Immunophenotypic characterization of B-cell chronic lymphoproliferative disorders (B-CLPD) is becoming increasingly complex due to usage of progressively larger panels of reagents and a high number of World Health Organization (WHO) entities. Typically, data analysis is performed separately for each stained aliquot of a sample; subsequently, an expert interprets the overall immunophenotypic profile (IP) of neoplastic B-cells and assigns it to specific diagnostic categories. We constructed a principal component analysis (PCA)-based tool to guide immunophenotypic classification of B-CLPD. Three reference groups of immunophenotypic data files—B-cell chronic lymphocytic leukemias (B-CLL; n=10), mantle cell (MCL; n=10) and follicular lymphomas (FL; n=10)—were built. Subsequently, each of the 175 cases studied was evaluated and assigned to either one of the three reference groups or to none of them (other B-CLPD). Most cases (89%) were correctly assigned to their corresponding WHO diagnostic group with overall positive and negative predictive values of 89 and 96%, respectively. The efficiency of the PCA-based approach was particularly high among typical B-CLL, MCL and FL vs other B-CLPD cases. In summary, PCA-guided immunophenotypic classification of B-CLPD is a promising tool for standardized interpretation of tumor IP, their classification into well-defined entities and comprehensive evaluation of antibody panels

A Ruiz-Arguelles

AC Rawstron

B Greig

BL Wood

CE Pedreira

E Matutes

ED Rossmann

H Cualing

I Jolliffe

L Baseggio

L Cro

M Ashman

M Goldaniga

MG Macey

ML Sanchez

MN Dworzak

N Gachard

NL Harris

R Ratei

RC Braylan

RO Duda

S Bottcher

S Quijano

TM Cover

WA Mourad

WG Morice

WG Nieto

YD Mahnke

Z Kaleem

English

PubMed

Crossref

Automated pattern-guided principal component analysis vs expert-based immunophenotypic classification of B-cell chronic lymphoproliferative disorders: a step forward in the standardization of clinical immunophenotyping

Immunophenotypic characterization of B-cell chronic lymphoproliferative disorders (B-CLPD) is becoming increasingly complex due to usage of progressively larger panels of reagents and a high number of World Health Organization (WHO) entities. Typically, data analysis is performed separately for each stained aliquot of a sample; subsequently, an expert interprets the overall immunophenotypic profile (IP) of neoplastic B-cells and assigns it to specific diagnostic categories. We constructed a principal component analysis (PCA)-based tool to guide immunophenotypic classification of B-CLPD. Three reference groups of immunophenotypic data files-FB-cell chronic lymphocytic leukemias (B-CLL; n = 10), mantle cell (MCL; n = 10) and follicular lymphomas (FL; n = 10)-were built. Subsequently, each of the 175 cases studied was evaluated and assigned to either one of the three reference groups or to none of them (other B-CLPD). Most cases (89%) were correctly assigned to their corresponding WHO diagnostic group with overall positive and negative predictive values of 89 and 96%, respectively. The efficiency of the PCA-based approach was particularly high among typical B-CLL, MCL and FL vs other B-CLPD cases. In summary, PCA-guided immunophenotypic classification of B-CLPD is a promising tool for standardized interpretation of tumor IP, their classification into well-defined entities and comprehensive evaluation of antibody panels. Leukemia (2010) 24, 1927-1933; doi:10.1038/leu.2010.160; published online 16 September 201

Costa, ES

Pedreira, CE

Barrena, S

Lecrevisse, Q

Flores, J

Quijano, S

Almeida, J

Garcia-Macias, MD

Bottcher, S

Dongen, Jacques

Orfao, A

NARCIS 

7 páginas, 1 figura, 2 tablas.-- This work is licensed under the Creative Commons
Attribution-NonCommercial-No Derivative Works
3.0 Unported License.-- et al.Immunophenotypic characterization of B-cell chronic lymphoproliferative disorders (B-CLPD) is becoming increasingly complex due to usage of progressively larger panels of reagents and a high number of World Health Organization (WHO) entities. Typically, data analysis is performed separately for each stained aliquot of a sample; subsequently, an expert interprets the overall immunophenotypic profile (IP) of neoplastic B-cells and assigns it to specific diagnostic categories. We constructed a principal component analysis (PCA)-based tool to guide immunophenotypic classification of B-CLPD. Three reference groups of immunophenotypic data filesB-cell chronic lymphocytic leukemias (B-CLL; n10), mantle cell (MCL; n10) and follicular lymphomas (FL; n10)were built. Subsequently, each of the 175 cases studied was evaluated and assigned to either one of the three reference groups or to none of them (other B-CLPD). Most cases (89%) were correctly assigned to their corresponding WHO diagnostic group with overall positive and negative predictive values of 89 and 96%, respectively. The efficiency of the PCA-based approach was particularly high among typical B-CLL, MCL and FL vs other B-CLPD cases. In summary, PCA-guided immunophenotypic classification of B-CLPD is a promising tool for standardized interpretation of tumor IP, their classification into well-defined entities and comprehensive evaluation of antibody panels. © 2010 Macmillan Publishers Limited All rights reserved.This work has been partially supported by the following Grants: Spanish Network of Cancer Research Centers (ISCIII RTICCRD06/0020/0035-FEDER), FIS 08/90881 from the ‘Fondo de Investigación Sanitaria’, Ministerio de Ciencia e Innovación (Madrid, Spain), Programa Hispano-Brasileño de Cooperación Universitaria Ref. PHB 2004-0800-PC (Ministerio de Educación y Ciencia) (Madrid, Spain), SA016-A-09 from the Consejería de Educación, Junta de Castilla y León, Valladolid, Spain, and CAPES/Ministério da Educaçâo (Brasília, Brazil), the EuroFlow Consortium (Grant number LSHB-CT-2006-018708), from the European Commission and by the ‘Accio´n Transversal del Cáncer’ project through an agreement between the Instituto de Salud Carlos III (ISCIII), Ministerio de Ciencia e Innovación (Madrid, Spain) and the Cancer Research Foundation of the University of Salamanca (Salamanca, Spain). CEP and ESC were partially supported by a grant from CNPq- Brazilian National Research Council, Brası´lia, Brazil (Ref: 305306/2004-9, 558147/2008-9 PDP and 478234/2007-4) and FAPERJ-Fundaçâo de amparo à pesquisa do Rio de Janeiro, (Rio de Janeiro, Brazil) ‘Pensa-Rio’ project E-26/110.301/2007, E-26/102-781/2008 CNE and ‘Jovens Pesquisadores’ no 03/2006). CEP and ESC were partially supported by a grant from Fundación Carolina, Spain. QL was supported by a grant from Fundació Marcelino Botín (Madrid, Spain).Peer Reviewe

Costa, Elaine S.

Pedreira, C. E.

Barrena, Susana

Lécrevisse, Quentin

Flores-Montero, Juan

Quijano, Sandra

Almeida, Julia

Orfao, Alberto

Digital.CSIC

Automated pattern-guided principal component analysis vs expert-based immunophenotypic classification of B-cell chronic lymphoproliferative disorders: A step forward in the standardization of clinical immunophenotyping

Erratum: Automated pattern-guided principal component analysis vs expert-based immunophenotypic classification of B-cell chronic lymphoproliferative disorders: a step forward in the standardization of clinical immunophenotyping

EUR Research Repository

Immunophenotypic characterization of B-cell chronic lymphoproliferative disorders (B-CLPD) is becoming increasingly complex due to usage of progressively larger panels of reagents and a high number of World Health Organization (WHO) entities. Typically, data analysis is performed separately for each stained aliquot of a sample; subsequently, an expert interprets the overall immunophenotypic profile (IP) of neoplastic B-cells and assigns it to specific diagnostic categories. We constructed a principal component analysis (PCA)-based tool to guide immunophenotypic classification of B-CLPD. Three reference groups of immunophenotypic data filesB-cell chronic lymphocytic leukemias (B-CLL; n10), mantle cell (MCL; n10) and follicular lymphomas (FL; n10)were built. Subsequently, each of the 175 cases studied was evaluated and assigned to either one of the three reference groups or to none of them (other B-CLPD). Most cases (89%) were correctly assigned to their corresponding WHO diagnostic group with overall positive and negative predictive values of 89 and 96%, respectively. The efficiency of the PCA-based approach was particularly high among typical B-CLL, MCL and FL vs other B-CLPD cases. In summary, PCA-guided immunophenotypic classification of B-CLPD is a promising tool for standardized interpretation of tumor IP, their classification into well-defined entities and comprehensive evaluation of antibody panels

Costa, E.S. (Elaine)

Pedreira, C.E. (Carlos Eduardo)

Barrena, S. (Susana)

Lecrevisse, Q. (Quentin)

Flores, J.

Quijano, S. (Sandra)

Almeida, J.M.M. (Julia)

Carmen Garc\xc3\xada- MacIas, M. del

B\xc3\xb6ttcher, S. (Stephan)

Dongen, J.J.M. (Jacques) van

Orfao, A. (Alberto)

Erasmus University Digital Repository

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Automated pattern-guided principal component analysis vs expert-based immunophenotypic classification of B-cell chronic lymphoproliferative disorders: a step forward in the standardization of clinical immunophenotyping

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