New alternative to animal models for surgical training
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Owner/Developer: University of Arkansas for Medical Sciences
| Country: |
United States of America |
|---|---|
| Languages: |
English |
| Url: |
https://www.ncbi.nlm.nih.gov/pubmed/23581125 |
| Created: |
01 January 2004 |
| Locations: |
United States of America |
| City: |
Arkansas |
| Description: | Laboratory training models are essential for developing and refining surgical skills, especially in microsurgery. A perfect training model is the one that can provide the same situation during surgery, in the same anatomy; the closer to live surgery the model is, the greater the benefit. The lack of an accurate vascular model has sometimes necessitated the use of live models when bleeding, and vascular liquid filling is desired for optional learning. We developed a new model utilising human cadavers that can replace the use of live anaesthetised animals for surgical training. The vessels in a cadaveric specimen were connected to artificial blood reservoirs. The arterial side was connected to a pump to provide pulsating pressure inside the arteries, while the venous side was kept under static pressure that applied to the reservoir. This method provides a condition that simulates live surgery in terms of bleeding, pulsation and liquid filling of the vascular tree. It is an excellent alternative model and can be applied to the whole cadaver or to a particular cadaveric specimen (head, arm, leg) or to an isolated organ. It is distinctive and of a great practical value for training in a wide range of surgical procedures, Utilising this technique could forever eliminate the use of live anaesthetised animals for surgical training. The model and device are patent pending application no. 10/339,053. |
| References: | Please see full text in the attached pdf at the end of the entry |
| Format: |
Hands-on training, Lecture |
| Presence: |
Mandatory |
| Access: |
Fee-based |
| Content type: |
Theoretical, Practical |
| Frequency: |
Recurrent event |
| Prerequisites: |
Student at University of Arkansas for Medical Sciences, Department of Neurosurgery |
| Target audience: |
Students |
| Target sectors: |
Academia |
| Educational level: |
University (Bachelor) |
| 3rs relevance: |
Replacement |
| Topics covered: |
Models of animals (e.g. mannequins, simulators, cadavers) |
| 3rs coverage: |
Full coverage (a dedicated course) |
| Species covered: |
Rats (Rattus norvegicus) |
| Course level on animal species: |
Advanced course |
| Details on the topic or technology covered: |
We developed a new model utilising human cadavers that can replace the use of live anaesthetised animals for surgical training. The vessels in a cadaveric specimen were connected to artificial blood reservoirs. The arterial side was connected to a pump to provide pulsating pressure inside the arteries, while the venous side was kept under static pressure that applied to the reservoir. This method provides a condition that simulates live surgery in terms of bleeding, pulsation and liquid filling of the vascular tree. |
| Accreditation body and/or authority that approved the education or training: |
University education |
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