M. d'Alessio, S. Avvedimento, S. Castaldo, V. Manfellotto, D. Ciclamini, E. Grella, G. F. Nicoletti, P. Tos, S. D'Arpa
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This study introduces the superficial circumflex iliac artery perforator (SCIAP) and superficial inferior epigastric artery (SIEA) flaps in pigs.</p>\n </section>\n \n <section>\n \n <h3> Materials and Methods</h3>\n \n <p>Dissections were performed on 10 female swine (<i>Sus scrofa domesticus</i>, ssp. Large white; 35–40 kg) during a perforator flaps dissection course organized by the Italian Society for Microsurgery (SIM: Società Italiana di Microchirurgia). Adhering to ethical guidelines and the 3R principles, animals were anesthetized and euthanized humanely post-procedure. Twenty SCIAP and 20 SIEA flaps were harvested: vessel anatomy and presence, anatomical landmarks, pedicle caliber and length, flap viability, and design were evaluated.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p>The SCIAP and SIEA were present on both sides in all animals (100%). The SCIAP was constantly found between 4 and 6 cm medially to the ASIS. After giving off the SCIAP, the SIEA always arose from the SCIAP continuing medially toward the abdomen, giving off small branches (4–8) to the skin. Mean pedicle length (distance between origin from the femoral vessel end entry into the flap) was 8.035 cm for the SCIAP artery (SD ± 0.09), 8.04 cm for the SCIAP vein (SD ± 0.11), 14.98 cm for the SIEA artery (SD ± 0.10), and 14.98 cm for the SIEA vein (SD ± 0.24). Mean arterial caliber was 2.201 mm for the SCIAP (SD ± 0.24) and 1.89 mm for the SIEA (SD ± 0.217). Mean vein caliber was 2.23 mm for the SCIAP (SD ± 0.18) and 2.14 mm for the SIEA (SD ± 0.162). In total, 20 SCIAP and 20 SIEA flaps were harvested. Two of them (one SCIAP and one SIEA) showed signs of hypoperfusion with a 95% viability rate. The SCIAP flap was located 4–6 cm medial to the ASIS, while the SIEA was found along a line connecting the ASIS and the midpoint of a line connecting the second and third nipples.</p>\n </section>\n \n <section>\n \n <h3> Conclusion</h3>\n \n <p>The SCIAP and SIEA flaps in pigs offer a valuable addition to microsurgical training, replicating important human flaps. Their consistent anatomy and the ability to harvest them in different positions enhance their utility in training programs. These findings support the integration of these flaps into pig model courses, optimizing animal use and training efficacy in line with the 3R principles.</p>\n </section>\n </div>","PeriodicalId":18600,"journal":{"name":"Microsurgery","volume":"45 3","pages":""},"PeriodicalIF":1.7000,"publicationDate":"2025-03-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/micr.70056","citationCount":"0","resultStr":"{\"title\":\"Anatomical Study of SCIAP (Superficial Circumflex Iliac Artery Perforator) and SIEA (Superificial Inferior Epigastric Artery) Flaps for Flap Harvest Training in the Swine Model\",\"authors\":\"M. d'Alessio, S. Avvedimento, S. Castaldo, V. Manfellotto, D. Ciclamini, E. Grella, G. F. Nicoletti, P. Tos, S. 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Mean pedicle length (distance between origin from the femoral vessel end entry into the flap) was 8.035 cm for the SCIAP artery (SD ± 0.09), 8.04 cm for the SCIAP vein (SD ± 0.11), 14.98 cm for the SIEA artery (SD ± 0.10), and 14.98 cm for the SIEA vein (SD ± 0.24). Mean arterial caliber was 2.201 mm for the SCIAP (SD ± 0.24) and 1.89 mm for the SIEA (SD ± 0.217). Mean vein caliber was 2.23 mm for the SCIAP (SD ± 0.18) and 2.14 mm for the SIEA (SD ± 0.162). In total, 20 SCIAP and 20 SIEA flaps were harvested. Two of them (one SCIAP and one SIEA) showed signs of hypoperfusion with a 95% viability rate. The SCIAP flap was located 4–6 cm medial to the ASIS, while the SIEA was found along a line connecting the ASIS and the midpoint of a line connecting the second and third nipples.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Conclusion</h3>\\n \\n <p>The SCIAP and SIEA flaps in pigs offer a valuable addition to microsurgical training, replicating important human flaps. 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引用次数: 0
摘要
显微外科训练需要从基础到高级技术的进步,利用人工模型,尸体实验室和活体动物。活体动物是最重要的模拟皮瓣收获和有一个真实的经验,对解剖质量的即时反馈。由于猪的解剖结构与人类相当,因此猪是皮瓣收获训练的有效模型,许多皮瓣模型也是如此。本研究介绍了猪旋髂浅动脉穿支皮瓣(SCIAP)和腹壁下浅动脉皮瓣(SIEA)。材料与方法对10头母猪(苏氏家猪,ssp.)进行解剖。大的白色;在意大利显微外科学会(SIM: societ Italiana di Microchirurgia)组织的穿支皮瓣解剖课程中,35-40公斤)。根据道德准则和3R原则,动物在手术后被麻醉和安乐死。采集20个SCIAP和20个SIEA皮瓣:评估血管解剖和存在,解剖标志,蒂口径和长度,皮瓣活力和设计。结果所有动物双侧均存在SCIAP和SIEA(100%)。SCIAP常在ASIS内侧4 ~ 6cm处出现。在释放SCIAP后,SIEA总是从SCIAP产生,继续向腹部内侧延伸,并向皮肤发出小分支(4-8)。SCIAP动脉(SD±0.09)、SCIAP静脉(SD±0.11)、SIEA动脉(SD±0.10)、SIEA静脉(SD±0.24)的平均蒂长度为8.035 cm、8.04 cm、14.98 cm。SCIAP组平均动脉口径为2.201 mm (SD±0.24),SIEA组平均动脉口径为1.89 mm (SD±0.217)。SCIAP组平均静脉口径为2.23 mm (SD±0.18),SIEA组平均静脉口径为2.14 mm (SD±0.162)。共收获20个SCIAP和20个SIEA皮瓣。其中2例(1例SCIAP和1例SIEA)表现出灌注不足的迹象,存活率为95%。SCIAP皮瓣位于ASIS内侧4-6 cm处,SIEA位于连接ASIS的线和连接第二和第三乳头的线的中点处。结论猪SCIAP和SIEA皮瓣复制了重要的人皮瓣,为显微外科训练提供了有价值的补充。它们一致的解剖结构和在不同位置获取它们的能力增强了它们在培训计划中的实用性。这些发现支持将这些皮瓣整合到猪模型课程中,优化动物使用和训练效果,符合3R原则。
Anatomical Study of SCIAP (Superficial Circumflex Iliac Artery Perforator) and SIEA (Superificial Inferior Epigastric Artery) Flaps for Flap Harvest Training in the Swine Model
Introduction
Microsurgery training necessitates a progression from basic to advanced techniques, utilizing artificial models, cadaver labs, and live animals. Living animals are of paramount importance to simulate flap harvest and have a real-life experience with immediate feedback on the quality of dissection. Pigs are effective models for flap harvest training since the anatomy is comparable to that of humans, and so are many flap models. This study introduces the superficial circumflex iliac artery perforator (SCIAP) and superficial inferior epigastric artery (SIEA) flaps in pigs.
Materials and Methods
Dissections were performed on 10 female swine (Sus scrofa domesticus, ssp. Large white; 35–40 kg) during a perforator flaps dissection course organized by the Italian Society for Microsurgery (SIM: Società Italiana di Microchirurgia). Adhering to ethical guidelines and the 3R principles, animals were anesthetized and euthanized humanely post-procedure. Twenty SCIAP and 20 SIEA flaps were harvested: vessel anatomy and presence, anatomical landmarks, pedicle caliber and length, flap viability, and design were evaluated.
Results
The SCIAP and SIEA were present on both sides in all animals (100%). The SCIAP was constantly found between 4 and 6 cm medially to the ASIS. After giving off the SCIAP, the SIEA always arose from the SCIAP continuing medially toward the abdomen, giving off small branches (4–8) to the skin. Mean pedicle length (distance between origin from the femoral vessel end entry into the flap) was 8.035 cm for the SCIAP artery (SD ± 0.09), 8.04 cm for the SCIAP vein (SD ± 0.11), 14.98 cm for the SIEA artery (SD ± 0.10), and 14.98 cm for the SIEA vein (SD ± 0.24). Mean arterial caliber was 2.201 mm for the SCIAP (SD ± 0.24) and 1.89 mm for the SIEA (SD ± 0.217). Mean vein caliber was 2.23 mm for the SCIAP (SD ± 0.18) and 2.14 mm for the SIEA (SD ± 0.162). In total, 20 SCIAP and 20 SIEA flaps were harvested. Two of them (one SCIAP and one SIEA) showed signs of hypoperfusion with a 95% viability rate. The SCIAP flap was located 4–6 cm medial to the ASIS, while the SIEA was found along a line connecting the ASIS and the midpoint of a line connecting the second and third nipples.
Conclusion
The SCIAP and SIEA flaps in pigs offer a valuable addition to microsurgical training, replicating important human flaps. Their consistent anatomy and the ability to harvest them in different positions enhance their utility in training programs. These findings support the integration of these flaps into pig model courses, optimizing animal use and training efficacy in line with the 3R principles.
期刊介绍:
Microsurgery is an international and interdisciplinary publication of original contributions concerning surgery under microscopic magnification. Microsurgery publishes clinical studies, research papers, invited articles, relevant reviews, and other scholarly works from all related fields including orthopaedic surgery, otolaryngology, pediatric surgery, plastic surgery, urology, and vascular surgery.
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