浅谈显微外科技术和游离穿支皮瓣修复创面

邓呈亮; 简喜超

doi:10.3760/cma.j.cn501225-20260224-00085

浅谈显微外科技术和游离穿支皮瓣修复创面

doi: 10.3760/cma.j.cn501225-20260224-00085

邓呈亮^,,
简喜超

遵义医科大学附属医院烧伤整形外科,遵义　563003

基金项目:

贵州省科技计划临床医学研究中心 LCZX-2025-005

贵州省科技计划2024年度贵州省科技创新人才团队建设项目 CXTD-2025-051

详细信息

通讯作者:
邓呈亮,Email：cheliadeng@sina.com

计量
- 文章访问数: 35
- HTML全文浏览量: 16
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- 被引次数: 0
出版历程
- 收稿日期: 2026-02-24
- 网络出版日期: 2026-04-30

A brief discussion on microsurgery techniques and free perforator flaps for wound repair

Deng Chengliang^,,
Jian Xichao

Department of Burns and Plastic Surgery, Affiliated Hospital of Zunyi Medical University, Zunyi 563003, China

Funds:

Clinical Medical Research Center of the Guizhou Provincial Science and Technology Plan LCZX-2025-005

2024 Talent Team Construction Project of Technological Innovation of the Guizhou Provincial Science and Technology Plan CXTD-2025-051

More Information

Corresponding author: Deng Chengliang, Email: cheliadeng@sina.com

摘要

摘要: 显微外科技术从常规显微吻合到超级显微外科技术,再到手术机器人辅助,正持续向更精、更细、更智能的方向发展。游离皮瓣移植从仅关注受区修复到兼顾供区保护的理念转变,推动游离穿支皮瓣向超薄化、嵌合化、功能化方向发展,并开始逐步探索异体或异种移植等前沿领域。此外,人工智能技术也逐渐融入创面修复术前规划、术中导航与术后评估的全流程管理中,促使临床决策从经验依赖转向循证证据支撑。该文浅谈显微外科技术和游离穿支皮瓣修复创面,旨在为其临床应用与优化提供理论支持。
- 显微外科手术 /
- 穿支皮瓣 /
- 机器人手术 /
- 人工智能 /
- 创面修复
Abstract: Microsurgical techniques have evolved from conventional microsurgical anastomosis to supermicrosurgery and now to robot-assisted surgery, continuously advancing towards greater precision, detail, and intelligence. Free flap transplantation has undergone a conceptual innovation, shifting its focus from solely repairing the recipient area to also protecting the donor area. This has driven the development of free perforator flaps towards ultra-thin, chimeric, and functional directions, while also gradually exploring cutting-edge fields such as allogeneic or xenogeneic transplantation. Furthermore, artificial intelligence technology is increasingly integrated into the entire process of wound repair preoperative planning, intraoperative navigation, and postoperative evaluation, facilitating a transition in clinical decision-making from experience-dependent to evidence-based approaches. This paper briefly discusses the microsurgery techniques and free perforator flaps for wound repair, aiming to offer theoretical support for their clinical application and optimization.
- Microsurgery /
- Perforator flap /
- Robotic surgical procedures /
- Artificial intelligence /
- Wound repair
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参考文献(60)

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