Advantages of Nail Surgical Procedures Using a 3D Biomodel

IF 1.4 Q3 DERMATOLOGY
R. Nakamura, A. Leverone, Carolina Ávila de Almeida, Heron Werner, Clarissa Canella
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引用次数: 0

Abstract

Introduction: 3D biomodels represent a cutting-edge advancement in medical imaging technology. The incorporation of 3D technologies in dermatology through the acquisition of onychological images, 3D reconstruction, and development of customized equipment to assist in surgeries demonstrated reduction in operating times and improved surgical outcomes. Additionally, the use of 3D printing in surgical simulation provided a safe environment for training and education. This article explores the application of 3D biomodels in dermatology, focusing on three clinical cases involving nail tumors. Case Presentation: In case 1, a glomus tumor was visualized in 3D, guiding the creation of a personalized surgical device. The minimally invasive surgery, facilitated by the biomodel, resulted in successful tumor removal. Case 2, featuring a subungual keratoacanthoma, utilized 3D biomodels for conservative surgery planning, anatomical comprehension, and patient communication. Case 3 involved a longitudinal groove, where biomodels aided in precise lesion localization and surgical planning. Conclusion: The integration of virtual and physical anatomical biomodels proves valuable in surgical dermatology, contributing to enhanced treatment quality, patient safety, and medical education.
使用 3D 生物模型进行指甲手术的优势
导言:三维生物模型代表着医学成像技术的尖端进步。将三维技术应用于皮肤病学,通过获取虹膜图像、三维重建和开发定制设备来协助手术,缩短了手术时间,提高了手术效果。此外,在手术模拟中使用三维打印技术为培训和教育提供了一个安全的环境。本文探讨了三维生物模型在皮肤科中的应用,重点是三个涉及甲状腺肿瘤的临床病例。病例介绍:在病例 1 中,通过三维可视化观察了一个甲状腺肿瘤,从而指导创建了一个个性化的手术装置。在生物模型的帮助下,微创手术成功切除了肿瘤。病例 2 涉及舌下角化棘皮瘤,利用三维生物模型进行保守手术规划、解剖理解和患者沟通。病例 3 涉及纵沟,生物模型帮助进行了精确的病灶定位和手术规划。结论虚拟和物理解剖生物模型的整合在皮肤外科手术中很有价值,有助于提高治疗质量、患者安全和医学教育。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.00
自引率
10.00%
发文量
69
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