Your search keyword '"Veronica E. Klepeis"' showing total 12 results

1. Pyelonephritis is an Underrecognized Cause of CKD in Patients With Orthotopic Ileal Neobladder Substitution

Author

Qiyu Wang, Rituvanthikaa Seethapathy, Tianqi Ouyang, Ian A. Strohbehn, Nurit Katz-Agranov, Paul Hanna, Mohit Madken, Harish Seethapathy, Shruti Gupta, Howard M. Heller, Matthew Wszolek, David Steele, Veronica E. Klepeis, Helmut Rennke, and Meghan E. Sise

Subjects

asymptomatic bacteriuria, bladder cancer, chronic kidney disease, ileal neobladder, pyelonephritis, urinary diversion, Diseases of the genitourinary system. Urology, RC870-923

Published

2023

2. Resilience of melanoma diagnostics at a tertiary-care hospital during the SARS-CoV-2 pandemic

Author

Soma Jobbagy, MD, PhD, Kristine M. Chaudet, MD, Matthew Gayhart, MD, Veronica E. Klepeis, MD, PhD, Genevieve Boland, MD, PhD, Hensin Tsao, MD, PhD, and Lyn M. Duncan, MD

Subjects

Breslow, COVID-19, melanoma, pandemic, SARS-CoV-2, Dermatology, RL1-803

Published

2022

3. A Role of Three-Dimensional (3D)-Reconstruction in the Classification of Lung Adenocarcinoma

Author

Maristela L. Onozato, Veronica E. Klepeis, Yukako Yagi, and Mari Mino-Kenudson

Subjects

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

Abstract

Background: Three-dimensional (3D)-reconstruction from paraffin embedded sections has been considered laborious and time-consuming. However, the high-resolution images of large object areas and different fields of view obtained by 3D-reconstruction make one wonder whether it can add a new insight into lung adenocarcinoma, the most frequent histology type of lung cancer characterized by its morphological heterogeneity.

Published

2012

4. Environmental components and methods for engaging pathology residents in informatics training

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

Computer applications to medicine. Medical informatics, R858-859.7, Pathology, RB1-214

Published

2015

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

Author

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

Subjects

Clinical decision support, genomics, interpretive reporting, machine learning, test utilization, Computer applications to medicine. Medical informatics, R858-859.7, Pathology, 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

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

Author

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

Subjects

Clinical informatics curriculum, clinical informatics teaching, pathology informatics, pathology informatics curriculum, pathology informatics teaching, Computer applications to medicine. Medical informatics, R858-859.7, Pathology, 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

7. Pathology informatics fellowship training: Focus on molecular pathology

Author

Diana Mandelker, Roy E Lee, Mia Y Platt, Gregory Riedlinger, Andrew Quinn, Luigi K. F. Rao, Veronica E Klepeis, Michael Mahowald, William J Lane, Bruce A Beckwith, Jason M Baron, David S McClintock, Frank C Kuo, Matthew S Lebo, and John R Gilbertson

Subjects

Clinical informatics, informatics fellowship training, molecular pathology informatics, molecular pathology training, molecular pathology, pathology informatics fellowship, pathology informatics training, pathology informatics, Computer applications to medicine. Medical informatics, R858-859.7, Pathology, RB1-214

Abstract

Background: Pathology informatics is both emerging as a distinct subspecialty and simultaneously becoming deeply integrated within the breadth of pathology practice. As specialists, pathology informaticians need a broad skill set, including aptitude with information fundamentals, information systems, workflow and process, and governance and management. Currently, many of those seeking training in pathology informatics additionally choose training in a second subspecialty. Combining pathology informatics training with molecular pathology is a natural extension, as molecular pathology is a subspecialty with high potential for application of modern biomedical informatics techniques. Methods and Results: Pathology informatics and molecular pathology fellows and faculty evaluated the current fellowship program′s core curriculum topics and subtopics for relevance to molecular pathology. By focusing on the overlap between the two disciplines, a structured curriculum consisting of didactics, operational rotations, and research projects was developed for those fellows interested in both pathology informatics and molecular pathology. Conclusions: The scope of molecular diagnostics is expanding dramatically as technology advances and our understanding of disease extends to the genetic level. Here, we highlight many of the informatics challenges facing molecular pathology today, and outline specific informatics principles necessary for the training of future molecular pathologists.

Published

2014

8. A core curriculum for clinical fellowship training in pathology informatics

Author

David S McClintock, Bruce P Levy, William J Lane, Roy E Lee, Jason M Baron, Veronica E Klepeis, Maristela L Onozato, JiYeon Kim, Anand S Dighe, Bruce A Beckwith, Frank Kuo, Stephen Black-Schaffer, and John R Gilbertson

Subjects

Clinical informatics curriculum, clinical informatics teaching, informatics core content, informatics curriculum, pathology informatics core content, pathology informatics curriculum, pathology informatics definition, pathology informatics fellowship, pathology informatics teaching, pathology informatics, Computer applications to medicine. Medical informatics, R858-859.7, Pathology, RB1-214

Abstract

Background: In 2007, our healthcare system established a clinical fellowship program in Pathology Informatics. In 2010 a core didactic course was implemented to supplement the fellowship research and operational rotations. In 2011, the course was enhanced by a formal, structured core curriculum and reading list. We present and discuss our rationale and development process for the Core Curriculum and the role it plays in our Pathology Informatics Fellowship Training Program. Materials and Methods: The Core Curriculum for Pathology Informatics was developed, and is maintained, through the combined efforts of our Pathology Informatics Fellows and Faculty. The curriculum was created with a three-tiered structure, consisting of divisions, topics, and subtopics. Primary (required) and suggested readings were selected for each subtopic in the curriculum and incorporated into a curated reading list, which is reviewed and maintained on a regular basis. Results: Our Core Curriculum is composed of four major divisions, 22 topics, and 92 subtopics that cover the wide breadth of Pathology Informatics. The four major divisions include: (1) Information Fundamentals, (2) Information Systems, (3) Workflow and Process, and (4) Governance and Management. A detailed, comprehensive reading list for the curriculum is presented in the Appendix to the manuscript and contains 570 total readings (current as of March 2012). Discussion: The adoption of a formal, core curriculum in a Pathology Informatics fellowship has significant impacts on both fellowship training and the general field of Pathology Informatics itself. For a fellowship, a core curriculum defines a basic, common scope of knowledge that the fellowship expects all of its graduates will know, while at the same time enhancing and broadening the traditional fellowship experience of research and operational rotations. For the field of Pathology Informatics itself, a core curriculum defines to the outside world, including departments, companies, and health systems considering hiring a pathology informatician, the core knowledge set expected of a person trained in the field and, more fundamentally, it helps to define the scope of the field within Pathology and healthcare in general.

Published

2012

9. Pathology informatics fellowship training: Focus on molecular pathology

Author

Bruce A. Beckwith, Jason M. Baron, Gilbertson, Andrew M. Quinn, David S. McClintock, Roy E Lee, Veronica E. Klepeis, Michael A. Mahowald, Frank C. Kuo, Platt My, Gregory Riedlinger, William J. Lane, Diana Mandelker, Matthew S. Lebo, and Luigi K. F. Rao

Subjects

Pathology, medicine.medical_specialty, education, informatics fellowship training, Health Informatics, Subspecialty, lcsh:Computer applications to medicine. Medical informatics, Health informatics, Pathology and Forensic Medicine, Health Administration Informatics, molecular pathology, medicine, ComputingMilieux_COMPUTERSANDEDUCATION, lcsh:Pathology, Translational research informatics, Curriculum, Molecular pathology, business.industry, molecular pathology training, Engineering informatics, molecular pathology informatics, Clinical informatics, Computer Science Applications, Informatics, Clinical informatics, informatics fellowship training, molecular pathology informatics, molecular pathology training, molecular pathology, pathology informatics fellowship, pathology informatics training, pathology informatics, pathology informatics, lcsh:R858-859.7, Original Article, business, pathology informatics training, pathology informatics fellowship, lcsh:RB1-214

Abstract

Background: Pathology informatics is both emerging as a distinct subspecialty and simultaneously becoming deeply integrated within the breadth of pathology practice. As specialists, pathology informaticians need a broad skill set, including aptitude with information fundamentals, information systems, workflow and process, and governance and management. Currently, many of those seeking training in pathology informatics additionally choose training in a second subspecialty. Combining pathology informatics training with molecular pathology is a natural extension, as molecular pathology is a subspecialty with high potential for application of modern biomedical informatics techniques. Methods and Results: Pathology informatics and molecular pathology fellows and faculty evaluated the current fellowship program's core curriculum topics and subtopics for relevance to molecular pathology. By focusing on the overlap between the two disciplines, a structured curriculum consisting of didactics, operational rotations, and research projects was developed for those fellows interested in both pathology informatics and molecular pathology. Conclusions: The scope of molecular diagnostics is expanding dramatically as technology advances and our understanding of disease extends to the genetic level. Here, we highlight many of the informatics challenges facing molecular pathology today, and outline specific informatics principles necessary for the training of future molecular pathologists.

Published

2014

10. P2Y receptors play a critical role in epithelial cell communication and migration.

Author

Veronica E. Klepeis, Ilene Weinger, Elzbieta Kaczmarek, and Vickery Trinkaus‐Randall

Published

2004

11. Tri-nucleotide receptors play a critical role in epithelial cell wound repair

Author

Veronica E. Klepeis, Vickery Trinkaus-Randall, and Ilene Weinger

Subjects

Integrin, migration, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Ca2+ imaging, wound repair, Epidermal growth factor, Homologous desensitization, medicine, Receptor, Molecular Biology, 030304 developmental biology, Corneal epithelium, 0303 health sciences, biology, business.industry, Cell migration, Cell Biology, Cell biology, medicine.anatomical_structure, epidermal growth factor, Immunology, biology.protein, Signal transduction, Wound healing, business, epithelium, 030217 neurology & neurosurgery

Abstract

The cornea plays a major role in the refraction of light to the retina. Therefore, the integrity and transparency of the corneal epithelium are critical to vision. Following injury, a combination of rapid signal transduction events and long-term cell migration are essential for wound closure. We have demonstrated previously that injury resulted in the release of nucleotides that induce the propagation of a Ca(2+) wave to neighboring cells. This suggests that nucleotides and their receptors are critical components of wound healing. Epidermal growth factor (EGF) and integrins also have been shown to play a role in injury. In this study, we demonstrate that pretreatment of cells with ATP and UTP inhibited the immediate wound response, while BzATP, ADP, and UDP did not affect this response. Tri-nucleotide pretreatment also reduced the EGF induced Ca(2+) response. Additionally, lower EC(50) concentrations of ATP and UTP triggered migration of cells that was enhanced further with EGF and was inhibited by the tripeptide, RGD. Results indicate that the desensitization induced by ATP and UTP was specific. While ADP and UDP cause a homologous desensitization of their own signal, they did not cause an inhibition of the wound response nor does BzATP. Neither Ca(2+) wave propagation nor cell migration occurred in response to beta,gamma-MeATP. Together these results lead us to hypothesize that corneal epithelial wound repair is mediated by both P2Y(2) and P2Y(4) receptors.

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

Author

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

Subjects

Clinical informatics training, clinical informatics, fellowship tracks, informatics fellowship training, informatics teaching, pathology informatics fellowship, pathology informatics training, pathology informatics, Computer applications to medicine. Medical informatics, R858-859.7, Pathology, 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