Your search keyword '"John R. Gilbertson"' showing total 107 results

1. Using Computerized Workflow Simulations to Assess the Feasibility of Whole Slide Imaging Full Adoption in a High-Volume Histology Laboratory

Author

David S. McClintock, Roy E. Lee, and John R. Gilbertson

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Background: Whole slide Imaging (WSI) has been touted by many as the future of pathology, with estimates of full adoption occurring sometime in the next 5 to 15 years. While WSI devices have become increasingly capable since their inception, there has been little consideration of how WSI will be implemented and subsequently affect the workflow of high volume histology laboratories.

Published

2012

2. Integration of Architectural and Cytologic Driven Image Algorithms for Prostate Adenocarcinoma Identification

Author

Jason Hipp, James Monaco, L. Priya Kunju, Jerome Cheng, Yukako Yagi, Jaime Rodriguez-Canales, Michael R. Emmert-Buck, Stephen Hewitt, Michael D. Feldman, John E. Tomaszewski, Mehmet Toner, Ronald G. Tompkins, Thomas Flotte, David Lucas, John R. Gilbertson, Anant Madabhushi, and Ulysses Balis

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Introduction: The advent of digital slides offers new opportunities within the practice of pathology such as the use of image analysis techniques to facilitate computer aided diagnosis (CAD) solutions. Use of CAD holds promise to enable new levels of decision support and allow for additional layers of quality assurance and consistency in rendered diagnoses. However, the development and testing of prostate cancer CAD solutions requires a ground truth map of the cancer to enable the generation of receiver operator characteristic (ROC) curves. This requires a pathologist to annotate, or paint, each of the malignant glands in prostate cancer with an image editor software - a time consuming and exhaustive process.

Published

2012

3. A Novel Cross-Disciplinary Multi-Institute Approach to Translational Cancer Research: Lessons Learned from Pennsylvania Cancer Alliance Bioinformatics Consortium (PCABC)

Author

Ashokkumar A. Patel, John R. Gilbertson, Louise C. Showe, Jack W. London, Eric Ross, Michael F. Ochs, Joseph Carver, Andrea Lazarus, Anil V. Parwani, Rajiv Dhir, J. Robert Beck, Michael Liebman, Fernando U. Garcia, Jeff Prichard, Myra Wilkerson, Ronald B. Herberman, and Michael J. Becich

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: The Pennsylvania Cancer Alliance Bioinformatics Consortium (PCABC, http://www.pcabc.upmc.edu) is one of the first major project-based initiatives stemming from the Pennsylvania Cancer Alliance that was funded for four years by the Department of Health of the Commonwealth of Pennsylvania. The objective of this was to initiate a prototype biorepository and bioinformatics infrastructure with a robust data warehouse by developing a statewide data model (1) for bioinformatics and a repository of serum and tissue samples; (2) a data model for biomarker data storage; and (3) a public access website for disseminating research results and bioinformatics tools. The members of the Consortium cooperate closely, exploring the opportunity for sharing clinical, genomic and other bioinformatics data on patient samples in oncology, for the purpose of developing collaborative research programs across cancer research institutions in Pennsylvania. The Consortium’s intention was to establish a virtual repository of many clinical specimens residing in various centers across the state, in order to make them available for research. One of our primary goals was to facilitate the identification of cancer specific biomarkers and encourage collaborative research efforts among the participating centers.Methods: The PCABC has developed unique partnerships so that every region of the state can effectively contribute and participate. It includes over 80 individuals from 14 organizations, and plans to expand to partners outside the State. This has created a network of researchers, clinicians, bioinformaticians, cancer registrars, program directors, and executives from academic and community health systems, as well as external corporate partners - all working together to accomplish a common mission. The various sub-committees have developed a common IRB protocol template, common data elements for standardizing data collections for three organ sites, intellectual property/tech transfer agreements, and material transfer agreements that have been approved by each of the member institutions. This was the foundational work that has led to the development of a centralized data warehouse that has met each of the institutions’ IRB/HIPAA standards.Results: Currently, this “virtual biorepository” has over 58,000 annotated samples from 11,467 cancer patients available for research purposes. The clinical annotation of tissue samples is either done manually over the internet or semiautomated batch modes through mapping of local data elements with PCABC common data elements. The database currently holds information on 7188 cases (associated with 9278 specimens and 46,666 annotated blocks and blood samples) of prostate cancer, 2736 cases (associated with 3796 specimens and 9336 annotated blocks and blood samples) of breast cancer and 1543 cases (including 1334 specimens and 2671 annotated blocks and blood samples) of melanoma. These numbers continue to grow, and plans to integrate new tumor sites are in progress. Furthermore, the group has also developed a central web-based tool that allows investigators to share their translational (genomics/proteomics) experiment data on research evaluating potential biomarkers via a central location on the Consortium’s web site.Conclusions: The technological achievements and the statewide informatics infrastructure that have been established by the Consortium will enable robust and efficient studies of biomarkers and their relevance to the clinical course of cancer. Studies resulting from the creation of the Consortium may allow for better classification of cancer types, more accurate assessment of disease prognosis, a better ability to identify the most appropriate individuals for clinical trial participation, and better surrogate markers of disease progression and/or response to therapy.

Published

2007

4. Isolation and analysis of free fatty aldehydes from rat, dog, and bovine heart muscle

Author

John R. Gilbertson, William J. Ferrell, and Rose A. Gelman

Subjects

free fatty aldehydes, rat, dog, bovine, heart muscle, thin-layer chromatography, Biochemistry, QD415-436

Abstract

Procedures are described for the isolation of free fatty aldehydes from total lipid extracts of rat, dog, and bovine heart muscle. These aldehydes did not arise from hydrolysis of the naturally occurring alkenyl ethers in either the extraction or isolation procedures.The free fatty aldehydes were present in heart muscle in amounts between 0.27 and 0.56 μmole per 100 mg of lipid.Hexadecanal and octadecanal are the principal free fatty aldehydes present, except in dog heart muscle where an unidentified, unusual aldehyde constitutes 20% of the mixture.

Published

1967

5. Natural occurrence of free fatty aldehydes in bovine cardiac muscle

Author

John R. Gilbertson, Ronald C. Johnson, Rose A. Gelman, and Carol Buffenmyer

Subjects

1-O-alkyl glycerols, alk-1-enyl glycerols, fatty aldehydes, fatty alcohols, thin-layer chromatography, gas–liquid chromatography, Biochemistry, QD415-436

Abstract

Free fatty acids, aldehydes, alcohols, and 1-O-alkyl and alk-1-enyl glycerols were identified and quantified in lipid extracts from bovine cardiac muscle.Although a number of components present in the free fatty aldehydes were also noted in the fatty chains in the 1-O-alk-1-enyl glycerols, a direct qualitative similarity did not exist as would be expected if the free fatty aldehydes were artifactual in origin. Also, a qualitative similarity did not exist between the fatty chains of the 1-O-alkyl and alk-1-enyl glycerols. This latter observation would suggest a mechanism other than biodehydrogenation of the alkyl ethers for the origin of the alk-1-enyl glycerols.Free fatty aldehydes were distributed evenly between the 105,000 g supernatant and particulate fractions of cardiac muscle, while the 1-O-alk-1-enyl glycerols were associated primarily with the particulate fraction. Free fatty alcohols were noted only in the supernatant fraction, while the 1-O-alkyl glycerols were present in both fractions.

Published

1972

6. Evidence for the existence of cholesteryl alk-1-enyl ethers in bovine and porcine cardiac muscle

Author

John R. Gilbertson, Helga H. Garlich, and Rose A. Gelman

Subjects

neutral lipid thin-layer chromatography, gas-liquid chromatography silicic acid column chromatography, infrared, Biochemistry, QD415-436

Abstract

Evidence is presented for the existence of cholesteryl alk-1-enyl ethers in bovine and porcine cardiac muscle. Several different fatty chains are present in the cholesteryl ethers, the major species having 16 and 18 carbon atoms. The cholesteryl alk-1-enyl ether concentration was found to be 0.08 and 0.01 μmoles/100 mg of neutral lipid in bovine and porcine cardiac muscle, respectively.

Published

1970

7. Isolation and identification of cholesteryl alkyl ethers from bovine cardiac muscle

Author

Henry Funasaki and John R. Gilbertson

Subjects

thin-layer, gas-liquid, silicic acid column, chromatography, mass spectrometry, Biochemistry, QD415-436

Abstract

Cholesteryl alkyl ethers have been isolated from bovine cardiac muscle and characterized by thin-layer and gas-liquid chromatography. The fraction contained at least three homologues. Cholesteryl hexadecyl ether, which accounted for over 90% of the total components observed on gas chromatography, was identified by mass spectrometry.

Published

1968

8. Open-source Software Sustainability Models: Initial White Paper From the Informatics Technology for Cancer Research Sustainability and Industry Partnership Working Group

Author

Ye Ye, Seemran Barapatre, Michael K Davis, Keith O Elliston, Christos Davatzikos, Andrey Fedorov, Jean-Christophe Fillion-Robin, Ian Foster, John R Gilbertson, Andras Lasso, James V Miller, Martin Morgan, Steve Pieper, Brigitte E Raumann, Brion D Sarachan, Guergana Savova, Jonathan C Silverstein, Donald P Taylor, Joyce B Zelnis, Guo-Qiang Zhang, Jamie Cuticchia, and Michael J Becich

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270

Abstract

BackgroundThe National Cancer Institute Informatics Technology for Cancer Research (ITCR) program provides a series of funding mechanisms to create an ecosystem of open-source software (OSS) that serves the needs of cancer research. As the ITCR ecosystem substantially grows, it faces the challenge of the long-term sustainability of the software being developed by ITCR grantees. To address this challenge, the ITCR sustainability and industry partnership working group (SIP-WG) was convened in 2019. ObjectiveThe charter of the SIP-WG is to investigate options to enhance the long-term sustainability of the OSS being developed by ITCR, in part by developing a collection of business model archetypes that can serve as sustainability plans for ITCR OSS development initiatives. The working group assembled models from the ITCR program, from other studies, and from the engagement of its extensive network of relationships with other organizations (eg, Chan Zuckerberg Initiative, Open Source Initiative, and Software Sustainability Institute) in support of this objective. MethodsThis paper reviews the existing sustainability models and describes 10 OSS use cases disseminated by the SIP-WG and others, including 3D Slicer, Bioconductor, Cytoscape, Globus, i2b2 (Informatics for Integrating Biology and the Bedside) and tranSMART, Insight Toolkit, Linux, Observational Health Data Sciences and Informatics tools, R, and REDCap (Research Electronic Data Capture), in 10 sustainability aspects: governance, documentation, code quality, support, ecosystem collaboration, security, legal, finance, marketing, and dependency hygiene. ResultsInformation available to the public reveals that all 10 OSS have effective governance, comprehensive documentation, high code quality, reliable dependency hygiene, strong user and developer support, and active marketing. These OSS include a variety of licensing models (eg, general public license version 2, general public license version 3, Berkeley Software Distribution, and Apache 3) and financial models (eg, federal research funding, industry and membership support, and commercial support). However, detailed information on ecosystem collaboration and security is not publicly provided by most OSS. ConclusionsWe recommend 6 essential attributes for research software: alignment with unmet scientific needs, a dedicated development team, a vibrant user community, a feasible licensing model, a sustainable financial model, and effective product management. We also stress important actions to be considered in future ITCR activities that involve the discussion of the sustainability and licensing models for ITCR OSS, the establishment of a central library, the allocation of consulting resources to code quality control, ecosystem collaboration, security, and dependency hygiene.

Published

2021

9. Open Source Software Sustainability Models: Initial White Paper from the Information Technology for Cancer Research Sustainability and Industry Partnership Work Group.

Author

Y. Ye, Richard D. Boyce, M. K. Davis, Keith O. Elliston, Christos Davatzikos, Andrey Fedorov, Jean-Christophe Fillion-Robin, Ian T. Foster, John R. Gilbertson, Mervi Heiskanen, Juli D. Klemm, Andras Lasso, James V. Miller, M. Morgan, Steve Pieper 0001, Brigitte Raumann, B. Sarachan, G. Savova, Jonathan C. Silverstein, D. Taylor, J. Zelnis, G. Q. Zhang, and Michael J. Becich

Published

2019

10. Microarray Data Mining Using Gene Ontology.

Author

Songhui Li, Michael J. Becich, and John R. Gilbertson

Published

2004

11. Automated Clinical Annotation of Tissue Bank Specimens.

Author

John R. Gilbertson, Rajnish Gupta, Yimin Nie, Ashokkumar A. Patel, and Michael J. Becich

Published

2004

12. Implementation and Evaluation of a Negation Tagger in a Pipeline-based System for Information Extraction from Pathology Reports.

Author

Kevin J. Mitchell, Michael J. Becich, Jules J. Berman, Wendy W. Chapman, John R. Gilbertson, Dilip Gupta, James Harrison, Elizabeth Legowski, and Rebecca S. Crowley

Published

2004

13. Design of a high-speed slide imaging system for pathology.

Author

Arthur W. Wetzel, Patricia A. Feineigle, and John R. Gilbertson

Published

2002

14. Design and analysis of a content-based pathology image retrieval system.

Author

Lei Zheng, Arthur W. Wetzel, John R. Gilbertson, and Michael J. Becich

Published

2003

15. A Knowledge-based Approach to Information Extraction from Surgical Pathology Reports.

Author

Kevin J. Mitchell, Rebecca S. Crowley, Dilip Gupta, and John R. Gilbertson

Published

2003

16. An Evaluation of a De-identification Software Engine: Progress Towards Sharing Clinical Documents and Pathology Reports.

Author

Dilip Gupta, Melissa I. Saul, and John R. Gilbertson

Published

2002

17. Prototype Web-based continuing medical education using FlashPix images.

Author

Adam B. Landman, Yukako Yagi, John R. Gilbertson, Robert Dawson, Alberto M. Marchevsky, and Michael J. Becich

Published

2000

18. Introduction to Artificial Intelligence and Machine Learning for Pathology

Author

Michelle N Stram, John R. Gilbertson, Jansen N. Seheult, James M Sorace, James H. Harrison, Matthew G. Hanna, and Niels Olson

Subjects

Male, Pathology, medicine.medical_specialty, Best practice, Machine learning, computer.software_genre, Pathology and Forensic Medicine, Machine Learning, Software, Artificial Intelligence, medicine, Humans, Generalizability theory, Government, business.industry, Interpretation (philosophy), Software development, General Medicine, Pathologists, Medical Laboratory Technology, Software deployment, Professional association, Female, Artificial intelligence, Neural Networks, Computer, business, computer, Algorithms

Abstract

Context.—Recent developments in machine learning have stimulated intense interest in software that may augment or replace human experts. Machine learning may impact pathology practice by offering new capabilities in analysis, interpretation, and outcomes prediction using images and other data. The principles of operation and management of machine learning systems are unfamiliar to pathologists, who anticipate a need for additional education to be effective as expert users and managers of the new tools.Objective.—To provide a background on machine learning for practicing pathologists, including an overview of algorithms, model development, and performance evaluation; to examine the current status of machine learning in pathology and consider possible roles and requirements for pathologists in local deployment and management of machine learning systems; and to highlight existing challenges and gaps in deployment methodology and regulation.Data Sources.—Sources include the biomedical and engineering literature, white papers from professional organizations, government reports, electronic resources, and authors' experience in machine learning. References were chosen when possible for accessibility to practicing pathologists without specialized training in mathematics, statistics, or software development.Conclusions.—Machine learning offers an array of techniques that in recent published results show substantial promise. Data suggest that human experts working with machine learning tools outperform humans or machines separately, but the optimal form for this combination in pathology has not been established. Significant questions related to the generalizability of machine learning systems, local site verification, and performance monitoring remain to be resolved before a consensus on best practices and a regulatory environment can be established.

Published

2020

19. Open-source Software Sustainability Models: Initial White Paper From the Informatics Technology for Cancer Research Sustainability and Industry Partnership Working Group (Preprint)

Author

Ye Ye, Seemran Barapatre, Michael K Davis, Keith O Elliston, Christos Davatzikos, Andrey Fedorov, Jean-Christophe Fillion-Robin, Ian Foster, John R Gilbertson, Andras Lasso, James V Miller, Martin Morgan, Steve Pieper, Brigitte E Raumann, Brion D Sarachan, Guergana Savova, Jonathan C Silverstein, Donald P Taylor, Joyce B Zelnis, Guo-Qiang Zhang, Jamie Cuticchia, and Michael J Becich

Abstract

BACKGROUND The National Cancer Institute Informatics Technology for Cancer Research (ITCR) program provides a series of funding mechanisms to create an ecosystem of open-source software (OSS) that serves the needs of cancer research. As the ITCR ecosystem substantially grows, it faces the challenge of the long-term sustainability of the software being developed by ITCR grantees. To address this challenge, the ITCR sustainability and industry partnership working group (SIP-WG) was convened in 2019. OBJECTIVE The charter of the SIP-WG is to investigate options to enhance the long-term sustainability of the OSS being developed by ITCR, in part by developing a collection of business model archetypes that can serve as sustainability plans for ITCR OSS development initiatives. The working group assembled models from the ITCR program, from other studies, and from the engagement of its extensive network of relationships with other organizations (eg, Chan Zuckerberg Initiative, Open Source Initiative, and Software Sustainability Institute) in support of this objective. METHODS This paper reviews the existing sustainability models and describes 10 OSS use cases disseminated by the SIP-WG and others, including 3D Slicer, Bioconductor, Cytoscape, Globus, i2b2 (Informatics for Integrating Biology and the Bedside) and tranSMART, Insight Toolkit, Linux, Observational Health Data Sciences and Informatics tools, R, and REDCap (Research Electronic Data Capture), in 10 sustainability aspects: governance, documentation, code quality, support, ecosystem collaboration, security, legal, finance, marketing, and dependency hygiene. RESULTS Information available to the public reveals that all 10 OSS have effective governance, comprehensive documentation, high code quality, reliable dependency hygiene, strong user and developer support, and active marketing. These OSS include a variety of licensing models (eg, general public license version 2, general public license version 3, Berkeley Software Distribution, and Apache 3) and financial models (eg, federal research funding, industry and membership support, and commercial support). However, detailed information on ecosystem collaboration and security is not publicly provided by most OSS. CONCLUSIONS We recommend 6 essential attributes for research software: alignment with unmet scientific needs, a dedicated development team, a vibrant user community, a feasible licensing model, a sustainable financial model, and effective product management. We also stress important actions to be considered in future ITCR activities that involve the discussion of the sustainability and licensing models for ITCR OSS, the establishment of a central library, the allocation of consulting resources to code quality control, ecosystem collaboration, security, and dependency hygiene.

Published

2020

20. Computational Pathology: A Path Ahead

Author

Joel H. Saltz, John R. Gilbertson, John D. Pfeifer, Stephen J. Galli, Michael J. Becich, Alexis B. Carter, John H. Sinard, Jonathan Braun, David N. Louis, Michael Feldman, Jonas S. Almeida, Georg K. Gerber, Lynn Bry, Jeffrey A. Golden, Anand S. Dighe, and John E. Tomaszewski

Subjects

0301 basic medicine, Gerontology, Pathology, Clinical, Scope (project management), business.industry, Value proposition, MEDLINE, Computational Biology, General Medicine, Population health, Article, Pathology and Forensic Medicine, Variety (cybernetics), 03 medical and health sciences, Medical Laboratory Technology, 030104 developmental biology, Informatics, Health care, Humans, Medicine, Engineering ethics, business, PATH (variable)

Abstract

Context We define the scope and needs within the new discipline of computational pathology, a discipline critical to the future of both the practice of pathology and, more broadly, medical practice in general. Objective To define the scope and needs of computational pathology. Data Sources A meeting was convened in Boston, Massachusetts, in July 2014 prior to the annual Association of Pathology Chairs meeting, and it was attended by a variety of pathologists, including individuals highly invested in pathology informatics as well as chairs of pathology departments. Conclusions The meeting made recommendations to promote computational pathology, including clearly defining the field and articulating its value propositions; asserting that the value propositions for health care systems must include means to incorporate robust computational approaches to implement data-driven methods that aid in guiding individual and population health care; leveraging computational pathology as a center for data interpretation in modern health care systems; stating that realizing the value proposition will require working with institutional administrations, other departments, and pathology colleagues; declaring that a robust pipeline should be fostered that trains and develops future computational pathologists, for those with both pathology and nonpathology backgrounds; and deciding that computational pathology should serve as a hub for data-related research in health care systems. The dissemination of these recommendations to pathology and bioinformatics departments should help facilitate the development of computational pathology.

Published

2015

21. Career Paths of Pathology Informatics Fellowship Alumni

Author

Ulysses G. Balis, J M Tuthill, Matthew G. Hanna, Christopher L Williams, John R. Gilbertson, Liron Pantanowitz, Joseph W Rudolf, and Christopher A Garcia

Subjects

Pathology, medicine.medical_specialty, Health Informatics, Certification, Scientific literature, lcsh:Computer applications to medicine. Medical informatics, Subspecialty, Health informatics, 030218 nuclear medicine & medical imaging, Pathology and Forensic Medicine, informatics curriculum, 03 medical and health sciences, 0302 clinical medicine, informatics career trajectories, lcsh:Pathology, medicine, Curriculum, Chief medical informatics officer, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, Clinical Informatics, Computer Science Applications, 030220 oncology & carcinogenesis, Informatics, Community health, lcsh:R858-859.7, Original Article, business, Pathology Informatics fellowship, lcsh:RB1-214

Abstract

Background: The alumni of today's Pathology Informatics and Clinical Informatics fellowships fill diverse roles in academia, large health systems, and industry. The evolving training tracks and curriculum of Pathology Informatics fellowships have been well documented. However, less attention has been given to the posttraining experiences of graduates from informatics training programs. Here, we examine the career paths of subspecialty fellowship-trained pathology informaticians. Methods: Alumni from four Pathology Informatics fellowship training programs were contacted for their voluntary participation in the study. We analyzed various components of training, and the subsequent career paths of Pathology Informatics fellowship alumni using data extracted from alumni provided curriculum vitae. Results: Twenty-three out of twenty-seven alumni contacted contributed to the study. A majority had completed undergraduate study in science, technology, engineering, and math fields and combined track training in anatomic and clinical pathology. Approximately 30% (7/23) completed residency in a program with an in-house Pathology Informatics fellowship. Most completed additional fellowships (15/23) and many also completed advanced degrees (10/23). Common primary posttraining appointments included chief medical informatics officer (3/23), director of Pathology Informatics (10/23), informatics program director (2/23), and various roles in industry (3/23). Many alumni also provide clinical care in addition to their informatics roles (14/23). Pathology Informatics alumni serve on a variety of institutional committees, participate in national informatics organizations, contribute widely to scientific literature, and more than half (13/23) have obtained subspecialty certification in Clinical Informatics to date. Conclusions: Our analysis highlights several interesting phenomena related to the training and career trajectory of Pathology Informatics fellowship alumni. We note the long training track alumni complete in preparation for their careers. We believe flexible training pathways combining informatics and clinical training may help to alleviate the burden. We highlight the importance of in-house Pathology Informatics fellowships in promoting interest in informatics among residents. We also observe the many important leadership roles in academia, large community health systems, and industry available to early career alumni and believe this reflects a strong market for formally trained informaticians. We hope this analysis will be useful as we continue to develop the informatics fellowships to meet the future needs of our trainees and discipline.

Published

2017

22. Longitudinal Engagement of Pathology Residents

Author

Luigi K. F. Rao and John R. Gilbertson

Subjects

Pathology, medicine.medical_specialty, business.industry, education, Engineering informatics, Information technology, General Medicine, Coaching, Experiential learning, Training (civil), Active participation, Health Administration Informatics, Informatics, ComputingMilieux_COMPUTERSANDEDUCATION, Medicine, business

Abstract

Objectives: The intersecting of pathology training and practice and the utilization of information technology has become an increasingly common occurrence, and the most effective means of teaching residents informatics during these invaluable years has yet to be firmly established. Methods: In offering the idea of longitudinal engagement that stresses early and extended trainee involvement, we attempt to provide a different manner of helping address some of the leading time-limited issues surrounding education in informatics. Results: The proposed model is intended to allow building off a base of fundamentals reached through introductory didactics, exposure to and active participation in departmental and hospital-wide administrative bodies, refining of initial skills gained through frequent mentoring and coaching, and combining these cumulative knowledge and experiential underpinnings with graduated responsibility in a particular area of expertise. Conclusions: In transforming the ways in which pathology residencies teach their trainees informatics, the prospects of realizing its potential utility are heightened.

Published

2014

23. Overview of telepathology, virtual microscopy, and whole slide imaging: prospects for the future

Author

Kristine A. Erps, Achyut K. Bhattacharyya, John R. Gilbertson, Gail P. Barker, Yukako Yagi, Lynne Richter, Ronald S. Weinstein, Elizabeth A. Krupinski, Ana Maria Lopez, and Anna R. Graham

Subjects

Pathology, medicine.medical_specialty, business.industry, Emerging technologies, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Information technology, Digital pathology, Teleradiology, Pathology and Forensic Medicine, Picture archiving and communication system, Medicine, business, Telecommunications, Telepathology, Virtual slide, Virtual microscopy

Abstract

Telepathology, the practice of pathology at a long distance, has advanced continuously since 1986. Today, fourth-generation telepathology systems, so-called virtual slide telepathology systems, are being used for education applications. Both conventional and innovative surgical pathology diagnostic services are being designed and implemented as well. The technology has been commercialized by more than 30 companies in Asia, the United States, and Europe. Early adopters of telepathology have been laboratories with special challenges in providing anatomic pathology services, ranging from the need to provide anatomic pathology services at great distances to the use of the technology to increase efficiency of services between hospitals less than a mile apart. As to what often happens in medicine, early adopters of new technologies are professionals who create model programs that are successful and then stimulate the creation of infrastructure (ie, reimbursement, telecommunications, information technologies, and so on) that forms the platforms for entry of later, mainstream, adopters. The trend at medical schools, in the United States, is to go entirely digital for their pathology courses, discarding their student light microscopes, and building virtual slide laboratories. This may create a generation of pathology trainees who prefer digital pathology imaging over the traditional hands-on light microscopy. The creation of standards for virtual slide telepathology is early in its development but accelerating. The field of telepathology has now reached a tipping point at which major corporations now investing in the technology will insist that standards be created for pathology digital imaging as a value added business proposition. A key to success in teleradiology, already a growth industry, has been the implementation of standards for digital radiology imaging. Telepathology is already the enabling technology for new, innovative laboratory services. Examples include STAT QA surgical pathology second opinions at a distance and a telehealth-enabled rapid breast care service. The innovative bundling of telemammography, telepathology, and teleoncology services may represent a new paradigm in breast care that helps address the serious issue of fragmentation of breast cancer care in the United States and elsewhere. Legal and regulatory issues in telepathology are being addressed and are regarded as a potential catalyst for the next wave of telepathology advances, applications, and implementations.

Published

2009

24. Evaluation of whole slide image immunohistochemistry interpretation in challenging prostate needle biopsies

Author

Leslie Anthony, Dana M. Grzybicki, Jonhan Ho, Jeffrey L. Fine, Drazen M. Jukic, Sheldon I. Bastacky, Robb R. Wilson, Russell Silowash, John R. Gilbertson, Anil V. Parwani, and Jonathan I. Epstein

Subjects

Male, medicine.medical_specialty, Prostate biopsy, medicine.diagnostic_test, business.industry, Biopsy, Needle, Prostatic Neoplasms, Digital pathology, Adenocarcinoma, Immunohistochemistry, Pathology and Forensic Medicine, Surgery, Surgical pathology, Cohen's kappa, Image Interpretation, Computer-Assisted, medicine, Humans, Medical physics, Medical diagnosis, business, Telepathology, Quality assurance, Software, Virtual microscopy

Abstract

Whole slide images (WSIs), also known as virtual slides, can support electronic distribution of immunohistochemistry (IHC) stains to pathologists that rely on remote sites for these services. This may lead to improvement in turnaround times, reduction of courier costs, fewer errors in slide distribution, and automated image analyses. Although this approach is practiced de facto today in some large laboratories, there are no clinical validation studies on this approach. Our retrospective study evaluated the interpretation of IHC stains performed in difficult prostate biopsies using WSIs. The study included 30 foci with IHC stains identified by the original pathologist as both difficult and pivotal to the final diagnosis. WSIs were created from the glass slides using a scanning robot (T2, Aperio Technologies, Vista, CA). An evaluation form was designed to capture data in 2 phases: (1) interpretation of WSIs and (2) interpretation of glass slides. Data included stain interpretations, diagnoses, and other parameters such as time required to diagnose and image/slide quality. Data were also collected from an expert prostate pathologist, consensus meetings, and a poststudy focus group. WSI diagnostic validity (intraobserver pairwise kappa statistics) was "almost perfect" for 1 pathologist, "substantial" for 3 pathologists, and "moderate" for 1 pathologist. Diagnostic agreement between the final/consensus diagnoses of the group and those of the domain expert was "almost perfect" (kappa = 0.817). Except for one instance, WSI technology was not felt to be the cause of disagreements. These results are encouraging and compare favorably with other efforts to quantify diagnostic variability in surgical pathology. With thorough training, careful validation of specific applications, and regular postsignout review of glass IHC slides (eg, quality assurance review), WSI technology can be used for IHC stain interpretation.

Published

2008

25. Whole slide imaging for human epidermal growth factor receptor 2 immunohistochemistry interpretation: Accuracy, Precision, and reproducibility studies for digital manual and paired glass slide manual interpretation

Author

Nicholas C. Jones, David C. Wilbur, Elena F. Brachtel, Savitra Krishnamurthy, John G. Vallone, and John R. Gilbertson

Subjects

Accuracy and precision, Reproducibility, Manual interpretation, Information retrieval, Computer science, human epidermal growth factor receptor 2 immunohistochemistry, Digital pathology, Health Informatics, lcsh:Computer applications to medicine. Medical informatics, Washout period, Computer Science Applications, Pathology and Forensic Medicine, whole slide imaging, Digital image, Glass slide, lcsh:Pathology, lcsh:R858-859.7, Digital pathology, human epidermal growth factor receptor 2 immunohistochemistry, whole slide imaging, Original Article, Human Epidermal Growth Factor Receptor 2, Biomedical engineering, lcsh:RB1-214

Abstract

Background: The use of digital whole slide imaging for human epidermal growth factor receptor 2 (HER2) immunohistochemistry (IHC) could create improvements in workflow and performance, allowing for central archiving of specimens, distributed and remote interpretation, and the potential for additional computerized automation. Procedures: The accuracy, precision, and reproducibility of manual digital interpretation for HER2 IHC were determined by comparison to manual glass slide interpretation. Inter- and intra-pathologist reproducibility and precision between the glass slide and digital interpretations of HER2 IHC were determined in 5 studies using DAKO HercepTest-stained breast cancer slides with the Philips Digital Pathology System. In 2 inter-method studies, 3 pathologists interpreted glass and digital slides in sequence or in random order with a minimum of 7 days as a washout period. These studies also measured inter-observer reproducibility and precision. Another two studies measured intra-pathologist reproducibility on cases read 10 times by glass and digital methods. One additional study evaluated the effects of adding IHC control slides with each run, using 1 pathologist interpreting glass and digital slides randomized from the sets above along with appropriate controls for each slide in the set. Results: The overall results show that there is no statistical difference between the variance of performance when comparing glass and digital HER2 interpretations; and there were no effects noted when control tissues were evaluated in conjunction with the test slides. Conclusions: The results show that there is an equivalence of result when interpreting HER2 IHC slides in breast cancer by either glass slides or digital images. Digital interpretation can therefore be safely and effectively used for this purpose.

Published

2015

26. Use of whole slide imaging in surgical pathology quality assurance: design and pilot validation studies

Author

Drazen M. Jukic, Leslie Anthony, John R. Gilbertson, Yukako Yagi, Jonhan Ho, and Anil V. Parwani

Subjects

Male, Microscopy, Pathology, medicine.medical_specialty, Validation study, Time Factors, Quality Assurance, Health Care, Pathology, Surgical, business.industry, MEDLINE, Pilot Projects, Retrospective cohort study, Pathology and Forensic Medicine, Surgical pathology, Male Urogenital Diseases, Informatics, Image Processing, Computer-Assisted, Information system, medicine, Humans, Image acquisition, Medical physics, business, Quality assurance, Retrospective Studies

Abstract

By imaging large numbers of slides automatically at high resolution, modem automated whole slide imaging (WSI) systems have the potential to become useful tools in pathology practice. This article describes a pilot validation study for use of automated high-speed WSI systems for surgical pathology quality assurance (QA). This was a retrospective comparative study in which 24 full genitourinary cases (including 47 surgical parts and 391 slides) were independently reviewed with traditional microscopy and whole slide digital images. Approximately half the cases had neoplasia in the diagnostic line. At the end of the study, diagnostic discrepancies were evaluated by a pathology consensus committee. The study pathologists felt that the traditional and WSI methods were comparable for case review. They reported no difference in perceived case complexity or diagnostic confidence between the methods. There were 4 clinically insignificant discrepancies with the signed-out cases: 2 from glass slide and 2 with WSI review. Of the 2 discrepancies reported by the WSI method, the committee agreed with the reviewer once and the original report once. At the end of the study, the participants agreed that automated WSI is a viable potential modality for surgical pathology QA, especially in multifacility health systems that would like to establish interfacility QA. The participants felt that major issues limiting the implementation of WSI-based QA did not involve image acquisition or quality but rather image management issues such as the pathologist's interface, the hospital's network, and integration with the laboratory information system.

Published

2006

27. Digital imaging in pathology: the case for standardization

Author

John R. Gilbertson and Yukako Yagi

Subjects

Microscopy, Pathology, medicine.medical_specialty, Pathology, Clinical, Computer science, Image quality, business.industry, Dynamic imaging, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Digital imaging, Telepathology, Health Informatics, Image processing, computer.file_format, Reference Standards, Digital image, Image Interpretation, Computer-Assisted, Digital image processing, medicine, Computer vision, Image file formats, Artificial intelligence, Image sensor, business, computer

Abstract

The process of digital imaging in microscopy is a series of operations, each contributing to the quality of the final image that is displayed on the computer monitor. The operations include sample preparation and staining by histology, optical image formation by the microscope, digital image sampling by the camera sensor, postprocessing and compression, transmission across the network and display on the monitor. There is an extensive literature about digital imaging and each step of the process is fairly well understood. However, the complete process is very hard to standardize or even to understand fully. The important concepts for pathology imaging standards are: (1) systems should be able to share image files, (2) the standards should allow the transmission of information on baseline colours and recommended display parameters, (3) the images should be useful to the pathologist, not necessarily better or worse than direct examination of a slide under the microscope, (4) a mechanism to evaluate image quality objectively should be present, (5) a mechanism to adjust and correct the minor errors of tissue processing should be developed, (6) a public organization should support pathologists in the development of standards.

Published

2005

28. Pathology and patient safety: the critical role of pathology informatics in error reduction and quality initiatives

Author

Michael J. Becich, Ashokkumar A Patel, Dana M. Grzybicki, Dilip Gupta, Stephen S. Raab, and John R. Gilbertson

Subjects

Safety Management, Pathology, medicine.medical_specialty, Quality management, Patients, Quality Assurance, Health Care, Pathology, Surgical, business.industry, Biochemistry (medical), Clinical Biochemistry, MEDLINE, Organizational Innovation, Terminology, Patient safety, Health Administration Informatics, Informatics, Health care, Humans, Medicine, Medical Informatics Applications, Diagnostic Errors, Error reduction, business

Abstract

Understanding the role of pathology informatics in patient safety entails an introduction to terminology and projects that have represented efforts to date in this area. The authors provide a short alphabetized introduction to several "buzzwords" and terms related to tools and processes that are used by health care research experts and workers involved in patient safety initiatives. The authors also include short descriptions of key health care research and patient safety projects that are relevant to pathology. They aim to highlight the areas where pathology informatics in all of its flavors (production systems provided by vendors as well as research and development efforts) can play a role in promoting patient safety.

Published

2004

29. Webcasting pathology department conferences in a geographically distributed medical center

Author

John R. Gilbertson, Yukako Yagi, Michael J. Becich, Clayton A. Wiley, Gross W, Barbara E. Barnes, Ishtiaque Ahmed, Samuel A. Yousem, Alan Wells, George K. Michalopoulos, and Anthony J. Demetris

Subjects

Gerontology, Academic Medical Centers, Service (systems architecture), business.industry, Control (management), Distance education, Telepathology, Information technology, Pennsylvania, Pathology and Forensic Medicine, Engineering management, Informatics, Webcast, Humans, Public address system, Medicine, Center (algebra and category theory), business, ComputingMilieux_MISCELLANEOUS

Abstract

As academic pathology departments have become increasingly based in large, regional medical systems spread across hundreds of square miles, new methods are needed to tie these increasingly distributed departments together as integrated units. An important part of that integration is the ability to share academic and teaching conferences across long distances. In this article we present an effective, low-cost webcasting system that has evolved at the University of Pittsburgh Medical Center Department of Pathology over the past several years based on inexpensive, widely available software. To date, the system has broadcast and archived more than 400 conferences and currently serves approximately 80 to 100 requests each week. Important factors in the success of the program include the creation of a faculty steering committee to control resources and manage growth, the availability of informatics faculty and support for technical staff, and the decision to operate the service as part of the core information technology infrastructure of the department. Webcasting will likely become an even more important academic and operational tool in the future as more of the department's conferences, seminars, and even working meetings are communicated through the webcasting infrastructure.

Published

2004

30. The Role of Micro CT in the Imaging of Cancer

Author

P. Anand, Jaikaran Singh, Barbara L. Smith, R. Tang, G. Harris, M. Saksena, J. Michaelson, M. Griffin, A. Ly, R. Moore, G. P. Nielsen, A. Zambeli-Ljepovic, John R. Gilbertson, Yukako Yagi, Kunal Patel, Anthony H. Bui, W. Sarraj, N. Gershenfeld, D. Kopans, M. Lewin-Berlin, and Michael Senter-Zapata

Subjects

Cancer Research, medicine.medical_specialty, QH573-671, business.industry, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cancer, Cell Biology, General Medicine, Bioinformatics, medicine.disease, Pathology and Forensic Medicine, Surgical oncology, Meeting Abstract, medicine, Molecular Medicine, Medical physics, Cytology, Micro ct, business, RC254-282

Abstract

The absence of real-time, detailed, 3D information on the composition of surgical specimens presents an enormous challenge in surgical oncology and pathology.

Published

2014

31. Computational pathology: an emerging definition

Author

Anand S. Dighe, John R. Gilbertson, Gad Getz, Lyn Bry, David N. Louis, Craig H. Mermel, Georg K. Gerber, Jason M. Baron, James S. Michaelson, William J. Lane, Frank C. Kuo, John M. Higgins, Jeffrey A. Golden, and Long P. Le

Subjects

Information retrieval, Pathology, Clinical, Computer science, business.industry, MEDLINE, Computational Biology, General Medicine, Pathology and Forensic Medicine, High-Throughput Screening Assays, Medical Laboratory Technology, Computational pathology, Text mining, Terminology as Topic, Humans, Pathology, Molecular, business, Medical Informatics

Published

2014

32. The ongoing evolution of the core curriculum of a clinical fellowship in pathology informatics

Author

William J. Lane, Bruce A. Beckwith, Diana Mandelker, Ji Yeon Kim, Victor Brodsky, John R. Gilbertson, Andrew M. Quinn, David S. McClintock, Frank C. Kuo, Roy E Lee, Bruce Levy, Veronica E. Klepeis, Gregory Riedlinger, Mia Y Platt, Jason M. Baron, and Luigi K. F. Rao

Subjects

Pathology, medicine.medical_specialty, Computer science, pathology informatics curriculum, Health Informatics, pathology informatics teaching, Subspecialty, lcsh:Computer applications to medicine. Medical informatics, Health informatics, GeneralLiterature_MISCELLANEOUS, Pathology and Forensic Medicine, Learning styles, Health Administration Informatics, Health care, medicine, Information system, lcsh:Pathology, ComputingMilieux_COMPUTERSANDEDUCATION, Technical Note, Clinical informatics curriculum, business.industry, Computer Science Applications, Business informatics, Clinical informatics curriculum, clinical informatics teaching, pathology informatics, pathology informatics curriculum, pathology informatics teaching, Informatics, clinical informatics teaching, pathology informatics, lcsh:R858-859.7, business, lcsh:RB1-214

Abstract

The Partners HealthCare system's Clinical Fellowship in Pathology Informatics (Boston, MA, USA) faces ongoing challenges to the delivery of its core curriculum in the forms of: (1) New classes of fellows annually with new and varying educational needs and increasingly fractured, enterprise-wide commitments; (2) taxing electronic health record (EHR) and laboratory information system (LIS) implementations; and (3) increasing interest in the subspecialty at the academic medical centers (AMCs) in what is a large health care network. In response to these challenges, the fellowship has modified its existing didactic sessions and piloted both a network-wide pathology informatics lecture series and regular "learning laboratories". Didactic sessions, which had previously included more formal discussions of the four divisions of the core curriculum: Information fundamentals, information systems, workflow and process, and governance and management, now focus on group discussions concerning the fellows' ongoing projects, updates on the enterprise-wide EHR and LIS implementations, and directed questions about weekly readings. Lectures are given by the informatics faculty, guest informatics faculty, current and former fellows, and information systems members in the network, and are open to all professional members of the pathology departments at the AMCs. Learning laboratories consist of small-group exercises geared toward a variety of learning styles, and are driven by both the fellows and a member of the informatics faculty. The learning laboratories have created a forum for discussing real-time and real-world pathology informatics matters, and for incorporating awareness of and timely discussions about the latest pathology informatics literature. These changes have diversified the delivery of the fellowship's core curriculum, increased exposure of faculty, fellows and trainees to one another, and more equitably distributed teaching responsibilities among the entirety of the pathology informatics asset in the network. Though the above approach has been in place less than a year, we are presenting it now as a technical note to allow for further discussion of evolving educational opportunities in pathology informatics and clinical informatics in general, and to highlight the importance of having a flexible fellowship with active participation from its fellows.

Published

2014

33. The 2013 symposium on pathology data integration and clinical decision support and the current state of field

Author

Jason M. Baron, Rakesh Nagarajan, John M. Higgins, James S. Michaelson, Craig H. Mermel, Ji Yeon Kim, Veronica E. Klepeis, Brian R. Jackson, Ulysses J. Balis, Brian H. Shirts, Andrew M. Quinn, David N. Louis, Long P. Le, Alexis B. Carter, Ramy Arnaout, Diana Mandelker, Walter H. Henricks, John R. Gilbertson, Mihae E. Platt, W. Stephen Black-Schaffer, Anand S. Dighe, and Luigi K. F. Rao

Subjects

Decision support system, Pathology, medicine.medical_specialty, Computer science, media_common.quotation_subject, Medical laboratory, Health Informatics, computer.software_genre, lcsh:Computer applications to medicine. Medical informatics, Clinical decision support system, Field (computer science), Pathology and Forensic Medicine, Presentation, medicine, lcsh:Pathology, genomics, media_common, test utilization, business.industry, Interpretation (philosophy), Clinical decision support, Data science, Computer Science Applications, Test (assessment), machine learning, lcsh:R858-859.7, Clinical decision support, genomics, interpretive reporting, machine learning, test utilization, Original Article, business, computer, interpretive reporting, Data integration, lcsh:RB1-214

Abstract

Background: Pathologists and informaticians are becoming increasingly interested in electronic clinical decision support for pathology, laboratory medicine and clinical diagnosis. Improved decision support may optimize laboratory test selection, improve test result interpretation and permit the extraction of enhanced diagnostic information from existing laboratory data. Nonetheless, the field of pathology decision support is still developing. To facilitate the exchange of ideas and preliminary studies, we convened a symposium entitled: Pathology data integration and clinical decision support. Methods: The symposium was held at the Massachusetts General Hospital, on May 10, 2013. Participants were selected to represent diverse backgrounds and interests and were from nine different institutions in eight different states. Results: The day included 16 plenary talks and three panel discussions, together covering four broad areas. Summaries of each presentation are included in this manuscript. Conclusions: A number of recurrent themes emerged from the symposium. Among the most pervasive was the dichotomy between diagnostic data and diagnostic information, including the opportunities that laboratories may have to use electronic systems and algorithms to convert the data they generate into more useful information. Differences between human talents and computer abilities were described; well-designed symbioses between humans and computers may ultimately optimize diagnosis. Another key theme related to the unique needs and challenges in providing decision support for genomics and other emerging diagnostic modalities. Finally, many talks relayed how the barriers to bringing decision support toward reality are primarily personnel, political, infrastructural and administrative challenges rather than technological limitations.

Published

2014

34. The Pittsburgh Reference Laboratory Alliance:A Model for Laboratory Medicine in the 21st Century

Author

Sean McLinden, Paul D. Mango, Darrell J. Triulzi, Michael J. Becich, and John R. Gilbertson

Subjects

Gerontology, Medical education, Cost–benefit analysis, Referral, Computer science, business.industry, Cost effectiveness, Medical laboratory, MEDLINE, General Medicine, Alliance, Informatics, Virtual Laboratory, business

Abstract

The Pittsburgh Reference Library Alliance (RLA) represents a successful response by hospital laboratories to the new realities of medical economics and practice. By using informatics technology to integrate the laboratory resources of community hospitals and academic medical centers across western Pennsylvania, the RLA has created a large virtual laboratory that can compete for price with large national referral laboratories. More significantly, the combination of medical expertise, the ties to academic and community centers, and the regional medical database of the RLAs allows laboratory medicine to be practiced in a new proactive way. This should provide better and more cost-effective patient care. The success of the RLA is a model for regional cooperation in pathology and potentially in other medical specialties and demonstrates the importance of informatics in the future of medical practice.

Published

1997

35. Perceptions of pathology informatics by non-informaticist pathologists and trainees

Author

Thomas M Gudewicz, Jason M. Baron, Addie Walker, Roy E Lee, John R. Gilbertson, Christopher A Garcia, and Walter H. Henricks

Subjects

Pathology, medicine.medical_specialty, media_common.quotation_subject, Health Informatics, Reference laboratory, lcsh:Computer applications to medicine. Medical informatics, Education, 030218 nuclear medicine & medical imaging, Pathology and Forensic Medicine, perceptions, 03 medical and health sciences, 0302 clinical medicine, Perception, lcsh:Pathology, fellow, medicine, resident, General hospital, Desk, Confusion, media_common, business.industry, Information technology, Computer Science Applications, 030220 oncology & carcinogenesis, Informatics, pathology informatics, lcsh:R858-859.7, Original Article, medicine.symptom, business, lcsh:RB1-214

Abstract

Background: Although pathology informatics (PI) is essential to modern pathology practice, the field is often poorly understood. Pathologists who have received little to no exposure to informatics, either in training or in practice, may not recognize the roles that informatics serves in pathology. The purpose of this study was to characterize perceptions of PI by noninformatics-oriented pathologists and to do so at two large centers with differing informatics environments. Methods: Pathology trainees and staff at Cleveland Clinic (CC) and Massachusetts General Hospital (MGH) were surveyed. At MGH, pathology department leadership has promoted a pervasive informatics presence through practice, training, and research. At CC, PI efforts focus on production systems that serve a multi-site integrated health system and a reference laboratory, and on the development of applications oriented to department operations. The survey assessed perceived definition of PI, interest in PI, and perceived utility of PI. Results: The survey was completed by 107 noninformatics-oriented pathologists and trainees. A majority viewed informatics positively. Except among MGH trainees, confusion of PI with information technology (IT) and help desk services was prominent, even in those who indicated they understood informatics. Attendings and trainees indicated desire to learn more about PI. While most acknowledged that having some level of PI knowledge would be professionally useful and advantageous, only a minority plan to utilize it. Conclusions: Informatics is viewed positively by the majority of noninformatics pathologists at two large centers with differing informatics orientations. Differences in departmental informatics culture can be attributed to the varying perceptions of PI by different individuals. Incorrect perceptions exist, such as conflating PI with IT and help desk services, even among those who claim to understand PI. Further efforts by the PI community could address such misperceptions, which could help enable a better understanding of what PI is and is not, and potentially lead to increased acceptance by non-informaticist pathologists.

Published

2016

36. Pathology informatics fellowship retreats: The use of interactive scenarios and case studies as pathology informatics teaching tools

Author

Anand S. Dighe, Ji Yeon Kim, William J. Lane, Veronica E Klepseis, Alexis B. Carter, Ulysses J. Balis, Walter H. Henricks, Maristela L. Onozato, Michael J. Becich, John R. Gilbertson, Bruce A. Beckwith, Mark J Tuthill, Jason D. Hipp, Victor Brodsky, Bruce Levy, David S. McClintock, Roy E Lee, Jason M. Baron, Frank C. Kuo, Mehrvash Haghighi, Seung L Park, and John H. Sinard

Subjects

Pathology, medicine.medical_specialty, Computer science, informatics fellowship training, clinical informatics training, Health Informatics, Plan (drawing), lcsh:Computer applications to medicine. Medical informatics, Health informatics, Pathology and Forensic Medicine, Case method, clinical informatics, medicine, lcsh:Pathology, ComputingMilieux_COMPUTERSANDEDUCATION, Technical Note, Curriculum, Class (computer programming), Medical education, retreats, business.industry, Common core, Case study method, Computer Science Applications, Informatics, pathology informatics, lcsh:R858-859.7, business, informatics teaching, pathology informatics training, pathology informatics fellowship, lcsh:RB1-214

Abstract

Background: Last year, our pathology informatics fellowship added informatics-based interactive case studies to its existing educational platform of operational and research rotations, clinical conferences, a common core curriculum with an accompanying didactic course, and national meetings. Methods: The structure of the informatics case studies was based on the traditional business school case study format. Three different formats were used, varying in length from short, 15-minute scenarios to more formal multiple hour-long case studies. Case studies were presented over the course of three retreats (Fall 2011, Winter 2012, and Spring 2012) and involved both local and visiting faculty and fellows. Results: Both faculty and fellows found the case studies and the retreats educational, valuable, and enjoyable. From this positive feedback, we plan to incorporate the retreats in future academic years as an educational component of our fellowship program. Conclusions: Interactive case studies appear to be valuable in teaching several aspects of pathology informatics that are difficult to teach in more traditional venues (rotations and didactic class sessions). Case studies have become an important component of our fellowship's educational platform.

Published

2012

37. Different tracks for pathology informatics fellowship training: Experiences of and input from trainees in a large multisite fellowship program

Author

Bruce A. Beckwith, Jason M. Baron, David S. McClintock, Roy E Lee, Bruce Levy, Victor Brodsky, John R. Gilbertson, Ji Yeon Kim, Frank C. Kuo, Veronica E. Klepeis, Maristela L. Onozato, and William J. Lane

Subjects

Pathology, medicine.medical_specialty, education, Specialty, informatics fellowship training, Health Informatics, Subspecialty, lcsh:Computer applications to medicine. Medical informatics, Health informatics, GeneralLiterature_MISCELLANEOUS, Pathology and Forensic Medicine, Health Administration Informatics, clinical informatics, lcsh:Pathology, ComputingMilieux_COMPUTERSANDEDUCATION, Medicine, Accreditation, Medical education, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, Clinical informatics training, Computer Science Applications, Variety (cybernetics), Informatics, pathology informatics, lcsh:R858-859.7, fellowship tracks, Original Article, Board certification, business, informatics teaching, pathology informatics training, pathology informatics fellowship, lcsh:RB1-214

Abstract

Background: Pathology Informatics is a new field; a field that is still defining itself even as it begins the formalization, accreditation, and board certification process. At the same time, Pathology itself is changing in a variety of ways that impact informatics, including subspecialization and an increased use of data analysis. In this paper, we examine how these changes impact both the structure of Pathology Informatics fellowship programs and the fellows′ goals within those programs. Materials and Methods: As part of our regular program review process, the fellows evaluated the value and effectiveness of our existing fellowship tracks (Research Informatics, Clinical Two-year Focused Informatics, Clinical One-year Focused Informatics, and Clinical 1 + 1 Subspecialty Pathology and Informatics). They compared their education, informatics background, and anticipated career paths and analyzed them for correlations between those parameters and the fellowship track chosen. All current and past fellows of the program were actively involved with the project. Results: Fellows′ anticipated career paths correlated very well with the specific tracks in the program. A small set of fellows (Clinical - one or two year - Focused Informatics tracks) anticipated clinical careers primarily focused in informatics (Director of Informatics). The majority of the fellows, however, anticipated a career practicing in a Pathology subspecialty, using their informatics training to enhance that practice (Clinical 1 + 1 Subspecialty Pathology and Informatics Track). Significantly, all fellows on this track reported they would not have considered a Clinical Two-year Focused Informatics track if it was the only track offered. The Research and the Clinical One-year Focused Informatics tracks each displayed unique value for different situations. Conclusions: It seems a "one size fits all" fellowship structure does not fit the needs of the majority of potential Pathology Informatics candidates. Increasingly, these fellowships must be able to accommodate the needs of candidates anticipating a wide range of Pathology Informatics career paths, be able to accommodate Pathology′s increasingly subspecialized structure, and do this in a way that respects the multiple fellowships needed to become a subspecialty pathologist and informatician. This is further complicated as Pathology Informatics begins to look outward and takes its place in the growing, and still ill-defined, field of Clinical Informatics, a field that is not confined to just one medical specialty, to one way of practicing medicine, or to one way of providing patient care.

Published

2012

38. Using computerized workflow simulations to assess the feasibility of whole slide imaging full adoption in a high-volume histology laboratory

Author

David S, McClintock, Roy E, Lee, and John R, Gilbertson

Subjects

Pathology, Clinical, Time Factors, workflow, Histological Techniques, business analysis software, Reproducibility of Results, BPMN, Models, Theoretical, virtual microscopy, histology, Image Processing, Computer-Assisted, Feasibility Studies, Humans, process modeling, Computer Simulation, computer simulations, Other, Whole slide imaging

Abstract

Background: Whole slide Imaging (WSI) has been touted by many as the future of pathology, with estimates of full adoption occurring sometime in the next 5 to 15 years. While WSI devices have become increasingly capable since their inception, there has been little consideration of how WSI will be implemented and subsequently affect the workflow of high volume histology laboratories. Methods: Histology workflow process data was collected from a high-volume histology laboratory (Massachusetts General Hospital) and a process model developed using business process management software. Computerized workflow simulations were performed and total histology process time evaluated under a number of different WSI conditions. Results: Total histology process time increased approximately 10-fold to 20-fold over baseline with the presence of one WSI robot in the histology workflow. Depending on the specifications of the WSI robot, anywhere from 9 to 14 WSI robots were required within the histology workflow to minimize the effects of WSI. Conclusion: Placing a WSI robot into the current workflow of a high-volume histology laboratory with the intent of full adoption is not feasible. Implementing WSI without making significant changes to the current workflow of the histology laboratory would prove to be both disruptive and costly to surgical pathology.

Published

2011

39. Clinical fellowship training in pathology informatics: A program description

Author

David S. McClintock, Roy E Lee, John R. Gilbertson, Frank C. Kuo, David C. Wilbur, Long P. Le, Stephen Black-Schaffer, Tom M Gudewicz, Bruce A. Beckwith, Victor Brodsky, Maristela L. Onozato, Ji Yeon Kim, Yukako Yagi, and Anand S. Dighe

Subjects

Pathology, medicine.medical_specialty, Computer science, Health Informatics, pathology informatics teaching, Subspecialty, lcsh:Computer applications to medicine. Medical informatics, Health informatics, Pathology and Forensic Medicine, Terminology, Project charter, White paper, Pathology informatics fellowship, clinical informatics, medicine, lcsh:Pathology, Core Knowledge, Medical education, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, Computer Science Applications, clinical informatics fellowship, Informatics, clinical informatics teaching, pathology informatics, lcsh:R858-859.7, Original Article, Board certification, business, lcsh:RB1-214

Abstract

Background: In 2007, our healthcare system established a clinical fellowship program in pathology informatics. In 2011, the program benchmarked its structure and operations against a 2009 white paper "Program requirements for fellowship education in the subspecialty of clinical informatics," endorsed by the Board of the American Medical Informatics Association (AMIA) that described a proposal for a general clinical informatics fellowship program. Methods: A group of program faculty members and fellows compared each of the proposed requirements in the white paper with the fellowship program′s written charter and operations. The majority of white paper proposals aligned closely with the rules and activities in our program and comparison was straightforward. In some proposals, however, differences in terminology, approach, and philosophy made comparison less direct, and in those cases, the thinking of the group was recorded. After the initial evaluation, the remainder of the faculty reviewed the results and any disagreements were resolved. Results: The most important finding of the study was how closely the white paper proposals for a general clinical informatics fellowship program aligned with the reality of our existing pathology informatics fellowship. The program charter and operations of the program were judged to be concordant with the great majority of specific white paper proposals. However, there were some areas of discrepancy and the reasons for the discrepancies are discussed in the manuscript. Conclusions: After the comparison, we conclude that the existing pathology informatics fellowship could easily meet all substantive proposals put forth in the 2009 clinical informatics program requirements white paper. There was also agreement on a number of philosophical issues, such as the advantages of multiple fellows, the need for core knowledge and skill sets, and the need to maintain clinical skills during informatics training. However, there were other issues, such as a requirement for a 2-year fellowship and for informatics fellowships to be done after primary board certification, that pathology should consider carefully as it moves toward a subspecialty status and board certification.

Published

2011

40. Computer aided diagnostic tools aim to empower rather than replace pathologists: Lessons learned from computational chess

Author

James Monaco, Anant Madabhushi, Mehmet Toner, Jason D. Hipp, Jerome Cheng, Stephen M. Hewitt, John R. Gilbertson, Ronald G. Tompkins, David R. Lucas, Jaime Rodriguez-Canales, Michael C Dugan, Yukako Yagi, Thomas J. Flotte, Michael R. Emmert-Buck, and Ulysses J. Balis

Subjects

0303 health sciences, Computer science, Health Informatics, lcsh:Computer applications to medicine. Medical informatics, Diagnostic tools, Data science, Computer Science Applications, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Editorial, 030220 oncology & carcinogenesis, lcsh:Pathology, Computer-aided, lcsh:R858-859.7, lcsh:RB1-214, 030304 developmental biology

Published

2011

41. Developments in tissue banking for the postgenome era

Author

Michael J. Becich, John R. Gilbertson, and Rajiv Dhir

Subjects

Financial system, Business, Anatomy, Tissue Banking, Pathology and Forensic Medicine

Published

2001

42. Anatomic Pathology Laboratory Information Systems

Author

Gross W, Michael J. Becich, Anil V. Parwani, Eric Schubert, and John R. Gilbertson

Subjects

medicine.medical_specialty, Computer science, medicine, Information system, Anatomical pathology, Medical physics

Published

2009

43. Contributors

Author

Charles A. Amezcua, Mahul B. Amin, Daniel A. Arber, Sylvia L. Asa, James B. Atkinson, Paul L. Auclair, Michael J. Becich, David G. Bostwick, Thomas W. Bouldin, Allen Burke, R. Tucker Burks, Norman J. Carr, John K.C. Chan, Karen L. Chang, Liang Cheng, Richard J. Cote, Antonio L. Cubilla, David J. Dabbs, Stephen J. DeArmond, John N. Eble, Gary L. Ellis, Robert A. Erlandson, Juan C. Felix, Wendy L. Frankel, Noriyoshi Fukushima, David A. Gaskin, John R. Gilbertson, William C. Gross, Farnaz Hasteh, Debra Hawes, David R. Hinton, Ralph H. Hruban, Mahlon D. Johnson, Cynthia G. Kaplan, Michael N. Koss, Michael Kyriakos, Sean K. Lau, David Lewin, Klaus J. Lewin, Grace Lin, Kurt Matthews, Isabelle Meiers, Martin C. Mihm, Anirban P. Mitra, Cesar A. Moran, Christopher A. Moskaluk, Lucien E. Nochomovitz, David A. Owen, Anil V. Parwani, Zdena Pavlova, Michael Peterson, Robert E. Petras, José Antonio Plaza, Victor G. Prieto, Mahendra Ranchod, Narsing A. Rao, Joseph A. Regezi, Mary Richardson, Robert R. Rickert, William B. Ross, Sharda G. Sabnis, Eric Schubert, Shan-Rong Shi, Jeffrey P. Simko, Leslie H. Sobin, Somsiri Sukavatcharin, Saul Suster, Pheroze Tamboli, Clive R. Taylor, Lester D.R. Thompson, Satish K. Tickoo, Thomas A. Tousseyn, David B. Troxel, Loretta L.Y. Tse, Renu Virmani, M. Kay Washington, Noel Weidner, Lawrence M. Weiss, Bruce M. Wenig, William O. Whetsell, Sharon P. Wilczynski, Robb E. Wilentz, Tai-Yuen Wong, and Thomas C. Wright

Published

2009

44. A relationship between slide quality and image quality in whole slide imaging (WSI)

Author

John R. Gilbertson and Yukako Yagi

Subjects

Pathology, medicine.medical_specialty, Histology, business.industry, Image quality, media_common.quotation_subject, Direct control, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, General Medicine, Pathology and Forensic Medicine, Tissue sections, Proceedings, Consistency (statistics), medicine, lcsh:Pathology, Quality (business), business, media_common, lcsh:RB1-214

Abstract

This study examined the effect of tissue section thickness and consistency – parameters outside the direct control of the imaging devices themselves – on WSI capture speed and image quality. Preliminary data indicates that thinner, more consistent tissue sectioning (such as those produced by automated tissue sectioning robots) result in significantly faster WSI capture times and better image quality. A variety of tissue types (including human breast, mouse embryo, mouse brain, etc.) were sectioned using an (AS-200) Automated Tissue Sectioning System (Kurabo Industries, Osaka Japan) at thicknesses from 2 – 9 μm (at one μm intervals) and stained with H&E by a standard method. The resulting slides were imaged with 5 different WSI devices (ScanScope CS, Aperio, CA, iScan, BioImagene, CA, DX40, DMetrix, AZ, NanoZoomer, Hamamatsu Photonics K.K., Japan, Mirax Scan, Carl Zeiss Inc., Germany) with sampling periods of 0.43 – 0.69 μm/pixel. Slides with different tissue thicknesses were compared for image quality, appropriate number of focus points, and overall scanning speed. Thinner sections (ie 3 μm sections versus 7 μm) required significantly fewer focus points and had significantly lower (10–15%) capture times. Improvement was seen with all devices and tissues tested. Furthermore, a panel of experienced pathologist judged image quality to be significantly better (for example, with better apparent resolution of nucleoli) with the thinner sections. Automated tissue sectioning is a very new technology; however, the AS-200 seems to be able to produce thinner, more consistent, flatter sections than manual methods at reasonably high throughput. The resulting tissue sections seem to be easier for a WSI system's focusing systems to deal with (compared to manually cut slides). Teaming an automated tissue-sectioning device with a WSI device shows promise in producing faster WSI throughput with better image quality.

Published

2008

45. Addressing Data Quality: A Necessary Step in Unlocking Anatomic Pathology Data for Complex Analytics and Computational Pathology

Author

James Floyd, Veronica E. Klepeis, Megan Monroe, Christopher A Garcia, Hui Su, and John R. Gilbertson

Subjects

Pathology, medicine.medical_specialty, Computational pathology, Analytics, business.industry, Computer science, Data quality, medicine, Anatomical pathology, General Medicine, business, Data science

Published

2015

46. Importance of Data Quality Improvement and Assessment in Anatomic Pathology

Author

Veronica E. Klepeis, Chris Garcia, and John R. Gilbertson

Subjects

medicine.medical_specialty, business.industry, Data quality, Medicine, Anatomical pathology, Medical physics, General Medicine, business

Published

2015

47. Prediction of primary breast cancer size and T-stage using micro-computed tomography in lumpectomy specimens

Author

Barbara L. Smith, Rong Tang, Michele A. Gadd, Alan Zambeli-Ljepovic, Leopoldo Fernandez, Maya Lewin-Berlin, Molly Griffin, Yukako Yagi, WafaM Sarraj, John R. Gilbertson, Kevin S. Hughes, Elena F. Brachtel, Anas L Najjar, Michael Senter-Zapata, Amy Ly, Owen Aftreth, Anthony H. Bui, Juliette Buckley, and JamesS Michaelson

Subjects

medicine.medical_specialty, Breast imaging, medicine.medical_treatment, gross pathology, Health Informatics, lcsh:Computer applications to medicine. Medical informatics, Breast cancer, breast imaging, gross pathology, micro-computed tomography, tumor size, Pathology and Forensic Medicine, Gross examination, Breast cancer, medicine, lcsh:Pathology, Stage (cooking), micro-computed tomography, business.industry, breast imaging, tumor size, Lumpectomy, medicine.disease, Computer Science Applications, Surgery, Tumor Size Measurement, Invasive lobular carcinoma, lcsh:R858-859.7, Histopathology, Original Article, Nuclear medicine, business, lcsh:RB1-214

Abstract

Background: Histopathology is the only accepted method to measure and stage the breast tumor size. However, there is a need to find another method to measure and stage the tumor size when the pathological assessment is not available. Micro-computed tomography. (micro-CT) has the ability to measure tumor in three dimensions in an intact lumpectomy specimen. In this study, we aimed to determine the accuracy of micro-CT to measure and stage the primary tumor size in breast lumpectomy specimens, as compared to the histopathology. Materials and Methods: Seventy-two women who underwent lumpectomy surgery at the Massachusetts General Hospital Department of Surgery from June 2011 to September 2011, and from August 2013 to December 2013 participated in this study. The lumpectomy specimens were scanned using micro-CT followed by routine pathological processing. The maximum dimension of the invasive breast tumor was obtained from the micro-CT image and was compared to the corresponding pathology report for each subject. Results: The invasive tumor size measurement by micro-CT was underestimated in 24. cases. (33%), overestimated in 37. cases. (51%), and matched it exactly in 11. cases. (15%) compared to the histopathology measurement for all the cases. However, micro-CT T.stage classification differed from histopathology in only 11. (15.2%) with 6. cases. (8.3%) classified as a higher stage by micro-CT, and 5. cases. (6.9%) classified as lower compared to histopathology. In addition, micro-CT demonstrated a statically significant strong agreement (κ =0.6, P < 0.05) with pathological tumor size and staging for invasive ductal carcinoma. (IDC) group. In contrast, there was no agreement. (κ = .2, P = 0.67) between micro-CT and pathology in estimating and staging tumor size for invasive lobular carcinoma. (ILC) group. This could be explained by a small sample size. (7) for ILC group. Conclusions: Micro-CT is a promising modality for measuring and staging the IDC.

Published

2015

48. Content-based image retrieval of digitized histopathology in boosted spectrally embedded spaces

Author

Christopher A Garcia, Jason M Baron, Bruce A Beckwith, Victor Brodsky, Anand S Dighe, Thomas M Gudewicz, Ji Yeon Kim, Veronica E Klepeis, William J Lane, Roy E Lee, Bruce P Levy, Michael A Mahowald, Diana Mandelker, David S McClintock, Andrew M Quinn, Luigi K Rao, Gregory M Riedlinger, Joseph Rudolf, and John R Gilbertson

Subjects

lcsh:Pathology, Commentary, lcsh:R858-859.7, Health Informatics, lcsh:Computer applications to medicine. Medical informatics, lcsh:RB1-214, Computer Science Applications, Pathology and Forensic Medicine

Published

2015

49. In vitro transcription amplification and labeling methods contribute to the variability of gene expression profiling with DNA microarrays

Author

Wenjing Liang, Michael J. Becich, William A. LaFramboise, Maureen A. Lyons-Weiler, Changqing Ma, Federico A. Monzon, and John R. Gilbertson

Subjects

Messenger RNA, Transcription, Genetic, Gene Expression Profiling, RNA, Genetic Variation, Reproducibility of Results, Biology, Molecular biology, Pathology and Forensic Medicine, RNA, Complementary, Gene expression profiling, Transcription (biology), Genetic variation, Gene expression, Molecular Medicine, Humans, RNA, Messenger, DNA microarray, Gene, Oligonucleotide Array Sequence Analysis, Regular Articles

Abstract

The effect of different amplification and labeling methods on DNA microarray expression results has not been previously delineated. To analyze the variation associated with widely accepted T7-based RNA amplification and labeling methods, aliquots of the Stratagene Human Universal Reference RNA were labeled using three eukaryotic target preparation methods followed by uniform replicate array hybridization (Affymetrix U95Av2). Method-dependent variability was observed in the yield and size distribution of labeled products, as well as in the gene expression results. A significant increase in short transcripts, when compared to unamplified mRNA, was observed in methods with long in vitro transcription reactions. Intramethod reproducibility showed correlation coefficients >0.99, whereas intermethod comparisons showed coefficients ranging from 0.94 to 0.98 and a nearly twofold increase in coefficient of variation. Fold amplification for each method positively correlated with the number of genes present. Our experiments uncovered two factors that introduced significant bias in gene expression data: the number of labeled nucleotides, which introduces sequence-dependent bias, and the length of the in vitro transcription reaction, which introduces transcript size-dependent bias. This study provides evidence that variability in expression data may be caused, in part, by differences in amplification and labeling protocols.

Published

2006

50. Database construction for improving patient safety by examining pathology errors

Author

John R. Gilbertson, Dana M. Grzybicki, Stephen S. Raab, Michael J. Becich, Dilip Gupta, and Brian D. Turcsanyi

Subjects

Quality Control, Pathology, medicine.medical_specialty, Safety Management, Databases, Factual, Medical Records Systems, Computerized, Patients, Quality Assurance, Health Care, business.industry, Pathology, Surgical, Psychological intervention, MEDLINE, Workload, General Medicine, Patient safety, Component (UML), Information system, Medicine, Humans, Electronic data, Public Health, Diagnostic Errors, business, Quality assurance

Abstract

A critical component of improving patient safety is reducing medical errors. "Improving Patient Safety by Examining Pathology Errors" is a project designed to collect data about and analyze diagnostic errors voluntarily reported by 4 academic anatomic pathology laboratories and to develop and implement interventions to reduce errors and improve patient outcomes. The study database is Web-mediated and Oracle-based, and it houses de-identified error data detected by cytologic-histologic correlation and interdepartmental conference review. We describe the basic design of the database with a focus on challenges faced as a consequence of the absence of standardized and detailed laboratory workload and quality assurance data sets in widely used laboratory information systems and the lack of efficient and comprehensive electronic de-identification of unlinked institutional laboratory information systems and clinical data. Development of these electronic data abstraction capabilities is critical for efforts to improve patient safety through the examination of pathology diagnostic errors.

Published

2005