非可吸收倒刺缝合线握持力及其影响因素

doi:10.13475/j.fzxb.20210907201

纺织学报 ›› 2023, Vol. 44 ›› Issue (06): 66-71.doi: 10.13475/j.fzxb.20210907201

非可吸收倒刺缝合线握持力及其影响因素

成悦¹, 左涵¹, 安琪¹, 李大伟¹^,², 张伟¹^,², 付译鋆¹^,²()

1.南通大学纺织服装学院, 江苏南通 226019
2.安全防护用特种纤维复合材料研发国家地方联合工程研究中心, 江苏南通 226019

收稿日期:2021-09-22 修回日期:2023-01-17 出版日期:2023-06-15 发布日期:2023-07-20
通讯作者: 付译鋆
作者简介:成悦(1997—),女,硕士生。主要研究方向为生物医用材料设计开发。
基金资助:
南通市科技计划项目(MS22022068);江苏高校“青蓝工程”资助项目(苏教师函[2020]10号)

Holding force of non-absorbable barbed sutures and its influencing factors

CHENG Yue¹, ZUO Han¹, AN Qi¹, LI Dawei¹^,², ZHANG Wei¹^,², FU Yijun¹^,²()

1. School of Textile and Clothing, Nantong University, Nantong, Jiangsu 226019, China
2. National & Local Joint Engineering Research Center of Technical Fiber Composites for Safety and Health, Nantong, Jiangsu 226019, China

Received:2021-09-22 Revised:2023-01-17 Published:2023-06-15 Online:2023-07-20
Contact: FU Yijun

摘要/Abstract

摘要：

握持力是评价非可吸收倒刺缝合线临床应用性能的一个重要指标,为探究影响非可吸收倒刺缝合线握持力的因素,选择5种不同针型结构的实验室自制倒刺缝合线和1种商用倒刺缝合线,在硅胶仿真模拟皮肤组织上进行弯曲模型握持力测试,并利用显微镜观察握持力测试前后不同试样的微观形貌。实验结果显示:缝合线线材的外括角、剪切深度、剪切距离等结构参数直接影响倒刺缝合线的握持力;缝合针的形状、弧形、弦长和曲率等结构参数对倒刺缝合线的握持力也有一定影响,相同条件下,圆形针比三角形针的握持力大,缝合针的弧形和弦长越大、曲率越小,倒刺缝合线的握持力越大。

关键词: 倒刺缝合线, 非可吸收, 握持力, 拉伸性能, 微观形貌

Abstract:

Objective The holding force of non-absorbable barbed sutures is a very important index, but its influencing factors have not been systematically studied. Therefore, this work was carried out to explore the influence of needle shape and linear structure on the holding force of non-absorbable barbed sutures.
Method Six kinds of barbed sutures with different needle types and linear structures were prepared and tested via bending model on silica gel artificial skin tissue. The micromorphology of different specimens before and after the holding force test was observed by microscope. Besides, chemical composition and tensile performances of different specimens were tested and analyzed.
Results After the holding force test, silica gel residue can be observed at the roots of the two barbed sutures (Fig. 4), indicating that the barb has a certain ability to hold the silica gel artificial skin tissue. Fourier transform infrared spectroscopy (FT-IR) results illustrated that the chemical structures of sutures A1 and B were both non-absorbable polyamide sutures (Fig. 5). Tensile performances of A1 and B sutures were compared, and there is no significant difference in strength between the two, but suture B showed a better breaking elongation (19.42±2.67)% and flexibility (Tab. 3). Finally, the holding force of the six barbed sutures was tested via bending model on silica gel artificial skin tissue and the influence of barb and needle structure on holding force was analyzed (Fig. 7). The external expansion angle of suture A1 and B were (15.13±2.08)° and (16.32±1.01)°, the cut depth of suture A1 and B were (0.091±0.018) mm and (0.114±0.041) mm. The two parameters of suture 6 were greater than that of suture 1, which is beneficial to improve the holding area of barb to surrounding artificial skin tissue. In addition, the cut distance of suture B was (0.865±0.016) mm, less than that of suture A1, which was (0.982±0.018) mm, indicating a higher barb density for suture B. The influence of needle structure on holding force was further divided into needle shape, chord length, radian and curvature. Results show that the holding force of sutures A1 to A5 were (3.86±0.38) N, (3.95±0.50) N, (5.71±0.62) N, (8.00±1.20) N and (4.56±0.34) N, respectively. Under the same conditions, the holding force of round needle barbed suture A2 and A4 was higher than that of triangular needle barbed suture A1 and A3, respectively. The chord length of suture A3 and A4 are longer than that of suture A1 and A2. The larger the chord length of the suture needle, the greater the holding force of the barbed suture. The radian of needle in suture A5 is smaller than that in suture A3, the holding force of barbed suture produced by small needle was lower than that produced by large radian needle. The curvature of needle in suture A5 is smaller than that in suture A1, the smaller the curvature of the needle, the greater the holding force generated by the corresponding barbed suture.
Conclusion Holding force of six kinds of non-absorbable barbed sutures were tested via bending model on silica gel artificial skin tissue. Under the same conditions, appropriately increasing the external expansion angle or cut depth, reducing the cut distance of the suture can improve the holding force of barbed sutures. The specification and structure of needle also have a certain effect on the holding force of barbed sutures. Under the same conditions, the holding force of round needle barbed suture is greater than that of triangular needle barbed suture. With the same radian, the larger the chord length of needle, the greater the holding force of barbed suture. With the same curvature, the larger the radian length, that is, the longer the chord length and needle length, the higher the holding force of barbed suture. With the same needle length, appropriate reduction of the curvature of needle can increase the holding force of barbed suture.

Key words: barbed suture, non-absorbable, grip force, tensile property, microstructure

中图分类号:

TS101.4

成悦, 左涵, 安琪, 李大伟, 张伟, 付译鋆. 非可吸收倒刺缝合线握持力及其影响因素[J]. 纺织学报, 2023, 44(06): 66-71.

CHENG Yue, ZUO Han, AN Qi, LI Dawei, ZHANG Wei, FU Yijun. Holding force of non-absorbable barbed sutures and its influencing factors[J]. Journal of Textile Research, 2023, 44(06): 66-71.

图/表 10

表1

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图2

图3

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表2

图5

图6

表3

图7

参考文献 15

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编号	直径D/mm	剪切角度θ/(°)	外括角θ'/(°)	剪切深度h/mm	剪切距离d/mm
缝合线A1	0.486±0.005	166.40±3.42	15.13±2.08	0.091±0.018	0.982±0.018
缝合线B	0.487±0.005	158.16±2.20	16.32±1.01	0.114±0.041	0.865±0.016

编号	断裂强力/N	断裂伸长率/%	初始模量/(N·mm^-1)
缝合线A1	22.40±0.85	15.38±2.37	1.32±0.20
缝合线B	23.53±4.92	19.42±2.67	0.77±0.07

非可吸收倒刺缝合线握持力及其影响因素

Holding force of non-absorbable barbed sutures and its influencing factors

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编号	针的形状	弧形	直径/ mm	弦长/ mm	针长/ mm
A1	三角形	1/2	0.9	17	26
A2	圆形	1/2	0.9	17	26
A3	三角形	1/2	0.9	23	36
A4	圆形	1/2	0.9	23	36
A5	三角形	3/8	0.9	20	26
B	三角形	1/2	0.9	17	26

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