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首页> 外文期刊>Italian Journal of Anatomy and Embryology >Teaching and learning human Anatomy in the University of Pavia: from models and clinical specimens to prosection on 3D models from our museum collection
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Teaching and learning human Anatomy in the University of Pavia: from models and clinical specimens to prosection on 3D models from our museum collection

机译:在帕维亚大学进行人体解剖学的教学:从模型和临床标本到对我们博物馆收藏的3D模型进行剖检

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Due to decline of resources and support for teaching human anatomy, in our Institute the use of cadaver dissection is not economically feasible. After a few years in which I was able to perform prosection on fixed organs belonging to the Institute collection, over the last years students learned topographical anatomy on commercial plastic models (bones, muscles, joints, trunks and brains). New perspectives recently occurred thanks to a collaboration with Prof. Auricchio’s group, which is involved in the strategic plan “3DPRINTING” (http://www. unipv.eu/site/home/area-stampa/articolo12952.html). First, we have segmented DICOM images of Computed Tomography (CT) to reconstruct 3D models of all the feet’s bones from a patient. Then, these 3D models have been post-processed to obtain suitable file for 3D printing. A 3DSYSTEMS ProJet 460 Plus, professional, full-color binder jetting printer (property of General Surgery2), has been used to create 3D models of feet’s bone by chalk powder binding. Medical students will use these models to test their own ability to recognize feet’s bones shape and to recompose them. Second, a plastic 3D anatomical model has been scanned by Artec Eva 3D Object Scanner to obtain a 3D virtual model of the physical one; this model has been modified to create a new modular model, printed with a process similar to one described above. Our Anatomy Institute is enriched by a Museum, established in the late eighteenth century by universally known anatomists (Rezia, Scarpa, Panizza, Zoja). This historical collection contains several sections (osteology, angiology, splanchnology, neurology and topographic anatomy). It is impossible to use these anatomical specimens of historical interest for prosection, but their life-size copies will constitute a cheap and effective method of learning. This strategy could not replace cadaver dissection experience but we hope that it could assist students in the comprehension of anatomical systems in a cost effective way within a systemic anatomy course. Besides, this method should optimize specimen’s choice and focalize student’s attention on peculiar, selected samples, preparing more appropriately medical students to their clinical practice.KeywordsAnatomical teaching; medical education; 3D printe; 3D scan
机译:由于资源减少和对人体解剖学教学的支持,在我们研究所使用尸体解剖在经济上是不可行的。几年后,我能够对属于研究所藏品的固定器官进行前列腺切除手术,在过去的几年中,学生们学习了商业塑料模型(骨骼,肌肉,关节,躯干和大脑)的地形解剖学。由于与Auricchio教授小组的合作,最近出现了新的观点,该小组参与了“ 3DPRINTING”战略计划(http:// www。unipv.eu/site/home/area-stampa/articolo12952.html)。首先,我们对计算机断层扫描(CT)的DICOM图像进行了细分,以重建患者脚部所有骨骼的3D模型。然后,对这些3D模型进行后处理,以获得适合3D打印的文件。专业的全彩色活页夹喷墨打印机3DSYSTEMS ProJet 460 Plus(General Surgery2的属性)已用于通过粉笔粉装订创建脚骨的3D模型。医学生将使用这些模型来测试自己识别脚的骨骼形状并进行重组的能力。其次,Artec Eva 3D对象扫描仪已扫描了塑料3D解剖模型,以获得实体模型的3D虚拟模型。对该模型进行了修改,以创建新的模块化模型,并使用与上述类似的过程进行打印。我们的解剖学研究所拥有丰富的博物馆,该博物馆由众所周知的解剖学家(Rezia,Scarpa,Panizza,Zoja)在18世纪后期建立。这个历史收藏包含几个部分(骨科,血管科,内脏科,神经科和地形解剖)。不可能将这些具有历史意义的解剖学标本用于直肠切开术,但是它们的真人大小的副本将构成一种廉价而有效的学习方法。该策略不能代替尸体解剖经验,但我们希望它可以在系统解剖课程中以经济有效的方式帮助学生理解解剖系统。此外,这种方法应该优化标本的选择,并使学生的注意力集中在特殊的,选定的样品上,从而使医学生更适合其临床实践。医学教育; 3D打印3D扫描

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