Standardized data collection to build prediction models in oncology: a prototype for rectal cancer.

Elisa Meldolesi; Johan van Soest; Andrea Damiani; Andre Dekker; Anna Rita Alitto; Maura Campitelli; Nicola Dinapoli; Roberto Gatta; Maria Antonietta Gambacorta; Vito Lanzotti; Philippe Lambin; Vincenzo Valentini

doi:10.2217/fon.15.295

Standardized data collection to build prediction models in oncology: a prototype for rectal cancer.

Elisa Meldolesi, Johan van Soest, Andrea Damiani, Andre Dekker, Anna Rita Alitto, Maura Campitelli, Nicola Dinapoli, Roberto Gatta, Maria Antonietta Gambacorta^*, Vito Lanzotti, Philippe Lambin, Vincenzo Valentini

^*Corresponding author for this work

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

Abstract

The advances in diagnostic and treatment technology are responsible for a remarkable transformation in the internal medicine concept with the establishment of a new idea of personalized medicine. Inter- and intra-patient tumor heterogeneity and the clinical outcome and/or treatment's toxicity's complexity, justify the effort to develop predictive models from decision support systems. However, the number of evaluated variables coming from multiple disciplines: oncology, computer science, bioinformatics, statistics, genomics, imaging, among others could be very large thus making traditional statistical analysis difficult to exploit. Automated data-mining processes and machine learning approaches can be a solution to organize the massive amount of data, trying to unravel important interaction. The purpose of this paper is to describe the strategy to collect and analyze data properly for decision support and introduce the concept of an 'umbrella protocol' within the framework of 'rapid learning healthcare'.

Original language	English
Pages (from-to)	119-136
Number of pages	18
Journal	Future Oncology
Volume	12
Issue number	1
DOIs	https://doi.org/10.2217/fon.15.295
Publication status	Published - 2016

Keywords

Big Data
data standardization
decision support system
ontology
predictive models
semantic web
umbrella protocol
RANDOMIZED CLINICAL-TRIALS
LEARNING HEALTH-CARE
LUNG-CANCER
RADIATION-THERAPY
COLON-CANCER
SURVIVAL PREDICTION
BAYESIAN NETWORK
POOLED ANALYSIS
RADIOTHERAPY
MEDICINE

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10.2217/fon.15.295Licence: CC BY-NC-ND

Cite this

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title = "Standardized data collection to build prediction models in oncology: a prototype for rectal cancer.",

abstract = "The advances in diagnostic and treatment technology are responsible for a remarkable transformation in the internal medicine concept with the establishment of a new idea of personalized medicine. Inter- and intra-patient tumor heterogeneity and the clinical outcome and/or treatment's toxicity's complexity, justify the effort to develop predictive models from decision support systems. However, the number of evaluated variables coming from multiple disciplines: oncology, computer science, bioinformatics, statistics, genomics, imaging, among others could be very large thus making traditional statistical analysis difficult to exploit. Automated data-mining processes and machine learning approaches can be a solution to organize the massive amount of data, trying to unravel important interaction. The purpose of this paper is to describe the strategy to collect and analyze data properly for decision support and introduce the concept of an 'umbrella protocol' within the framework of 'rapid learning healthcare'.",

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author = "Elisa Meldolesi and {van Soest}, Johan and Andrea Damiani and Andre Dekker and Alitto, {Anna Rita} and Maura Campitelli and Nicola Dinapoli and Roberto Gatta and Gambacorta, {Maria Antonietta} and Vito Lanzotti and Philippe Lambin and Vincenzo Valentini",

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language = "English",

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pages = "119--136",

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AU - Meldolesi, Elisa

AU - van Soest, Johan

AU - Damiani, Andrea

AU - Dekker, Andre

AU - Alitto, Anna Rita

AU - Campitelli, Maura

AU - Dinapoli, Nicola

AU - Gatta, Roberto

AU - Gambacorta, Maria Antonietta

AU - Lanzotti, Vito

AU - Lambin, Philippe

AU - Valentini, Vincenzo

PY - 2016

Y1 - 2016

N2 - The advances in diagnostic and treatment technology are responsible for a remarkable transformation in the internal medicine concept with the establishment of a new idea of personalized medicine. Inter- and intra-patient tumor heterogeneity and the clinical outcome and/or treatment's toxicity's complexity, justify the effort to develop predictive models from decision support systems. However, the number of evaluated variables coming from multiple disciplines: oncology, computer science, bioinformatics, statistics, genomics, imaging, among others could be very large thus making traditional statistical analysis difficult to exploit. Automated data-mining processes and machine learning approaches can be a solution to organize the massive amount of data, trying to unravel important interaction. The purpose of this paper is to describe the strategy to collect and analyze data properly for decision support and introduce the concept of an 'umbrella protocol' within the framework of 'rapid learning healthcare'.

AB - The advances in diagnostic and treatment technology are responsible for a remarkable transformation in the internal medicine concept with the establishment of a new idea of personalized medicine. Inter- and intra-patient tumor heterogeneity and the clinical outcome and/or treatment's toxicity's complexity, justify the effort to develop predictive models from decision support systems. However, the number of evaluated variables coming from multiple disciplines: oncology, computer science, bioinformatics, statistics, genomics, imaging, among others could be very large thus making traditional statistical analysis difficult to exploit. Automated data-mining processes and machine learning approaches can be a solution to organize the massive amount of data, trying to unravel important interaction. The purpose of this paper is to describe the strategy to collect and analyze data properly for decision support and introduce the concept of an 'umbrella protocol' within the framework of 'rapid learning healthcare'.

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KW - LEARNING HEALTH-CARE

KW - LUNG-CANCER

KW - RADIATION-THERAPY

KW - COLON-CANCER

KW - SURVIVAL PREDICTION

KW - BAYESIAN NETWORK

KW - POOLED ANALYSIS

KW - RADIOTHERAPY

KW - MEDICINE

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DO - 10.2217/fon.15.295

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