sets, while using early fusion was better in only the internal test set.

CONCLUSIONS: The basic DenseNet architecture with 81 layers demonstrated a predictive performance on par with SOTA models featuring more intricate architectures in the internal test set, and better performance in the external test. The late fusion of CT and PET imaging data yielded superior performance in the external test.

Original language	English
Article number	110852
Journal	Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology
Volume	207
Early online date	19 Mar 2025
DOIs	https://doi.org/10.1016/j.radonc.2025.110852
Publication status	E-pub ahead of print - 19 Mar 2025
Externally published	Yes

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Ma, B., Guo, J., Dijk, L. V. V., Langendijk, J. A., Ooijen, P. M. A. V., Both, S., & Sijtsema, N. M. (2025). PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer. Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology, 207, Article 110852. Advance online publication. https://doi.org/10.1016/j.radonc.2025.110852

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title = "PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer",

abstract = "BACKGROUND: In the HECKTOR 2022 challenge set [1], several state-of-the-art (SOTA, achieving best performance) deep learning models were introduced for predicting recurrence-free period (RFP) in head and neck cancer patients using PET and CT images.PURPOSE: This study investigates whether a conventional DenseNet architecture, with optimized numbers of layers and image-fusion strategies, could achieve comparable performance as SOTA models.METHODS: The HECKTOR 2022 dataset comprises 489 oropharyngeal cancer (OPC) patients from seven distinct centers. It was randomly divided into a training set (n = 369) and an independent test set (n = 120). Furthermore, an additional dataset of 400 OPC patients, who underwent chemo(radiotherapy) at our center, was employed for external testing. Each patients' data included pre-treatment CT- and PET-scans, manually generated GTV (Gross tumour volume) contours for primary tumors and lymph nodes, and RFP information. The present study compared the performance of DenseNet against three SOTA models developed on the HECKTOR 2022 dataset.RESULTS: When inputting CT, PET and GTV using the early fusion (considering them as different channels of input) approach, DenseNet81 (with 81 layers) obtained an internal test C-index of 0.69, a performance metric comparable with SOTA models. Notably, the removal of GTV from the input data yielded the same internal test C-index of 0.69 while improving the external test C-index from 0.59 to 0.63. Furthermore, compared to PET-only models, when utilizing the late fusion (concatenation of extracted features) with CT and PET, DenseNet81 demonstrated superior C-index values of 0.68 and 0.66 in both internal and external test sets, while using early fusion was better in only the internal test set.CONCLUSIONS: The basic DenseNet architecture with 81 layers demonstrated a predictive performance on par with SOTA models featuring more intricate architectures in the internal test set, and better performance in the external test. The late fusion of CT and PET imaging data yielded superior performance in the external test.",

author = "Baoqiang Ma and Jiapan Guo and Dijk, {Lisanne V van} and Langendijk, {Johannes A} and Ooijen, {Peter M A van} and Stefan Both and Sijtsema, {Nanna M}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

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doi = "10.1016/j.radonc.2025.110852",

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PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer. / Ma, Baoqiang; Guo, Jiapan; Dijk, Lisanne V van et al.
In: Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology, Vol. 207, 110852, 06.2025.

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

TY - JOUR

T1 - PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer

AU - Ma, Baoqiang

AU - Guo, Jiapan

AU - Dijk, Lisanne V van

AU - Langendijk, Johannes A

AU - Ooijen, Peter M A van

AU - Both, Stefan

AU - Sijtsema, Nanna M

PY - 2025/3/19

Y1 - 2025/3/19

N2 - BACKGROUND: In the HECKTOR 2022 challenge set [1], several state-of-the-art (SOTA, achieving best performance) deep learning models were introduced for predicting recurrence-free period (RFP) in head and neck cancer patients using PET and CT images.PURPOSE: This study investigates whether a conventional DenseNet architecture, with optimized numbers of layers and image-fusion strategies, could achieve comparable performance as SOTA models.METHODS: The HECKTOR 2022 dataset comprises 489 oropharyngeal cancer (OPC) patients from seven distinct centers. It was randomly divided into a training set (n = 369) and an independent test set (n = 120). Furthermore, an additional dataset of 400 OPC patients, who underwent chemo(radiotherapy) at our center, was employed for external testing. Each patients' data included pre-treatment CT- and PET-scans, manually generated GTV (Gross tumour volume) contours for primary tumors and lymph nodes, and RFP information. The present study compared the performance of DenseNet against three SOTA models developed on the HECKTOR 2022 dataset.RESULTS: When inputting CT, PET and GTV using the early fusion (considering them as different channels of input) approach, DenseNet81 (with 81 layers) obtained an internal test C-index of 0.69, a performance metric comparable with SOTA models. Notably, the removal of GTV from the input data yielded the same internal test C-index of 0.69 while improving the external test C-index from 0.59 to 0.63. Furthermore, compared to PET-only models, when utilizing the late fusion (concatenation of extracted features) with CT and PET, DenseNet81 demonstrated superior C-index values of 0.68 and 0.66 in both internal and external test sets, while using early fusion was better in only the internal test set.CONCLUSIONS: The basic DenseNet architecture with 81 layers demonstrated a predictive performance on par with SOTA models featuring more intricate architectures in the internal test set, and better performance in the external test. The late fusion of CT and PET imaging data yielded superior performance in the external test.

AB - BACKGROUND: In the HECKTOR 2022 challenge set [1], several state-of-the-art (SOTA, achieving best performance) deep learning models were introduced for predicting recurrence-free period (RFP) in head and neck cancer patients using PET and CT images.PURPOSE: This study investigates whether a conventional DenseNet architecture, with optimized numbers of layers and image-fusion strategies, could achieve comparable performance as SOTA models.METHODS: The HECKTOR 2022 dataset comprises 489 oropharyngeal cancer (OPC) patients from seven distinct centers. It was randomly divided into a training set (n = 369) and an independent test set (n = 120). Furthermore, an additional dataset of 400 OPC patients, who underwent chemo(radiotherapy) at our center, was employed for external testing. Each patients' data included pre-treatment CT- and PET-scans, manually generated GTV (Gross tumour volume) contours for primary tumors and lymph nodes, and RFP information. The present study compared the performance of DenseNet against three SOTA models developed on the HECKTOR 2022 dataset.RESULTS: When inputting CT, PET and GTV using the early fusion (considering them as different channels of input) approach, DenseNet81 (with 81 layers) obtained an internal test C-index of 0.69, a performance metric comparable with SOTA models. Notably, the removal of GTV from the input data yielded the same internal test C-index of 0.69 while improving the external test C-index from 0.59 to 0.63. Furthermore, compared to PET-only models, when utilizing the late fusion (concatenation of extracted features) with CT and PET, DenseNet81 demonstrated superior C-index values of 0.68 and 0.66 in both internal and external test sets, while using early fusion was better in only the internal test set.CONCLUSIONS: The basic DenseNet architecture with 81 layers demonstrated a predictive performance on par with SOTA models featuring more intricate architectures in the internal test set, and better performance in the external test. The late fusion of CT and PET imaging data yielded superior performance in the external test.

U2 - 10.1016/j.radonc.2025.110852

DO - 10.1016/j.radonc.2025.110852

M3 - Article

C2 - 40118186

SN - 0167-8140

VL - 207

JO - Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology

JF - Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology

M1 - 110852

ER -

PET and CT based DenseNet outperforms advanced deep learning models for outcome prediction of oropharyngeal cancer

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