三维打印模型在颅内和颅外交界性肿瘤治疗中的临床应用:一项试点研究。

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Xiang-Heng Zhang, Jiahao Li, Zhenqiang He, Dikan Wang, Guiqing Liao, Si-En Zhang, Hao Duan, Yonggao Mou, Yujie Liang
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引用次数: 0

摘要

背景:由于解剖结构复杂,颅内和颅外交通性肿瘤的手术治疗十分困难。因此,迫切需要辅助方法。因此,本研究旨在探讨三维(3D)打印模型在颅内和颅外交通肿瘤治疗中的实用性及其在手术规划和住院医师教育中的适用性:方法:为八名颅内和颅外交通肿瘤患者创建了个性化的三维打印模型。根据这些三维打印模型,为每位患者制定了全面的手术计划,之后患者接受了手术。收集患者的临床病理数据并进行回顾性分析,以确定手术效果。为了检验三维打印模型的教学能力,邀请专家和住院医生对其中的三个病例进行点评,然后通过问卷对模型的临床实用性进行评分:结果:三维打印模型准确复制了解剖结构,包括肿瘤、周围结构和头骨。在这些模型的基础上,为患者设计了个性化的手术方法,包括眶颧入路和经颈部入路。虽然患者的手术时间和失血量等参数各不相同,但手术效果令人满意,只有一名患者出现了术后并发症。在三维打印模型的教育适用性方面,所有八个调查问卷项目的平均同意度均超过六分(七分为完全同意)。此外,专家和住院医师之间的同意度得分没有明显差异:结论:研究结果表明,3D 打印模型具有良好的结构准确性,在开发手术方法和教育住院医师方面具有潜在的益处。还需要进一步的研究来检验这些模型在治疗颅内和颅外交通性肿瘤中的真正适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Clinical application of a three-dimensional-printed model in the treatment of intracranial and extracranial communicating tumors: a pilot study.

Background: Surgical management for intracranial and extracranial communicating tumors is difficult due to the complex anatomical structures. Therefore, assisting methods are urgently needed. Accordingly, this study aimed to investigate the utility of a three-dimensional (3D)-printed model in the treatment of intracranial and extracranial communicating tumors as well as its applicability in surgical planning and resident education.

Methods: Individualized 3D-printed models were created for eight patients with intracranial and extracranial communicating tumors. Based on these 3D-printed models, a comprehensive surgical plan was made for each patient, after which the patients underwent surgery. The clinicopathological data of patients were collected and retrospectively analyzed to determine surgical outcomes. To examine the educational capability of the 3D-printed models, specialists and resident doctors were invited to review three of these cases and then rate the clinical utility of the models using a questionnaire.

Results: The 3D-printed models accurately replicated anatomical structures, including the tumor, surrounding structures, and the skull. Based on these models, customized surgical approaches, including the orbitozygomatic approach and transcervical approach, were designed for the patients. Although parameters such as operation time and blood loss varied among the patients, satisfactory surgical outcomes were achieved, with only one patient developing a postoperative complication. Regarding the educational applicability of the 3D-printed model, the mean agreement for all eight questionnaire items was above six (seven being complete agreement). Moreover, no significant difference was noted in the agreement scores between specialists and residents.

Conclusion: The results revealed that 3D-printed models have good structural accuracy and are potentially beneficial in developing surgical approaches and educating residents. Further research is needed to test the true applicability of these models in the treatment of intracranial and extracranial communicating tumors.

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