News from GRIPE

News from GRIPE
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  • 11/12/2019 9:00 AM | Anonymous

    Friday, January 24, 2020 - 3:15pm CST

    1. Call to Order
    2. Recognition of New members
    3. Approval of January 25, 2019 Minutes
    4. Report from the President: Amy Lin
    5. Report from Executive Director: Regina Kreisle
      Membership Model
      Budget Review
    6. Report from the Central Office: Julie Hewett
      Administrative Guide
    7. Report of Committees
      Resource Bank
      Trainee Involvement
      Strategic Planning
    8. New Business
      Bylaws changes
      Solicitation of volunteers for committees
    9. Announcement of 2021 meeting – TBD
    10. Adjourn

  • 12/26/2018 1:33 PM | Anonymous

    101 – An established Pediatric Pathology Rotation at El Paso Children’s Hospital helps boost medical student interest in Pathology
    Daniel Bustamante, Harry Wilson, and Osvaldo Padilla

    Purpose: El Paso Children’s Hospital opened in 2012 and serves the city as a freestanding children’s hospital.  The hospital has an academic and service relationship with Texas Tech School of Medicine acting as pediatric home base for medical students.  Pathology is integrated into the first and second year medical school curriculum by various modalities.  A formal pathology rotation is offered as a month-long elective experience during the third- and fourth years of medical school.  This rotation often is not managed in each medical students’ schedule. Medical students who find pathology to be a possible career choice are often not given the type of exposure that they need regarding the field of Pathology before a crucial time period when they decide which specialty to further pursue in their medical training.

    Methods: The week-long pediatric pathology elective was established during medical students’ third-year pediatric rotation. Such an elective provides a condensed exposure to pathology for medical students considering a career in pathology.  The first day of the elective is used to provide a broad overview of the field of pathology.  A presentation and related handouts introduce the medical student to pathology training program options and their relevant statistics including the location of national programs and the types of rotations and fellowships.  The students are introduced to the various processes utilized in the field of pathology including specimen collection, histologic processing, routine and special staining, cytology and blood smear preparations, flow cytometry, and various specialized procedures.  The remaining days focus on case evaluations, as the medical student is given a set of slides and paper based case information to be reviewed with the pathology attending later in the day.  Most cases reviewed are more prevalent within the pediatric population.  The elective concludes with an overall evaluation on the performance of the medical student with an invitation to return or contact the Pediatric Pathology staff if further interest in the field of Pathology remains.

    Results: Since the establishment of this shorter more flexible pathology elective, there has be an increasing steady set of rotating medical students.  Correspondingly, the recent medical school classes have experienced an increase in students electing to pursue a pathology training program. The feedback provided by the medical students has been consistently positive.  Comments often emphasize that the elective provides essential information regarding what is involved with being a pathologist and what challenges the pathologist experiences in everyday practice. Some students have stated that this short rotation has focused them to strongly consider pathology as a future career option.

    Conclusion: Medical student exposure to pathology often is underrepresented in current medical school curricula.  A unique week-long exposure in the field of Pediatric Pathology appears to allow medical students to explore this field in greater detail and to consider pathology for residency and a possible future career choice.  Those who ultimately choose another field of medical training reflect an appreciation for this exposure, integrating their knowledge and understanding of pathology into future rotations and medical practice.

    102 – Challenges and Strategies for General Pathology in an Integrated Curriculum in Brazil
    Giovana da Costa Sigrist and Luiz Fernando Ferraz da Silva
    University of Sao Paulo School of Medicine – Brazil

    INTRODUCTION AND PURPOSE: One of the major challenges in any integrated curriculum development is to combine classic department structure with the increasing demand of knowledge integration and contextualization. In 2015 USP Medical School (Sao Paulo – Brazil) launched a new integrated curriculum vanishing the departmental disciplines and adopting only supra-departmental ones such as the “Principles of Disease” for 1st year medical students, aiming to integrate Pathology, Immunology, Microbiology, Radiology and Molecular Biology. The challenge was, how to integrate and use different technologies in these areas, breaking resistances and increasing the faculty commitment without loosening the pathology identity.

    METHOD: To cope with this challenge, the coordination of the discipline planned four strategic approaches: (1) Detailed Goal Plan; (2) Integrated Case Discussions; (3) Mini Congress; (4) Integrated Evaluation

    The goal plan included 90 specific goals (administrative, technological, methodological and pedagogical): short-term – 1 year (38), middle term – 3 years (34) and long-term – 5 years (18). New goals are included based on yearly reports and students feedback.

    Introduction of Integrated Case Discussions: A Clinical case is discussed and followed by a detailed pathophysiological presentation (pathologists). During this discussion other faculty bring to attention specific view of basic areas (as microbiology, immunology, etc), concluding with an integrated discussion, so the pathology is main conducting line of the discussions.

    Mini-Congress: groups of 4 students prepared posters and oral presentations integrating basic aspects of a certain disease attributed to each group. The results were presented to faculty from different areas, in an integrated discussion.

    Integrated tests: All discipline tests were based on clinical / surgical common presentations including for each case, a group of integrated questions focusing on basic aspects.

    RESULTS: The Goal Plan worked above the expectations. All our short-term and 90% of all middle-term goals are complete. 55% of the long-term goals (due 2020) were already completed. More than 16 new goals were included in the last 3 years (8 already completed).

    During this period we expanded the amount of integrated activities from 3 to 17, reaching almost 40% off all course activities, and including several integrated strategies such as clinical based discussions, autopsy based integration, pathology-radiology correlation, clinical Grand Rounds and integrated evaluation.

    The Mini Congress is now considered one of the highlights of the course by both, students and faculty, promoting significant integration. The feedback on this activity also showed that students also understand the challenges and relevance of basic-clinical integration and contextualization.

    CONCLUSIONS: The Goal Plan proved to be a powerful tool to drive change in faculty, in a paced and reasonable way, breaking resistances to abrupt changes, allowing testing of different strategies, providing adaptation time and the implementation and maturation of key course transformation.

    The introduction of integrated activities and active methodology in traditional departmentalized structures, even in small amount or point activities may represent the seed of more powerful transformation as the faculty gets involved and convinced by the relevance of the strategies in learning process.

    103 – Computerized bone marrow report templates as a teaching and feedback tool in pathology residency training
    Teresa Scordino
    University of Oklahoma Health Sciences Center

    Purpose: Pathology residents must learn to generate concise, accurate pathology reports to prepare for independent practice. Residents are expected to preview slides and write preliminary reports before signing out cases with the attending pathologist. Bone marrow reports are particularly challenging for trainees to master given the number of elements that must be addressed to create a complete report. Here we describe the development of a computerized template with drop-down menus that help residents learn the appropriate reporting elements and use their limited preview time more efficiently.

    Methods: Web-based templates for peripheral blood smears and bone marrow specimens were coded using HTML5 and javascript. Node.js was used as the web server and calculations and Bootstrap 4.0 was used for user-interface styling. Knockout.js and were used for real-time information relays between user-interface and backend server. Temporary and long-term data is stored using MongoDB. The template can be used on any computer or tablet with a modern web browser. A pilot study was performed using three residents and one attending hematopathologist.

    Results: Use of the template reduced the time it took residents to complete a report, increasing the likelihood that the residents were able to generate completed reports to review with the attending pathologist, and giving the residents more time to read about cases prior to sign-out.  Use of the template also allowed the attending pathologist to give formative feedback on the resident’s completed report and make changes in real time with the assistance of the resident.

    Conclusions: Our preliminary experience suggests the templates allow residents to take more ownership of the bone marrow cases and feel more confident generating bone marrow reports.  Use of the template report also helped the attending pathologist identify potential knowledge gaps and give more directed feedback to the resident.

    104 – Generational Differences: Impact on Medical Education and Practice
    Barbara Russell
    Augusta University

    This will utilize case-based discussions, supported by relevant literature, to explore the generational differences that can be identified in the workforce and in medical education. Participants will first determine, through the examination of published generational characteristics, their own generational characteristics and those of their trainees.  Participants will discuss how these differences can lead to conflict in areas such as teacher/student expectations and effective communication during medical education. Of particular interest is the wide impact that digital media, technology and social media may have on clerkship and clinical practice across these groups.  With the use of vignettes and active audience participation, we will explore strategies and best practices that can be used by educators to identify and understand these generational differences.  Participants will be encouraged to share examples of their own interactions as well as their learnings.  We hope that as a group we leave the workshop with a toolbox of strategies that helps us understand and address this issue more effectively.

    Ritcha Saxena

    Pathology is evolving exponentially and continues to grow each year. The present-day pattern of pathology teaching involves pre-clinical training that is sometimes diverse from clinical realities. Today, the need is to modify the conventional methods, which are centered about ‘brain brimming’ and knowledge overflow with least attention to its retention and future application. Millennials, the tech-savvy learners with conversely, fairly short attention spans, respond extremely well to defined tasks and can demonstrate competencies required to complete such tasks, and competency based teaching, which revolves around relevance, is best suited for them. And here comes the role of the pathology educator, to teach the things that would truly enhance their competence and; implement competency-based teaching tools to train the students to deal with notional clinical scenarios like professionals.

    It is important for the pathology educator to appraise how the millennials can learn their maximum, what are the best digital tools and what are the best online resources. Pathophysiology concepts and morphology are extremely important; however, an educator must also focus on the learners gaining the ability to ask a definable question, search for relevant scientific data, read and critically assess the information using the principles of competency-based molecular pathology, and be able to transmute pathology concepts into clinical practice. In an era of precision medicine, molecular pathology is the new lynchpin of patient-centered medicine, and the learners must know its role not just in diagnosis, but also in disease prevention and management, which behooves the pathology educator to develop their competency to interpret the immunohistochemistry and biomarker testing results. It is important for every learner to attain a solid grasp on sensitivity and specificity of various laboratory tests and to develop the competency to choose the appropriate test and its interpretation to make the best decisions for patient care as future physicians.

    This highlights the idea of competency based pathology education in the current precision medicine setting and the way to smoothly transit from traditional knowledge-based lectures to competency-based pathology training. Also, by teaching competencies in pathology, the educator will be able to emboss for the student what actually pathology has to offer.

    106 – Pathology Teaching Within Physician Assistants, Podiatric Medicine, and Osteopathic Medical Curricula at Des Moines University
    Kevin Carnevale and Yujiang Fang

    Purpose – Pathology education is taught within undergraduate healthcare training programs such as Physician Assistant, Physical Therapy, Nursing, Podiatric Medicine, Osteopathic Medicine, and Allopathic Medical Schools. Students within the different healthcare training programs require different depth and breathe of pathology education within their individual curricula. Des Moines University (DMU) is a healthcare sciences university with pathology education offered to physician assistants, podiatric, and osteopathic medical students within a semi-integrated curriculum (traditional first year and systems based second year). We evaluate and compare the lecture hours and subjects taught in general and systemic pathology within the physician assistant, podiatric medicine, and osteopathic medical programs at DMU.

    Methods – Lecture hours in pathology subjects were counted and compared in general pathology and systems based courses at DMU for physician assistant, podiatric medicine, and the osteopathic medical curricula. Different subjects within different curricula taught by a pathologist were also evaluated. We compared the lecture hours in pathology teaching of DMU osteopathic curriculum to a traditional second year pathology curriculum at University of South Carolina School of Medicine (USCSOM – allopathic medical school with traditional curriculum).

    Results – The osteopathic and podiatric medical students take the same general pathology course within the spring semester of their first year, so the lecture hours are equivalent. The physician assistant students receive 25.7% (9hrs compared to 35hrs) of the lecture hours in general pathology compared to the osteopathic and podiatric medical students. The physician assistant students receive 60.5% (23hrs compared to 38hrs) of lecture hours in systemic pathology compared to the osteopathic and podiatric medical students. Even though the number of lecture hours (38hrs) are the same in systemic pathology for osteopathic and podiatric medical students, the podiatric medical students do not receive lectures in male and female genitourinary pathology, breast pathology, skin pathology, and laboratory medicine. The podiatric medical students do receive separate pathology lectures in surgical pathology, diabetic neuropathy, muscle/joint, bone healing and processing that are not given to osteopathic medical students. The osteopathic medical students received 70% (35hrs DMU compared to 50hrs USCSOM) of lecture hours in general pathology, and 30.2% (38hrs DMU compared to 126hrs USCSOM) of lecture hours in systemic pathology compared to the allopathic students respectively.

    Conclusion – Physician Assistant students receive the least amount of lecture hours in pathology education within the healthcare programs at DMU. Even though the lecture hours are the same within general and systemic pathology education between the podiatric curriculum and osteopathic curriculum, the subjects taught in pathology vary within these curricula. Lastly, the amount of pathology teaching for the osteopathic medical students in a semi-integrated curriculum at DMU is markedly less especially within systemic pathology compared to allopathic medical students within a year-long traditional second year pathology curriculum.

    107 – The Millennial View of Transfusion Medicine Instruction During Medical School
    Marisa Saint Saint Martin
    Loyola University Medical Center

    Purpose: The aim of our study is to determine how effective current educational practices are, and how pivotal introducing transfusion medicine and its practices early on, and throughout the 4 years of medical education, could potentially impact blood ordering confidence and practices among graduates.

    Traditionally, transfusion medicine education has been an under-emphasized discipline of course instruction in medical school education. In the current environment, striving for excellence in quality care and quality assurance, hospital systems have sought the expertise of the transfusion medicine sub-specialty to evaluate blood utilization and laboratory utilization within their systems.

    Methods: An interview of the 4th year medical student class of 2018 (160 students) at Loyola Stritch Medical School in Maywood, IL with the use of a Google Forms survey was conducted. The survey included questions about general transfusion medicine practices, length of transfusion medicine instruction, information about obtaining consents, recommendations on length and format of transfusion medicine instruction.

    Results: Of the 54 responses, (33.8% of students), 38 (70.4 %) stated that they do not feel comfortable adequately ordering blood products in their future residency career, and 16.7% (9/54) did not feel comfortable obtaining consent for transfusing blood products.

    At the Loyola Stritch School of Medicine, the pathology department assists in providing medical school instruction during their 1st and 2nd years of medical school. With that in mind, only 38.9% (21/54) felt that they received adequate instruction during their first two years in medical school.

    The class provided feedback for opportunities for improvement in transfusion medicine instruction which ranged from lecture format in the first two years to summary sheets to use while on rotations and their residency years.

    Conclusions: Overall, we believe, and our brief study demonstrates, that more hours of transfusion medicine education are needed in medical school. Providing continued assistance and education in transfusion medicine practices throughout medical school and residency training is not only preferred, but also could impact transfusion ordering practices providing better quality care to the patients we serve.

    108 – The Use of 3D Printers in Medical Education with a Focus on Bone Pathology
    Shayna Youman, Evan Dang, and Bonnie Brenseke
    Campbell University School of Osteopathic Medicine

    Purpose: The objectives of this study are to create models of benign and malignant bone tumors from CT scans and to assess the effectiveness of the use of such models in medical education.

    Method: CT scans of bone pathology were anonymized using 3D slicer software and imported into web-based Democritiz3d for conversion into 3D digital models for 3D printing. Pre-created digital models of tumors were also 3D printed. Randomized groups of medical students will be surveyed for their understanding of bone pathology with and without the use of the 3D printed models.

    Results: Printed models were able to imitate gross characteristics of the tumors. Impact on student education is still pending.

    Conclusion: 3D printing stylized models of bone tumors is a cost and time-effective means to improve medical student understanding of this pathology.

    109 – There is a smart way to teach Pathology: Using resources from BEST network to engage learners
    Mohit Shahi and Raja Koteeswaran
    School of Biomedical Sciences, The University of Queensland, Brisbane, Australia, Department of Pathology/Microbiology, Eastern Virginia Medical School

    A vast majority of medical students are either millennial or Gen Y learners who were raised in an entertainment rich, multi-media environment 1. They are technology savvy and like to be in control of their learning in terms of choice, pace, sequence and content 2. Millennial learners expect immediate feedback and meaningful assessments3. As educators, we face growing challenges with a new generation of students using technology that is constantly evolving 3. One of the technology tools that can benefit pathology educators is SLICE tool of BEST network.

    BEST (Biomedical Education Skills and Training) Network is a not-for-profit network of biomedical schools developing and sharing next-generation courseware and technology ( It was founded in 2014, as a joint venture of Australian Universities funded by an education grant from the Australian government. As of now, the BEST network has a bank of over 18,000 images with annotations and courseware shared by its members. The BEST network operates on an adaptive learning platform ( to design learning activities.

    The workshop speakers are from the University of Queensland (UQ) Faculty of Medicine, Australia and Eastern Virginia Medical School (EVMS), VA, who have used the resources from BEST network in their teaching. In this workshop, the speakers will share their experiences of how they used the high-resolution digital images from BEST network database SLICE ( to engage the students in labs tutorials, small groups or large classroom settings. They will demonstrate using examples, how to design lessons, gather analytics, and to give feedback with this technology tool. It can be applied broadly across disciplines such as histology, immunology, microbiology and benefit educators who are interested in promoting active learning.

    110 – GoPro videos in Case-Based Learning: Bringing the Clinical Cases to Life
    Fernando Bruno and Alex Braun
    Touro College of Osteopathic Medicine

    Purpose: Discussing clinical cases, especially as a small group activity, helps the medical students brainstorm the pathophysiology they have learned and apply it to a scenario that helps mature their critical thinking without putting a real patient at-risk. It enhances student learning, allowing early exposure to a structure resembling the morning rounds. Unfortunately, despite its benefits, written cases are often seen as unappealing by the students, who have grown used to the actor-based simulated scenarios seen in OSCE activities, leading to a reduced in-class interest and participation. We piloted the use of GoPro videos as a tool for simulated clinical cases and problem-solving activities to enhance students’ attention and engagement.

    Methods: A dramatization of two cases in a GoPro video format replaced the written case. Faculty created and provided a standardized patient script to the Teacher Assistants. For each case, a TA played the role of physician, having the camera attached to the forehead, while the other played the patient, providing a first-person-perspective of the doctor-patient interaction. A class of 135 medical students was separated into two groups that participated at different times in a pathology lab session. During each session, the students watched the videos and collected history, signs and symptoms necessary for a differential diagnosis and discussed pathology questions geared towards the case. Small-groups were given time to discuss the case, the questions and work on an assigned task. Furthermore, the faculty utilized a document with students’ responses to teach the class, while also inviting each group to provide feedback on their responses. A pathology quiz with 15 questions was given at the beginning and end of the session to assess students’ learning curve. A survey was later provided to collect feedback.

    Results: The videos allowed the students’ immersion to the scenario, while demonstrating patient’s behavior and nuances that would otherwise not be feasible through a written case. The small-groups effectively discussed the case, finalized the assigned tasks within the given time and partook in faculty-led discussion. A positive impact on quiz performance was seen on percentage of corrected responses from pre- to post-quiz (Group1: 44.52% to 94.58%; Group 2 58.80% to 99.86%). A total of 113 students answered the survey, with 82% agreeing to the statement “useful tool to make the lab be more interactive” (39% strongly agree; 43% agree; 8% neutral; 6% Disagree; 4% strongly disagree); 86% agreed “it helped bring the case to life” (38% strongly agree; 48% agree; 7% neutral; 3% Disagree; 6% strongly disagree); and 64% agreed “it facilitated my learning” (20% strongly agree; 44% agree; 21% neutral; 12% Disagree; 4% strongly disagree).

    Conclusion: Students’ survey showed that the method was well received by most of the class, who agreed that it made the session more interactive, brought the cases to life and facilitated their learning. The process had a positive impact on post-quiz performance, being interpreted as an effective teaching method. Further investigations are necessary with crossover design and control to the determine the superiority of this method compared to other modalities.

    111 – Dungeons and Dragons in the Pathology Lab: Increasing Strategic Thinking and Engagement Through Unfolding Cases
    Fernando Bruno and Alex Braun
    Touro College of Osteopathic Medicine

    Purpose: In the past decade, the focus of medical education has shifted, leaving behind an outdated cluster of memorized facts for an improved model based on clinical applications. This encouraged medical schools to adapt their curricula to accommodate new requirements for core competencies. Pre-clinical courses have followed suit, focusing more on how the initial basic science concepts translate into clinical practice. This provides the medical students with a clearer perspective of the topics’ relevance in their future careers. Here, we showcase a model with an incomplete scenario that unfolded based on students’ choices and served as a platform to develop strategic thinking and facilitate engagement and learning.

    Methods: A class of 135 medical students was separated into two groups that participated at different times in a pathology lab session. During each session, the students received an incomplete clinical case to be discussed as small-groups and asked to propose differential diagnosis. The faculty then led a discussion, debating their reasoning, after which a list of next steps was offered to the students to choose from. The list ranged from simpler options, such as further exploring patient’s history and physical exam, to more complex laboratorial testing, including biopsies, radiological testing and forensic examinations. Each small-group would then choose their preferred next course of action, as long as they debated their reasoning and expected findings with the faculty, who would further discuss how the initial differential diagnosis would evolve based on each new finding. The case would then unfold based on students’ choices. As it progressed, each finding served as a platform of discussion of pathological concepts and specimens. A pathology quiz with 15 questions was given at the beginning and end of the session to assess students’ learning curve.

    Results: Although the same concepts were discoursed with both classes, the order in which the case developed was a direct consequence of the student’s choices, determining the fate of the discussion and providing a uniqueness to each session. Students felt in control, more willing to participate and were highly engaged. Realizing the impact of their actions on the fictional patient, the students brainstormed strategies before any decision. The number of students involved with distractors, such as in-class use of social media, drastically reduced during these sessions. A positive impact on quiz performance was seen on percentage of correct responses from pre- to post-quiz (Group1: 75.61% to 97.96%; Group 2: 77.60% to 99.86%). At the end-of-course evaluation, although no specific question targeted this session, students provided a series of positive comments about it in the written qualitative evaluation, such as “increased engagement”, “enhanced productivity”, “facilitation of group activity”, “more helpful” and “entertaining”.

    Conclusion: End-of-course evaluation and student feedback suggest that the method was well received by many students, who agreed it made the session more interactive and increased engagement. The sessions’ design encouraged a more accountable decision-making process. The process had a positive impact on post-quiz performance, being interpreted as an effective teaching method. Further studies are necessary to verify superiority of this modality.

  • 12/12/2018 9:09 AM | Anonymous

    GRIPE 2019 Business Meeting Agenda

    Friday, January 25, 2019 - 3:15pm CST

    • Call to Order
    • Recognition of New members
    • Approval of January 26, 2018 Minutes
    • Report from the President: Geoffrey Talmon
    • Report from Executive Director: Regina Kreisle
      1. Membership Model
      2. Budget Review
    • Report from the Central Office: Julie Hewett
      1. Administrative Guide
    • Report of Committees
      1. Image Bank
      2. Question Bank
      3. Trainee Involvement
      4. Strategic Planning
      5. Program
      6. Membership
    • New Business
      1. Bylaws changes
        1. Adopting the Emerging Pathologist award
        2. Changing a quorum of executive committee from 4 to 3
        3. Combining question bank committee and image bank committee.
      2. Open position of Secretary
      3. Solicitation of volunteers for committees
    • Election of officers
    • Announcement of 2020 meeting – San Antonio, Texas
    • Adjourn


  • 12/10/2018 3:30 PM | Anonymous

    The Nominating Committee is pleased to present its slate of candidates for this year's election to the GRIPE Executive Committee.

    Although selection by the Nominating Committee is our formal system for identifying appropriate candidates, any GRIPE member in good standing may petition to have his/her name added to this ballot by the mechanism described in our bylaws under Article V. If you would like to submit your name for the ballot, please email that suggestion to

    Members of GRIPE are asked to review the candidates' qualifications listed below, and to thoughtfully consider the course each would take to achieve our Goals. Election of officers shall be conducted at the Annual Business Meeting 2019 and new officers shall take office as that annual meeting ends. The meeting will take place on Friday, January 25, 2019 at 3:15pm CST in New Orleans, LA, USA.

    Also note this is NOT the actual ballot.


    Officer: Secretary

    Raja Koteeswaran, MD, MBBS, MAcadMEd

    Officer: Vice President

    Osvaldo Padilla, MD, MPH

    Officer: President

    Amy Lin, MD

  • 05/06/2015 12:44 PM | Anonymous
    Dear Colleagues:

    Join us for the 2016 GRIPE Winter Meeting in San Diego, CA!

    San Diego Double Tree Golf Resort
    San Diego, California, USA
    Date: January 28-30, 2016

    For more information, please visit

    Thank you,
    GRIPE Admin Team

  • 04/29/2015 2:56 PM | Anonymous

    Dear Colleagues,

    Stay up to date with all of the latest GRIPE news and meeting updates by subscribing to GRIPE on social media!  GRIPE can be found on Facebook, Twitter, and LinkedIn. Please see details below!

    Thank you,

    GRIPE Admin Team

  • 04/08/2015 3:10 PM | Anonymous

    Dear GRIPE Members,

    The 2015 GRIPE Winter Meeting had some of the best participation for the photo contest to date. There were three individuals who submitted photos, and we are happy to congratulate Daniela Hermelin for winning the contest with the submission DH.Bladder.NE.HE.40x. If you would like to participate in the 2016 GRIPE Winter Meeting contest, keep your eyes peeled for email later this fall!

    Thank you,

    GRIPE Admin Team

  • 04/01/2015 3:06 PM | Anonymous

    Dear GRIPE members,

    The 2015 GRIPE Winter Meeting was a great success thanks to the speakers and the attendees who participated. In case you were unable to join us this year, we have updated the meeting website with some of the workshop presentations for your viewing. On the meeting website, simply view the agenda, and the sessions will be laid out by days. Some of the sessions will have a link saying “click here for the workshop presentation”. If you were unable to make it to this year’s meeting, we hope to see you next year in San Diego, CA.

  • 03/25/2015 4:29 PM | Anonymous

    In case you missed these announcements or updates over the past few weeks, here is a quick summary!

    GRIPE Conference Notes

    2015 Winter Meeting: The 2015 GRIPE Winter Meeting was a huge success in part to the dedicated members of GRIPE who attended. We will be posting the power point presentations to the website soon, so keep an eye out for those!

    Call for Volunteers: With the 2015 Winter Meeting finished, GRIPE is looking for able volunteers to serve on the 2016 program committee. If you are interested in assisting GRIPE with the next meeting in San Diego, CA, please contact Brandon Kounse

    GRIPE at IAMSE: If you plan on attending the 19th annual IAMSE meeting in San Diego, CA from June 13th – 16th, 2015, you will have the opportunity to network at the GRIPE breakfast on Monday, June 15th, 2015. We welcome all members who will be at IAMSE to share their GRIPE experiences with fellow IAMSE members!

    GRIPE Membership Notes

    Institutional Online Databank: GRIPE is eager to share its resources with those participating in an institutional membership. If your institution needs access to the databank, please contact for details.

    GRIPE Outreach

    • -          QuickPath to Boards: Have you joined QuickPath to Boards? QuickPath to Boards is a Facebook page for students to get help with questions about Pathology from faculty and other students.
    • -          GRIPE Facebook Page: Like GRIPE’s facebook page for information and discussion regarding GRIPE!
    GRIPE on Twitter: Follow GRIPE on Twitter for information and discussion related to GRIPE!

  • 03/11/2015 2:25 PM | Anonymous

    We like to share member resources with the GRIPE community. When an open position in pathology shows up, we like to advertise the position on behalf of our members. Here is a job posting from your fellow members from Mercer University.

    GRU- Medical College of Georgia

    Assistant /Associate Professor –Educator/Pathologist

    The Medical College of Georgia at Georgia Regents University, Department of Pathology is seeking faculty at the level of Assistant to Associate Professor to fill a position as an educator and attending pathologist in order to expand our teaching faculty. This position will advance the MCG UME mission both within the Department of Pathology and as part of interdisciplinary educational initiatives. We seek a creative, innovative educator who will contribute uniquely to the educational team at MCG. This position will have a partial assignment to the EII (Education Innovation Institute) and contribute to educational research, faculty development, or both. This position will have some interdisciplinary educational focus, and will contribute to small group teaching. Applicants will also have strong diagnostic/clinical skills for a part time appointment in the Sections of Anatomic or Clinical Pathology. The position carries significant responsibility dedicated to undergraduate medical education with a smaller component committed to practice of anatomic/clinical pathology. Doctoral Degree (MD or equivalent), Anatomic and/or Clinical Pathology Board certification, experience and commitment to teaching UME level pathology is required. Additional desirable skill sets include: Experience in undergraduate medical education, educational research, faculty development, curricular design, and assessment, use of educational technology and/or LCME Self Study and accreditation process.

    The Department of Pathology provides diagnostic clinical services to Health, a 438-bed adult hospital and the 127 bed Children's Hospital of Georgia. Applicants should have an MD degree or equivalent, and be board certified in Anatomic and/or Clinical Pathology. Georgia license or eligibility for licensure to practice medicine in Georgia is required.

    Salary will be based upon level of qualification, experience, and scholarly accomplishments. The institution offers a generous fringe benefit package and a productivity-based incentive plan. Augusta is a progressive, university town with Southern charm and great school districts; not to mention that it is the home of the PGA Masters National Golf Championship Tournament.

    External applicants should use the online application process found at referencing position # 00007183. You may also contact Debra Wright, Medical College of Georgia, BF104, 1120 15th Street, Augusta, GA 30912 or with any questions about the online application process. 

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