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Curriculum BuilderĬurriculum Builder is a great way to integrate your text with customized images from AIA for dynamic live lectures or for student lab activities. Clinical Animationsįeatures 28 professionally-produced animations covering topics related to physiology, disease and surgery. Clinical Illustrationsįeatures more than 3,000 illustrations for teaching and learning in a clinical context. Includes meticulously detailed full-color illustrations of body parts, organs, structures and systems complete with pinned structures for student identification. Structures can be identified through a secondary language English (undergraduate), French, German, Hungarian, Italian, Japanese (Kanji), Japanese (Yomi), Portuguese, Spanish, Swedish. The most comprehensive digital database of detailed anatomical images in the world, with the ability to identify over 20,000 anatomical structures from different body orientations (anterior, lateral, medial, posterior, lateral arm, medial arm). View Online Demo Resources common to both editions?īoth editions includes a new design and online functionality that improves performance and makes it easier than ever for users to explore and learn.
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INTERACTIVE PHYSIOLOGY WEB VERSION FREE
This program can be accessed on the Internet, free of charge at. Includes "How to do it" examples Sample simulations from courses (please see above) HUMAN Variables and Parameters List HELP - an Annotated Variables List References Workshops Limitations of the web-HUMAN model. Sample simulations from courses in Comparative Vertebrate Physiology: Body Temperature regulation in Hot and Cold Environments Endurance Exercise - cardiorespiratory limitations (PDF) HUMAN "ultramarathon" - water and salt balance problems & management Cardiac and (vascular) smooth muscle comparison. Sample simulations from courses in Cardiovascular physiology: Hypertension - Renal induced (Goldblatt hypertension) Central Vascular Shunt 1 - a Right to Left Shunt Central Vascular Shunt 2 - locate the shunt, based on cardiac catheterization data Anemia - haemodynamic, fluid balance, consequences of progressive anemia. Renal physiology: Basic quantitative renal calculations Nephrectomy. Sample simulations from courses in Respiratory physiology: Control of ventilation (high altitude/Emphysema Acid-base physiology. The student can utilize web-HUMAN to simulate physiological pathology:Īnemia: teaching simulation with analysis Induction of a fever: factors involved in thermoregulation Emphysema: Effects of reduced lung diffusion surface area. With experience, students will develop a knowledge of what constitutes normal (and abnormal) values for several physiological variables and clinical readings. The model will generate data not only about the resonses of the breathing apparatus (respiration rate and depth) but also alterations in blood gases, acid-base balance, renal and cardiovascular changes and so on. The student can then test his predictions by running the web-HUMAN model under conditions of simulated high altitude (i.e. For example, from the knowledge of respiratory physiology the student may be asked to predict how the human respiratory system would respond when a normal human subject moves to a mountain top (high altitude). The user will simulate actual experiments (traditionally done on animals and/or too complex to perform in lab) that illustrate how mammalian systems respond to various stresses and perturbations imposed on them. Web-HUMAN Version 4.0 provides a web "front end" to the model that allows users to: Access the model via the web Input values and variables desired for the experiments via a familiar web interface View outputs in a web format Access via the web on-line help and many sample simulated labs. In running a simulation, the user may manipulate one or more parameters from a list of 67 alterable physiological, environmental and clinical factors. The model is comprehensive, encompassing 6 major systems (cardiovascular, respiratory, renal, fluid balance, acid-base balance and thermoregulatory) and aspects of 3 other systems (nervous, endocrine and muscle metabolism). This version was written in 1978-1984 by Tom Coleman at the University of Mississippi Medical Center and was then maintained and updated at Skidmore College. The simulation is now hosted by the University of Seville. Description: The original HUMAN program is a FORTRAN mathematical model that simulates the integrated physiology of the human organism in both health and disease.