Somak Roy, William A LaFramboise, Yuri E Nikiforov, Marina N Nikiforova, Mark J Routbort, John Pfeifer, Rakesh Nagarajan, Alexis B Carter, Liron Pantanowitz1. 1. From the Department of Pathology, University of Pittsburgh Medical Center, Pittsburgh, Pennsylvania (Drs Roy, LaFramboise, Nikiforov, Nikiforova, and Pantanowitz); the Department of Pathology, MD Anderson Cancer Center, Houston, Texas (Dr Routbort); the Department of Pathology and Immunology, Washington University School of Medicine, St Louis, Missouri (Drs Pfeifer and Nagarajan); PierianDx, St Louis, Missouri (Dr Nagarajan); and the Department of Pathology and Laboratory Medicine, Children's Healthcare of Atlanta, Atlanta, Georgia (Dr Carter).
Abstract
CONTEXT: -Next-generation sequencing (NGS) is revolutionizing the discipline of laboratory medicine, with a deep and direct impact on patient care. Although it empowers clinical laboratories with unprecedented genomic sequencing capability, NGS has brought along obvious and obtrusive informatics challenges. Bioinformatics and clinical informatics are separate disciplines with typically a small degree of overlap, but they have been brought together by the enthusiastic adoption of NGS in clinical laboratories. The result has been a collaborative environment for the development of novel informatics solutions. Sustaining NGS-based testing in a regulated clinical environment requires institutional support to build and maintain a practical, robust, scalable, secure, and cost-effective informatics infrastructure. OBJECTIVE: -To discuss the novel NGS informatics challenges facing pathology laboratories today and offer solutions and future developments to address these obstacles. DATA SOURCES: -The published literature pertaining to NGS informatics was reviewed. The coauthors, experts in the fields of molecular pathology, precision medicine, and pathology informatics, also contributed their experiences. CONCLUSIONS: -The boundary between bioinformatics and clinical informatics has significantly blurred with the introduction of NGS into clinical molecular laboratories. Next-generation sequencing technology and the data derived from these tests, if managed well in the clinical laboratory, will redefine the practice of medicine. In order to sustain this progress, adoption of smart computing technology will be essential. Computational pathologists will be expected to play a major role in rendering diagnostic and theranostic services by leveraging "Big Data" and modern computing tools.
CONTEXT: -Next-generation sequencing (NGS) is revolutionizing the discipline of laboratory medicine, with a deep and direct impact on patient care. Although it empowers clinical laboratories with unprecedented genomic sequencing capability, NGS has brought along obvious and obtrusive informatics challenges. Bioinformatics and clinical informatics are separate disciplines with typically a small degree of overlap, but they have been brought together by the enthusiastic adoption of NGS in clinical laboratories. The result has been a collaborative environment for the development of novel informatics solutions. Sustaining NGS-based testing in a regulated clinical environment requires institutional support to build and maintain a practical, robust, scalable, secure, and cost-effective informatics infrastructure. OBJECTIVE: -To discuss the novel NGS informatics challenges facing pathology laboratories today and offer solutions and future developments to address these obstacles. DATA SOURCES: -The published literature pertaining to NGS informatics was reviewed. The coauthors, experts in the fields of molecular pathology, precision medicine, and pathology informatics, also contributed their experiences. CONCLUSIONS: -The boundary between bioinformatics and clinical informatics has significantly blurred with the introduction of NGS into clinical molecular laboratories. Next-generation sequencing technology and the data derived from these tests, if managed well in the clinical laboratory, will redefine the practice of medicine. In order to sustain this progress, adoption of smart computing technology will be essential. Computational pathologists will be expected to play a major role in rendering diagnostic and theranostic services by leveraging "Big Data" and modern computing tools.
Authors: Rongxue Peng; Rui Zhang; Martin P Horan; Li Zhou; Sze Yee Chai; Nalishia Pillay; Kwang Hong Tay; Tony Badrick; Jinming Li Journal: Oncologist Date: 2019-08-30
Authors: Rongxue Peng; Rui Zhang; Martin P Horan; Li Zhou; Sze Yee Chai; Nalishia Pillay; Kwang Hong Tay; Tony Badrick; Jinming Li Journal: Oncologist Date: 2019-08-30
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Authors: Dana E Rollison; Steven A Eschrich; Jamie K Teer; Phillip Reisman; Erin Siegel; Chandan Challa; Patricia Lewis; Katherine Fellows; Everin Malpica; Rodrigo Carvajal; Guillermo Gonzalez; Scott Cukras; Miguel Betin-Montes; Garrick Aden-Buie; Melissa Avedon; Daniel Manning; Aik Choon Tan; Brooke L Fridley; Travis Gerke; Mattias Van Looveren; Amilcar Blake; Jennifer Greenman Journal: JCO Clin Cancer Inform Date: 2021-05
Authors: Meenakshi Mehrotra; Dzifa Yawa Duose; Rajesh R Singh; Bedia A Barkoh; Jawad Manekia; Michael A Harmon; Keyur P Patel; Mark J Routbort; L Jeffrey Medeiros; Ignacio I Wistuba; Rajyalakshmi Luthra Journal: PLoS One Date: 2017-08-02 Impact factor: 3.240