Canis simensis: Information
- Subject:
- Life Science
- Zoology
- Material Type:
- Reading
- Provider:
- University of Michigan Museum of Zoology
- Provider Set:
- Animal Diversity Web
- Author:
- Andrew Bunker (author), University of Michigan
- Date Added:
- 08/09/1999
Canis simensis: Information
Cardiovascular Pathophysiology for Pre-Clinical Students is an undergraduate medical-level resource for foundational knowledge of common cardiovascular diseases, disorders and pathologies. This text is designed for a course pre-clinical undergraduate medical curriculum and it is aligned to USMLE(r) (United States Medical Licensing Examination) content guidelines. The text is meant to provide the essential information from these content areas in a concise format that would allow learner preparation to engage in an active classroom. Clinical correlates and additional application of content is intended to be provided in the classroom experience. The text assumes that the students will have an understanding of basic cardiovascular physiology that will be helpful to understand the content presented here. This resource should be assistive to the learner later in medical school and for exam preparation given the material is presented in a succinct manner, with a focus on high-yield concepts.
The 70-page text was created specifically for use by pre-clinical students at Virginia Tech Carilion School of Medicine and was based on faculty experience and peer review to guide development and hone important topics.
Available Formats
ISBN 978-1-957213-02-6 (PDF)
ISBN 978-1-957213-03-3 (ePub)
ISBN 978-1-957213-04-0 (print) https://www.amazon.com/Cardiovascular-Pathophysiology-Pre-Clinical-Students-Andrew/dp/1957213043
ISBN 978-1-957213-01-9 (Pressbooks)
https://pressbooks.lib.vt.edu/cardiovascularpathophysiology
Also available via LibreTexts: https://med.libretexts.org/@go/page/34347
How to Adopt this Book
Instructors reviewing, adopting, or adapting parts or the whole of the text are requested to register their interest at: https://bit.ly/interest-preclinical.
Instructors and subject matter experts interested in and sharing their original course materials relevant to pre-clinical education are requested to join the instructor portal at https://www.oercommons.org/groups/pre-clinical-resources/10133.
Features of this Book
1. Detailed learning objectives are provided at the beginning of each chapter;
2. High resolution, color contrasting figures illustrate concepts, relationships, and processes throughout;
3. Subsection summary tables
4. End of chapter lists provide additional sources of information; and
5. Accessibility features including structured heads and alternative-text provide access for readers accessing the work via a screen-reader.
Table of Contents
1. Arrhythmias
2. Heart Failure
3. Hypertension
4. Valvular Disease
5. Heart Sounds and Murmurs
6. Congenital Heart Disease
7. Ischemic Heart Disease
Suggested Citation
Binks, Andrew., (2022). Cardiovascular Pathophysiology for Pre-Clinical Students, Roanoke: Virginia Tech Carilion School of Medicine. https://doi.org/10.21061/cardiovascularpathophysiology. Licensed with CC BY NC-SA 4.0.
About the Author
Dr. Andrew Binks is a cardiopulmonary physiologist who gained his BSc (Hons) in Physiological Sciences at the University of Newcastle upon Tyne, then a MSc in Human and Applied Physiology from King’s College, London. He returned to Newcastle to do his PhD and study the underlying physiological mechanisms of dyspnea, the cardinal symptom of cardiopulmonary disease. He continued investigating dyspnea at Harvard School of Public Health as a postdoctoral fellow and then as a research scientist. After seven years at Harvard, Andrew took his first faculty position at the University of New England where he taught cardiovascular and pulmonary physiology to health profession and medical students. He continued to teach medical students their heart and lung physiology after moving to the University of South Carolina’s Medical School in Greenville where he also directed the school’s heart and lung pathophysiology courses. Andrew currently teaches heart and lung physiology and pathophysiology at Virginia Tech Carilion School of Medicine, directs the heart and lung pathophysiology course and has also served as the departmental director of faculty development.
In his two decades of teaching medical physiology, Andrew has regularly drawn upon his dyspnea research experience to generate an active, clinically focused approach to medical education. This book is part of that approach and supports students preparing for class with the basic information with the intention to apply and contextualize that information in a guided case-based classroom experience.
Andrew has published numerous peer-reviewed research papers and book chapters about dyspnea and about contemporary medical education. He has also given keynote presentations, faculty workshops and international webinars to promote effective medical education for the modern adult learner.
Accessibility Note
The University Libraries at Virginia Tech and Virginia Tech Publishing are committed to making its publications accessible in accordance with the Americans with Disabilities Act of 1990. The HTML (Pressbooks) and ePub versions of this book utilize header structures and include alternative text which allow for machine-readability.
Please report any errors at https://bit.ly/feedback-preclinical
A two-day introduction to modern evidence-based teaching practices, built and maintained by the Carpentry community.
This new annotated guide (part of a series devoted to resources for enjoying or teaching astronomy) features over 250 pieces of music inspired by serious astronomy, including both classical and popular music examples. YouTube links are given for the vast majority, so you (or your students) can listen to them.
Among the pieces included is:
1) a Hubble Space Telescope cantata,
2) eight rock songs about black holes with reasonable science,
3) a supernova piano sonata,
4) a musical exploration of the Messier catalog of nebulae, clusters, and galaxies,
5) a moving song about Stephen Hawking,
6) Moon songs by the Grateful Dead, George Harrison, and the Police,
7) piano pieces “for children with small hands” named after the constellations,
8) operas about Galileo, Kepler, and Einstein,
and many more.
New materials for a course on Categorical Data Analysis using Stata statistical software.
A quick check list to give to student videographers ome basic rules of filming, particularly when using a cell phone video camera.
Students become familiar with the engineering design process as they design, build and test chair prototypes. The miniature chairs must be sturdy and functional enough to hold a wooden, hinged artist model or a floppy stuffed animal. They use their prototypes to assess design strengths and weaknesses.
Chemistry is designed to meet the scope and sequence requirements of the two-semester general chemistry course. The textbook provides an important opportunity for students to learn the core concepts of chemistry and understand how those concepts apply to their lives and the world around them. The book also includes a number of innovative features, including interactive exercises and real-world applications, designed to enhance student learning.
Chemistry: Atoms First is a peer-reviewed, openly licensed introductory textbook produced through a collaborative publishing partnership between OpenStax and the University of Connecticut and UConn Undergraduate Student Government Association.
This title is an adaptation of the OpenStax Chemistry text and covers scope and sequence requirements of the two-semester general chemistry course. Reordered to fit an atoms first approach, this title introduces atomic and molecular structure much earlier than the traditional approach, delaying the introduction of more abstract material so students have time to acclimate to the study of chemistry. Chemistry: Atoms First also provides a basis for understanding the application of quantitative principles to the chemistry that underlies the entire course.
This is a 9-day hands-on workshop about collaboration, design, and electronics prototyping. No previous experience with computer programming or electronics is required. Beginning students will be taught everything they need to know and advanced students will be challenged to learn new skills. Participants will learn about microcontroller programming using Arduino, collaborative software development using GitHub, solderless electronics prototyping, electronic sensors, rapid prototyping, and small team management.
This course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month.
Common Sense Education provides users with a great amount of resources for students, teachers and parents on a wide range of topics related to safe and responsible use of the Internet. The topics include digital citizenship, educational technology reviews and strategies, and professional development for educators.
This site also has a great number of videos, guides and activities that help explain difficult topics in a simple and accessible way.
This course covers the analytical, graphical, and numerical methods supporting the analysis and design of integrated biological systems. Topics include modularity and abstraction in biological systems, mathematical encoding of detailed physical problems, numerical methods for solving the dynamics of continuous and discrete chemical systems, statistics and probability in dynamic systems, applied local and global optimization, simple feedback and control analysis, statistics and probability in pattern recognition.
An official course Web site and Wiki is maintained on OpenWetWare: 20.181 Computation for Biological Engineers.
Instructions for building and utilizing an origami tetrahedron in order to better understand the rotational symmetry group of a tetrahedron in abstract algebra.
This simulation shows the difference between Constant Velocity vs. Constant Acceleration هذه المحاكاة تبين الفرق بين السرعه الثابته والتسارع المستمر في الفيزياء
The simulation shows five different motions in which objects experience constant acceleration, starting from rest. Although each motion is different, the underlying physics is the same. What features of the simulation reinforce the idea that the physics is the same?
This is a full length monograph aimed at helping libraries, archives, and museums navigate copyright law involving digitization. In the course of the book, though, the authors helpfully unpack many areas of copyright law including Section 108 of the Copyright Act, Fair Use, Licensing, and Risk Management. It is a great primer on copyright law and includes many helpful key points, flowcharts and timelines.
A classroom activity used to help students make decisions about Corporate Social Responsibility based on Bear (2017).Full information with teaching noteshttps://doi.org/10.1177/2379298116685671Sway page (interactive page)https://sway.office.com/Rof0r4itGY7ebGrPVideohttps://vimeo.com/455202809
Corpus Linguistics: Method, theory and practice is a new textbook introducing corpus linguistics, published by Cambridge University Press, and written by Tony McEnery and Andrew Hardie.
CMS.611J / 6.073 Creating Video Games is a class that introduces students to the complexities of working in small, multidisciplinary teams to develop video games. Students will learn creative design and production methods, working together in small teams to design, develop, and thoroughly test their own original digital games. Design iteration across all aspects of video game development (game design, audio design, visual aesthetics, fiction and programming) will be stressed. Students will also be required to focus test their games, and will need to support and challenge their game design decisions with appropriate focus testing and data analysis.
MHCC - WR122
Short Description:
Using a combination of the newest findings in hemispheric science, neuropsychology, and brain development, along with the long-established rhetorical algorithms for analyzing the structure of arguments, this course explores the boundaries of critical and creative thinking in pursuit of developing a clearer and more robust model for the construction and deconstruction of various forms of argument. A variety of "texts" are used to help students develop rhetorical analysis skills, critical thinking tools and a diverse, integrative apparatus for establishing the veracity of truth claims in both academic and cultural contexts.
Long Description:
This project was funded by the MHCC Foundation OER Grant Program and published by MHCC Library Press. MARC record available at the end of the book.
Word Count: 10313
(Note: This resource's metadata has been created automatically as part of a bulk import process by reformatting and/or combining the information that the author initially provided. As a result, there may be errors in formatting.)