儿科住院医师绘制3D先天性心脏病模型。

IF 4.9 1区 教育学 Q1 EDUCATION, SCIENTIFIC DISCIPLINES
Jared A. Sheridan, George Slim, Jessica L. Foulds, Carolina A. Escudero
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引用次数: 0

摘要

先天性心脏缺陷(CHDs)是最常见的先天性异常,影响1%的新生儿,其中8%的CHDs只有一个有效或“单一”心室。至关重要的是,儿科医生和儿科住院医生了解心脏缺陷,解剖学和生理学,因为这些病变在临床实践中经常遇到。冠心病可能很复杂,很难理解。目前许多学习冠心病的教育工具互动性有限,可能不支持动觉学习偏好。3D打印技术越来越便宜,易于使用,并且可以通过CT或MRI扫描创建高度精确的冠心病模型我们打印了三个阶段的单心室姑息治疗的3D模型(第一阶段:诺伍德手术治疗左心发育不全综合征,第二阶段:格伦手术,第三阶段:Fontan手术),这是解剖上复杂的冠心病。选择这些缺陷是因为每个阶段都表现出与患者临床表现相对应的生理显著变化。我们使用适合丙烯酸涂料应用的白色坚固塑料材料(聚乳酸或PLA)打印模型。我们提供了一个1小时的教学课程,从20分钟的教学部分开始,引导学习者了解3D模型,并通过儿科心脏病专家的介绍展示心脏解剖,然后是40分钟的互动部分,其中三名住院医生每组用红色,蓝色和紫色油漆绘制与单心室缓和的一个阶段相对应的3D模型。居民们被要求用颜料来表示心脏不同区域血液的相对氧饱和度:红色代表含氧血液,蓝色代表缺氧血液,紫色代表混合或部分含氧血液。三维模型的数字版本,带有相应的红色、蓝色和紫色(第一阶段:https://skfb.ly/otyZA;第二阶段:https://skfb.ly/otAUX;阶段3:https://skfb.ly/oAOyV)和使用这种颜色的物理模型(使用Stratasys J750打印机的Vero材料)作为指导。两名儿科心脏病学研究员轮流回答问题并指导个别住院医生。住院医生被鼓励在他们的小组内讨论他们的模型,以比较单心室缓和的不同阶段,并可以保留他们的绘画模型。38名居民参与了调查。我们发现这种新颖的互动教学方法是可行的,并且对儿科实习生来说是愉快和有益的。许多居民超过了规定的时间继续交谈或完成他们的模型,这表明这对居民来说是一个有趣的教育会议,增加绘画活动的时间分配将是有价值的。我们通过小组内的讨论、不同阶段模型的比较以及住院医生对模型和单心室姑息治疗每个阶段的临床意义的提问来观察住院医生的参与情况。这次会议需要花费大量的时间来打印模型和准备绘画材料,但由于我们机构拥有3D打印机,所以总体材料成本并不高。鉴于居民的积极参与和积极反馈,我们打算重复类似的会议,重点关注不同的冠心病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Paediatric residents painting 3D congenital heart disease models

Congenital heart defects (CHDs) are the most common congenital anomaly affecting 1% of newborns, with 8% of CHDs having only one effective or ‘single’ ventricle. It is critical that paediatricians and paediatric residents understand cardiac defects, both anatomically and physiologically, as these lesions are commonly encountered in clinical practice. CHDs can be complex and challenging to understand. Many current educational tools for learning about CHDs have limited interactive qualities and may not support kinesthetic learning preferences.

3D printing technology is increasingly affordable, accessible, and can create highly accurate models of CHDs from CT or MRI scans.1 We printed 3D models of the three stages of single ventricle palliation (Stage 1: Norwood procedure for hypoplastic left heart syndrome, Stage 2: Glenn procedure, Stage 3: Fontan procedure), which are anatomically complex CHDs. These defects were chosen as each stage demonstrates significant changes in physiology which correspond to clinical manifestations in patients. We printed the models using a white firm plastic material (polylactic acid or PLA) suitable for acrylic paint application. We provided a 1 hour teaching session starting with a 20-minute didactic portion orienting the learners to the 3D models and demonstrating the cardiac anatomy via presentation by a paediatric cardiologist, followed by a 40-minute interactive portion where groups of three residents each painted a 3D model corresponding to one of the stages of the single ventricle palliation with red, blue and purple paint. Residents were instructed to use paint to demonstrate relative oxygen saturations of the blood in the different areas of the heart: red for oxygenated blood, blue for deoxygenated blood, and purple for mixed or partially oxygenated blood. Digital versions of the 3D model with the corresponding red, blue, and purple colouring (Stage 1: https://skfb.ly/otyZA; Stage 2: https://skfb.ly/otAUX; Stage 3: https://skfb.ly/oAOyV) and physical models with this colouring (Vero material using Stratasys J750 printer) were provided as guides. Two paediatric cardiology fellows circulated to answer questions and guide individual residents. Residents were encouraged to discuss their models within their groups to compare the different stages of the single ventricle palliation and could keep their painted model. Thirty-eight residents participated.

We found that this novel method of interactive teaching was feasible and appeared enjoyable and informative for paediatric trainees. Many residents remained beyond the allotted time to continue their conversations or to finish painting their model, suggesting that this was an interesting educational session for the residents and that an increased time allotment for the painting activity would be valuable. We observed resident engagement via discussions within their groups, comparison of the models of different stages, and residents asking questions about the models and the clinical implications of each stage of the single ventricle palliation. The session required significant time investment to print models and prepare painting materials, but overall material costs were not prohibitive as our institution owned the 3D printer. Given the resident engagement and positive feedback, we intend to repeat similar sessions focusing on different CHDs.

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来源期刊
Medical Education
Medical Education 医学-卫生保健
CiteScore
8.40
自引率
10.00%
发文量
279
审稿时长
4-8 weeks
期刊介绍: Medical Education seeks to be the pre-eminent journal in the field of education for health care professionals, and publishes material of the highest quality, reflecting world wide or provocative issues and perspectives. The journal welcomes high quality papers on all aspects of health professional education including; -undergraduate education -postgraduate training -continuing professional development -interprofessional education
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