Difference between revisions of "Category:Virtual biology projects"

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There are a number of ongoing large international projects that we can attribute to virtual biology.
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Some of them explicitly '''include''' word 'virtual' in their title, for example:
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* [[virtual cell]]
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* [[virtual liver]]
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* [[virtual rat|virtual physiological rat]]
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* [[virtual physiological human]],
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* [[virtual patient]].
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The table below contains brief description of these projects. Thus we can see that existing projects provide a strong basis to group them together in the frame of virtual biology.
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{| class="wikitable"
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!Project, URL, references!!Brief description
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|-
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|[[virtual rat|Virtual physiological rat]]
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http://virtualrat.org/
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<br><cite>Beard2013a, Beard2013b, Bugenhagen2013</cite>
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|The Virtual Physiological Rat Project aims to simulate the integrated cardiovascular function of the rat, and to build validated computer models that account for genetic variation across rat strains and physiological response to environment (i.e., diet). In addition, new strains of genetically engineered rat will be developed with the ultimate goal of using computer models to predict the physiological characteristics of not yet realized genetic combinations, derive those combinations in the lab, and then test the predictions.
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|-
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|[[virtual physiological human]]
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http://www.vph-noe.eu/
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|The Virtual Physiological Human (VPH) aims to create virtual humans based on data (biological, imaging, clinical, genomic) from actual patients to improve the understanding of human physiology and pathology and, thereby, to develop and test new therapies.
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|-
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|[[BioGears]]™
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https://www.biogearsengine.com/
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|BioGears is an open source human physiology engine that is under construction for medical education, research, and training technologies.
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The engine can be used as a standalone application or integrated with simulators, sensor interfaces, and models of all fidelities.
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|-
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|[[HumanSim]]®
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http://www.humansim.com
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|HumanSim is physiology engine that enables realistic, real-time medical training.
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The engine outputs real-time clinically relevant data, such as heart rate, blood pressure waveforms and a capnogram.
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It enables dynamic medical scenarios and provides an environment for on-the-spot medical decision making.
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|-
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|
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|
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|-
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|
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|
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|}
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==References==
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<biblio>
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#Beard2013a pmid=22805979
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#Beard2013b  Beard DA, Pettersen KH, Carlson BE et al. (2013) A computational analysis of the long-term regulation of arterial pressure [v1; ref status: approved 1, approved with reservations 1, http://f1000r.es/1xq] F1000Research 2013, 2:208 (doi: 10.12688/f1000research.2-208.v1)
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#Bugenhagen2013 Bugenhagen, SM. (2013) The Role of Metabolic Dysfunction in Heart Failure. Cardiac Physiome Workshop, Bar Harbor, ME, October 17, 2013.
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</biblio>
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[[Category:Virtual_biology]]
 
[[Category:Virtual_biology]]

Latest revision as of 06:32, 10 January 2015

There are a number of ongoing large international projects that we can attribute to virtual biology.

Some of them explicitly include word 'virtual' in their title, for example:

The table below contains brief description of these projects. Thus we can see that existing projects provide a strong basis to group them together in the frame of virtual biology.

Project, URL, references Brief description
Virtual physiological rat

http://virtualrat.org/
[1, 2, 3]

The Virtual Physiological Rat Project aims to simulate the integrated cardiovascular function of the rat, and to build validated computer models that account for genetic variation across rat strains and physiological response to environment (i.e., diet). In addition, new strains of genetically engineered rat will be developed with the ultimate goal of using computer models to predict the physiological characteristics of not yet realized genetic combinations, derive those combinations in the lab, and then test the predictions.
virtual physiological human

http://www.vph-noe.eu/

The Virtual Physiological Human (VPH) aims to create virtual humans based on data (biological, imaging, clinical, genomic) from actual patients to improve the understanding of human physiology and pathology and, thereby, to develop and test new therapies.
BioGears

https://www.biogearsengine.com/

BioGears is an open source human physiology engine that is under construction for medical education, research, and training technologies.

The engine can be used as a standalone application or integrated with simulators, sensor interfaces, and models of all fidelities.

HumanSim®

http://www.humansim.com

HumanSim is physiology engine that enables realistic, real-time medical training.

The engine outputs real-time clinically relevant data, such as heart rate, blood pressure waveforms and a capnogram. It enables dynamic medical scenarios and provides an environment for on-the-spot medical decision making.



[edit] References

Error fetching PMID 22805979:
  1. Error fetching PMID 22805979: [Beard2013a]
  2. Beard DA, Pettersen KH, Carlson BE et al. (2013) A computational analysis of the long-term regulation of arterial pressure [v1; ref status: approved 1, approved with reservations 1, http://f1000r.es/1xq] F1000Research 2013, 2:208 (doi: 10.12688/f1000research.2-208.v1) [Beard2013b]
  3. Bugenhagen, SM. (2013) The Role of Metabolic Dysfunction in Heart Failure. Cardiac Physiome Workshop, Bar Harbor, ME, October 17, 2013. [Bugenhagen2013]

Pages in category "Virtual biology projects"

The following 4 pages are in this category, out of 4 total.

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