Logic Learning Machine Creates Explicit and Stable Rules Stratifying Neuroblastoma Patients

Overview

Journal BMC Bioinformatics

Publisher Biomed Central

Specialty Biology

Date 2013 Jul 3

PMID 23815266

Citations 10

Authors

Davide Cangelosi

Fabiola Blengio

Rogier Versteeg

Angelika Eggert

Alberto Garaventa

Claudio Gambini

Massimo Conte

Alessandra Eva

Marco Muselli

Luigi Varesio

Affiliations

Soon will be listed here.

Abstract

Background: Neuroblastoma is the most common pediatric solid tumor. About fifty percent of high risk patients die despite treatment making the exploration of new and more effective strategies for improving stratification mandatory. Hypoxia is a condition of low oxygen tension occurring in poorly vascularized areas of the tumor associated with poor prognosis. We had previously defined a robust gene expression signature measuring the hypoxic component of neuroblastoma tumors (NB-hypo) which is a molecular risk factor. We wanted to develop a prognostic classifier of neuroblastoma patients' outcome blending existing knowledge on clinical and molecular risk factors with the prognostic NB-hypo signature. Furthermore, we were interested in classifiers outputting explicit rules that could be easily translated into the clinical setting.

Results: Shadow Clustering (SC) technique, which leads to final models called Logic Learning Machine (LLM), exhibits a good accuracy and promises to fulfill the aims of the work. We utilized this algorithm to classify NB-patients on the bases of the following risk factors: Age at diagnosis, INSS stage, MYCN amplification and NB-hypo. The algorithm generated explicit classification rules in good agreement with existing clinical knowledge. Through an iterative procedure we identified and removed from the dataset those examples which caused instability in the rules. This workflow generated a stable classifier very accurate in predicting good and poor outcome patients. The good performance of the classifier was validated in an independent dataset. NB-hypo was an important component of the rules with a strength similar to that of tumor staging.

Conclusions: The novelty of our work is to identify stability, explicit rules and blending of molecular and clinical risk factors as the key features to generate classification rules for NB patients to be conveyed to the clinic and to be used to design new therapies. We derived, through LLM, a set of four stable rules identifying a new class of poor outcome patients that could benefit from new therapies potentially targeting tumor hypoxia or its consequences.

Citing Articles

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Raggi F, Bartolucci M, Cangelosi D, Rossi C, Pelassa S, Trincianti C Front Immunol. 2023; 14:1134747.

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LLM-PBC: Logic Learning Machine-Based Explainable Rules Accurately Stratify the Genetic Risk of Primary Biliary Cholangitis.

Gerussi A, Verda D, Cappadona C, Cristoferi L, Bernasconi D, Bottaro S J Pers Med. 2022; 12(10).

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Analyzing gene expression data for pediatric and adult cancer diagnosis using logic learning machine and standard supervised methods.

Verda D, Parodi S, Ferrari E, Muselli M BMC Bioinformatics. 2019; 20(Suppl 9):390.

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Analysis of the risk factor for the poor prognosis of localized neuroblastoma after the surgical.

Zhou K, Li X, Pan J, Xu J, Wang J Medicine (Baltimore). 2018; 97(40):e12718.

PMID: 30290678 PMC: 6200457. DOI: 10.1097/MD.0000000000012718.

Immunohistochemical analysis of PDK1, PHD3 and HIF-1α expression defines the hypoxic status of neuroblastoma tumors.

Ognibene M, Cangelosi D, Morini M, Segalerba D, Bosco M, Sementa A PLoS One. 2017; 12(11):e0187206.

PMID: 29117193 PMC: 5678880. DOI: 10.1371/journal.pone.0187206.

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