An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates

Christopher Roadknight; Durga Suryanarayanan; Uwe Aickelin; John Scholefield; Lindy Durrant

doi:10.1109/DSAA.2015.7344863

An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates

Christopher Roadknight, Durga Suryanarayanan, Uwe Aickelin, John Scholefield, Lindy Durrant

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

This paper primarily addresses a dataset relating to cellular, chemical and physical conditions of patients gathered at the time they are operated upon to remove colorectal tumours. This data provides a unique insight into the biochemical and immunological status of patients at the point of tumour removal along with information about tumour classification and post-operative survival. The relationship between severity of tumour, based on TNM staging, and survival is still unclear for patients with TNM stage 2 and 3 tumours. We ask whether it is possible to predict survival rate more accurately using a selection of machine learning techniques applied to subsets of data to gain a deeper understanding of the relationships between a patient's biochemical markers and survival. We use a range of feature selection and single classification techniques to predict the 5 year survival rate of TNM stage 2 and 3 patients which initially produces less than ideal results. The performance of each model individually is then compared with subsets of the data where agreement is reached for multiple models. This novel method of selective ensembling demonstrates that significant improvements in model accuracy on an unseen test set can be achieved for patients where agreement between models is achieved. Finally we point at a possible method to identify whether a patients prognosis can be accurately predicted or not.

Original language	English
Title of host publication	Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015
Editors	Gabriella Pasi, James Kwok, Osmar Zaiane, Patrick Gallinari, Eric Gaussier, Longbing Cao
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781467382731
DOIs	https://doi.org/10.1109/DSAA.2015.7344863
Publication status	Published - 2 Dec 2015
Externally published	Yes
Event	IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015 - Paris, France Duration: 19 Oct 2015 → 21 Oct 2015

Publication series

Name	Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015

Conference

Conference	IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015
Country/Territory	France
City	Paris
Period	19/10/15 → 21/10/15

Keywords

Bioinformatics
Ensemble
Machine Learning

ASJC Scopus subject areas

Artificial Intelligence
Information Systems and Management
Information Systems

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1109/DSAA.2015.7344863

Cite this

Roadknight, C., Suryanarayanan, D., Aickelin, U., Scholefield, J., & Durrant, L. (2015). An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates. In G. Pasi, J. Kwok, O. Zaiane, P. Gallinari, E. Gaussier, & L. Cao (Eds.), Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015 Article 7344863 (Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/DSAA.2015.7344863

Roadknight, Christopher ; Suryanarayanan, Durga ; Aickelin, Uwe et al. / An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates. Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015. editor / Gabriella Pasi ; James Kwok ; Osmar Zaiane ; Patrick Gallinari ; Eric Gaussier ; Longbing Cao. Institute of Electrical and Electronics Engineers Inc., 2015. (Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015).

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title = "An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates",

abstract = "This paper primarily addresses a dataset relating to cellular, chemical and physical conditions of patients gathered at the time they are operated upon to remove colorectal tumours. This data provides a unique insight into the biochemical and immunological status of patients at the point of tumour removal along with information about tumour classification and post-operative survival. The relationship between severity of tumour, based on TNM staging, and survival is still unclear for patients with TNM stage 2 and 3 tumours. We ask whether it is possible to predict survival rate more accurately using a selection of machine learning techniques applied to subsets of data to gain a deeper understanding of the relationships between a patient's biochemical markers and survival. We use a range of feature selection and single classification techniques to predict the 5 year survival rate of TNM stage 2 and 3 patients which initially produces less than ideal results. The performance of each model individually is then compared with subsets of the data where agreement is reached for multiple models. This novel method of selective ensembling demonstrates that significant improvements in model accuracy on an unseen test set can be achieved for patients where agreement between models is achieved. Finally we point at a possible method to identify whether a patients prognosis can be accurately predicted or not.",

keywords = "Bioinformatics, Ensemble, Machine Learning",

author = "Christopher Roadknight and Durga Suryanarayanan and Uwe Aickelin and John Scholefield and Lindy Durrant",

note = "Publisher Copyright: {\textcopyright} 2015 IEEE.; IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015 ; Conference date: 19-10-2015 Through 21-10-2015",

year = "2015",

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doi = "10.1109/DSAA.2015.7344863",

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editor = "Gabriella Pasi and James Kwok and Osmar Zaiane and Patrick Gallinari and Eric Gaussier and Longbing Cao",

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Roadknight, C, Suryanarayanan, D, Aickelin, U, Scholefield, J & Durrant, L 2015, An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates. in G Pasi, J Kwok, O Zaiane, P Gallinari, E Gaussier & L Cao (eds), Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015., 7344863, Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015, Institute of Electrical and Electronics Engineers Inc., IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015, Paris, France, 19/10/15. https://doi.org/10.1109/DSAA.2015.7344863

An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates. / Roadknight, Christopher; Suryanarayanan, Durga; Aickelin, Uwe et al.
Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015. ed. / Gabriella Pasi; James Kwok; Osmar Zaiane; Patrick Gallinari; Eric Gaussier; Longbing Cao. Institute of Electrical and Electronics Engineers Inc., 2015. 7344863 (Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates

AU - Roadknight, Christopher

AU - Suryanarayanan, Durga

AU - Aickelin, Uwe

AU - Scholefield, John

AU - Durrant, Lindy

PY - 2015/12/2

Y1 - 2015/12/2

N2 - This paper primarily addresses a dataset relating to cellular, chemical and physical conditions of patients gathered at the time they are operated upon to remove colorectal tumours. This data provides a unique insight into the biochemical and immunological status of patients at the point of tumour removal along with information about tumour classification and post-operative survival. The relationship between severity of tumour, based on TNM staging, and survival is still unclear for patients with TNM stage 2 and 3 tumours. We ask whether it is possible to predict survival rate more accurately using a selection of machine learning techniques applied to subsets of data to gain a deeper understanding of the relationships between a patient's biochemical markers and survival. We use a range of feature selection and single classification techniques to predict the 5 year survival rate of TNM stage 2 and 3 patients which initially produces less than ideal results. The performance of each model individually is then compared with subsets of the data where agreement is reached for multiple models. This novel method of selective ensembling demonstrates that significant improvements in model accuracy on an unseen test set can be achieved for patients where agreement between models is achieved. Finally we point at a possible method to identify whether a patients prognosis can be accurately predicted or not.

AB - This paper primarily addresses a dataset relating to cellular, chemical and physical conditions of patients gathered at the time they are operated upon to remove colorectal tumours. This data provides a unique insight into the biochemical and immunological status of patients at the point of tumour removal along with information about tumour classification and post-operative survival. The relationship between severity of tumour, based on TNM staging, and survival is still unclear for patients with TNM stage 2 and 3 tumours. We ask whether it is possible to predict survival rate more accurately using a selection of machine learning techniques applied to subsets of data to gain a deeper understanding of the relationships between a patient's biochemical markers and survival. We use a range of feature selection and single classification techniques to predict the 5 year survival rate of TNM stage 2 and 3 patients which initially produces less than ideal results. The performance of each model individually is then compared with subsets of the data where agreement is reached for multiple models. This novel method of selective ensembling demonstrates that significant improvements in model accuracy on an unseen test set can be achieved for patients where agreement between models is achieved. Finally we point at a possible method to identify whether a patients prognosis can be accurately predicted or not.

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M3 - Conference contribution

AN - SCOPUS:84962868866

T3 - Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015

BT - Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015

A2 - Pasi, Gabriella

A2 - Kwok, James

A2 - Zaiane, Osmar

A2 - Gallinari, Patrick

A2 - Gaussier, Eric

A2 - Cao, Longbing

PB - Institute of Electrical and Electronics Engineers Inc.

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Y2 - 19 October 2015 through 21 October 2015

ER -

Roadknight C, Suryanarayanan D, Aickelin U, Scholefield J, Durrant L. An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates. In Pasi G, Kwok J, Zaiane O, Gallinari P, Gaussier E, Cao L, editors, Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015. Institute of Electrical and Electronics Engineers Inc. 2015. 7344863. (Proceedings of the 2015 IEEE International Conference on Data Science and Advanced Analytics, DSAA 2015). doi: 10.1109/DSAA.2015.7344863

An ensemble of machine learning and anti-learning methods for predicting tumour patient survival rates

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

UN SDGs

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