Experimental investigation of tension-reducing effectiveness of keystone perforator island flap.

Q2 Medicine Medicine and Pharmacy Reports Pub Date : 2024-04-01 Epub Date: 2024-04-25 DOI:10.15386/mpr-2679
Timea Helga Virág, Maximilian Vlad Muntean, Attila Zoltán Mihály, Alexandru Valentin Georgescu
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Nonetheless, their biomechanical properties and effectiveness are unclear, the wound-closure tension-reducing effect is not well documented in existing literature. The present study aims to investigate the wound closure tension-reducing effect of type I, type IIA, type Sidney Melanoma Unit I (SMU) and type SMU II KPIFs. The main purpose of this study was to clarify the tension-reducing effect of the KPIF technique, which can contribute to the understanding of the biomechanical benefits of the KPIF.</p><p><strong>Methods: </strong>This is an experimental, in vivo study, based on twelve white race porcine models (PIC-FII-377), as their anatomy and wound healing process is very similar to that of humans. In this study, 42 wounds that could not be closed by primary wound closure, known as 'unclosable' elliptical defects, were created in six different anatomical regions. The criteria used for not achieving primary wound closure were the breaking of 0 nylon suture or the edges of the wound. Each defect was closed with different types of keystone perforator island flap: type I, type IIA, type Sydney Melanoma Unit I and type Sydney Melanoma Unit II. Keystone perforator island flaps were used in 42 cases. Intraoperative tissue tension was measured by an AXIS FB50, 50 N force gauge tensiometer. In all cases a wide elliptical excision was performed for the primary defect. Before reconstruction, tissue tension was measured across the widest point of the elliptical primary defect. Skin incision was performed for the first flap, without division of deep fascia. After preparing first flap, tension was measured at the widest point of the wound. Furthermore, deep fascia for the second flap was divided, tissue tension across the widest point of the primary defect was measured. Finally, tension was measurement across the widest point of the donor-site after closure of the defect-side flap and V-Y closure of either end of keystone perforator island flap.</p><p><strong>Results: </strong>In this study were included 12 porcine model (PIC-FII-377). A number of 42 keystone perforator island flaps were performed in this study, in six different anatomical regions, ranging between 3.3 x 12 cm and 16 x 30 cm. All elliptical defects were unclosable, with varying sizes ranging between 2 x 4 cm and 8 x 20 cm. The mean tension that was required to close all wounds with primary closure initially was 24.51 N 10.73 N. After using a type I KPIF a tension decrease of -7.04 N ± 4.93 N was seen, in the case of type IIA KPIF the tension decreased to -12.43 N± 5.63 N. Furthermore, after reconstruction with type SMU I KPIF the tension decreased to -7.38N ± 5.21N. After using a type SMU II KPIF a tension decrease of -10.52 N± 5.74 N was seen.</p><p><strong>Conclusions: </strong>The main purpose of this study was to clarify the tension-reducing effect of the KPIF technique, which can contribute to the understanding of the biomechanical benefits of the KPIF. The outcomes of the present study suggest that type I, type IIA, type SMU I, and SMU II of keystone perforator island flaps have a significant tension-reducing effects, especially the technique that involves the division of the deep fascia. The results of this experimental research thoroughly explain the benefits of these flaps. The effectiveness of the flap and doubts on biomechanical properties have not been answered so far. It will encourage more plastic surgeons to use the flap, especially given its proven benefits.</p>","PeriodicalId":18438,"journal":{"name":"Medicine and Pharmacy Reports","volume":"97 2","pages":"196-204"},"PeriodicalIF":0.0000,"publicationDate":"2024-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11090273/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Medicine and Pharmacy Reports","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15386/mpr-2679","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2024/4/25 0:00:00","PubModel":"Epub","JCR":"Q2","JCRName":"Medicine","Score":null,"Total":0}
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Abstract

Background and aim: Nowadays, the reconstruction of large and complex defects with keystone perforator island flaps (KPIF) has gained popularity in plastic and reconstructive surgery. The keystone perforator island flap was described as a curvilinear shaped trapezoidal design flap, with two V-Y advancement flaps end-to-side. It is a multiperforator advancement flap, based on multiple fasciocutaneous or musculocutaneous perforators, described by Behan in 2003. These flaps have a simple harvest technique, an easy-to-implement design, and they are time and cost-saving. Their blood supply lends a versatile and robust character, with less complications. Nonetheless, their biomechanical properties and effectiveness are unclear, the wound-closure tension-reducing effect is not well documented in existing literature. The present study aims to investigate the wound closure tension-reducing effect of type I, type IIA, type Sidney Melanoma Unit I (SMU) and type SMU II KPIFs. The main purpose of this study was to clarify the tension-reducing effect of the KPIF technique, which can contribute to the understanding of the biomechanical benefits of the KPIF.

Methods: This is an experimental, in vivo study, based on twelve white race porcine models (PIC-FII-377), as their anatomy and wound healing process is very similar to that of humans. In this study, 42 wounds that could not be closed by primary wound closure, known as 'unclosable' elliptical defects, were created in six different anatomical regions. The criteria used for not achieving primary wound closure were the breaking of 0 nylon suture or the edges of the wound. Each defect was closed with different types of keystone perforator island flap: type I, type IIA, type Sydney Melanoma Unit I and type Sydney Melanoma Unit II. Keystone perforator island flaps were used in 42 cases. Intraoperative tissue tension was measured by an AXIS FB50, 50 N force gauge tensiometer. In all cases a wide elliptical excision was performed for the primary defect. Before reconstruction, tissue tension was measured across the widest point of the elliptical primary defect. Skin incision was performed for the first flap, without division of deep fascia. After preparing first flap, tension was measured at the widest point of the wound. Furthermore, deep fascia for the second flap was divided, tissue tension across the widest point of the primary defect was measured. Finally, tension was measurement across the widest point of the donor-site after closure of the defect-side flap and V-Y closure of either end of keystone perforator island flap.

Results: In this study were included 12 porcine model (PIC-FII-377). A number of 42 keystone perforator island flaps were performed in this study, in six different anatomical regions, ranging between 3.3 x 12 cm and 16 x 30 cm. All elliptical defects were unclosable, with varying sizes ranging between 2 x 4 cm and 8 x 20 cm. The mean tension that was required to close all wounds with primary closure initially was 24.51 N 10.73 N. After using a type I KPIF a tension decrease of -7.04 N ± 4.93 N was seen, in the case of type IIA KPIF the tension decreased to -12.43 N± 5.63 N. Furthermore, after reconstruction with type SMU I KPIF the tension decreased to -7.38N ± 5.21N. After using a type SMU II KPIF a tension decrease of -10.52 N± 5.74 N was seen.

Conclusions: The main purpose of this study was to clarify the tension-reducing effect of the KPIF technique, which can contribute to the understanding of the biomechanical benefits of the KPIF. The outcomes of the present study suggest that type I, type IIA, type SMU I, and SMU II of keystone perforator island flaps have a significant tension-reducing effects, especially the technique that involves the division of the deep fascia. The results of this experimental research thoroughly explain the benefits of these flaps. The effectiveness of the flap and doubts on biomechanical properties have not been answered so far. It will encourage more plastic surgeons to use the flap, especially given its proven benefits.

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匙形穿孔器岛状皮瓣降低张力效果的实验研究。
背景和目的:如今,使用匙形穿孔器岛状皮瓣(KPIF)重建巨大而复杂的缺损在整形外科中越来越受欢迎。匙形穿孔器岛状皮瓣被描述为一种曲线型梯形设计皮瓣,端对端有两个 V-Y 推进皮瓣。这是一种基于多条筋膜皮或肌皮穿孔器的多穿孔器推进皮瓣,由 Behan 于 2003 年描述。这些皮瓣的采集技术简单,设计易于实施,而且节省时间和成本。它们的血液供应具有多用途和稳健的特点,并发症较少。然而,这些皮瓣的生物力学特性和有效性尚不明确,现有文献中也没有充分记载其降低伤口闭合张力的效果。本研究旨在探讨 I 型、IIA 型、Sidney Melanoma Unit I 型(SMU)和 SMU II 型 KPIF 的伤口闭合张力降低效果。本研究的主要目的是阐明 KPIF 技术的张力降低效果,从而有助于了解 KPIF 的生物力学优势:这是一项体内实验研究,以 12 头白种猪模型(PIC-FII-377)为基础,因为它们的解剖结构和伤口愈合过程与人类非常相似。在这项研究中,在六个不同的解剖区域创建了 42 个无法通过初级伤口闭合的伤口,即 "无法闭合 "的椭圆形缺损。无法实现初级伤口闭合的标准是尼龙缝合线断裂或伤口边缘断裂。每处缺损均采用不同类型的基底穿孔器岛状皮瓣进行闭合:I型、IIA型、悉尼黑色素瘤单元I型和悉尼黑色素瘤单元II型。42 个病例使用了楔形穿孔器岛状皮瓣。术中组织张力由 AXIS FB50 50 N 拉力计测量。在所有病例中,都对原发缺损进行了宽椭圆切除。重建前,在椭圆形原发缺损最宽处测量组织张力。对第一个皮瓣进行皮肤切口,不分割深筋膜。准备好第一个皮瓣后,在伤口最宽处测量张力。然后,分割第二个皮瓣的深筋膜,测量原发缺损最宽处的组织张力。最后,在关闭缺损侧皮瓣和 V-Y 关闭匙形穿孔器岛皮瓣两端后,测量供体部位最宽处的张力:本研究共纳入了 12 个猪模型(PIC-FII-377)。该研究在 6 个不同的解剖区域进行了 42 例楔形穿孔器岛状皮瓣手术,范围从 3.3 x 12 厘米到 16 x 30 厘米不等。所有椭圆形缺损均不可闭合,大小从 2 x 4 厘米到 8 x 20 厘米不等。使用 I 型 KPIF 后,张力下降到 -7.04 N ± 4.93 N,使用 IIA 型 KPIF 后,张力下降到 -12.43 N ± 5.63 N。使用 SMU II 型 KPIF 后,张力下降到 -10.52 N±5.74 N:本研究的主要目的是阐明 KPIF 技术的张力降低效果,这有助于理解 KPIF 的生物力学益处。本研究结果表明,Ⅰ型、ⅡA型、SMUⅠ型和SMUⅡ型匙形穿孔器岛状皮瓣具有显著的张力降低效果,尤其是涉及深筋膜分割的技术。这项实验研究的结果充分说明了这些皮瓣的优势。皮瓣的有效性和生物力学特性方面的疑问至今尚未得到解答。这将鼓励更多的整形外科医生使用这种皮瓣,尤其是考虑到其已被证实的优点。
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Medicine and Pharmacy Reports
Medicine and Pharmacy Reports Medicine-Medicine (all)
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