Kim Jin-Cheol, Lee Yong-Keun, Lim Bum-Soon, Rhee Sang-Hoon, Yang Hyeong-Cheol
Department of Dental Biomaterials Science, Dental Research Institute, College of Dentistry, Seoul National University, 28 Yeongeon-dong, Jongro-gu, Seoul, Korea.
J Mater Sci Mater Med. 2007 Dec;18(12):2363-9. doi: 10.1007/s10856-007-3114-6. Epub 2007 Jun 14.
Sutures are classified into non-absorbable and absorbable, and mechanical properties of these materials vary by the composition. Knotting induces decrease in mechanical properties. The objective of this study was to measure the tensile and knot security properties depending on the type and caliber of sutures. Changes in properties after tensile loading were measured with absorbable sutures. Tensile properties such as maximum tensile load, elongation rate, stiffness and energy absorbed before breakage of seven kinds of surgical sutures were measured. Absorbable sutures were immersed in 37 degrees C Hank's balanced salt solution up to 14 days under the tensile load of 100 g/thread, and properties were measured again. Knot was formed with surgeon's knot method, and tensile properties were measured. Five specimens were tested for each condition. Values were analyzed with one- or two-way analysis of variance (alpha = 0.05). Maximum tensile load of seven sutures (caliber = 4-0) ranged from 10.0 N to 14.3 N. In non-absorbable sutures, the type of suture material influenced the tensile properties (P < 0.05). In absorbable sutures, the maximum tensile load after tensile loading decreased, which was significant in chromic catgut (CC). Knot security of seven sutures (caliber = 4-0) ranged from 8.7 N to 11.9 N. Type of non-absorbable suture influenced knot security (P < 0.05), and the synthetic monofilament materials showed a tendency to be untied easily. Since no single suture material possesses all of the requirements, proper type and caliber suture should be selected based on this study.
缝线分为不可吸收和可吸收两种,这些材料的机械性能因成分而异。打结会导致机械性能下降。本研究的目的是根据缝线的类型和口径测量其拉伸性能和打结安全性。对可吸收缝线测量拉伸加载后的性能变化。测量了七种手术缝线的最大拉伸载荷、伸长率、刚度和断裂前吸收的能量等拉伸性能。将可吸收缝线在100 g/线的拉伸载荷下于37℃的汉克平衡盐溶液中浸泡14天,然后再次测量性能。采用外科结法打结并测量拉伸性能。每种情况测试五个样本。数据用单因素或双因素方差分析(α = 0.05)。七种缝线(口径 = 4-0)的最大拉伸载荷范围为10.0 N至14.3 N。在不可吸收缝线中,缝线材料类型影响拉伸性能(P < 0.05)。在可吸收缝线中,拉伸加载后的最大拉伸载荷降低,铬制肠线(CC)中这种情况很显著。七种缝线(口径 = 4-0)的打结安全性范围为8.7 N至11.9 N。不可吸收缝线的类型影响打结安全性(P < 0.05),合成单丝材料有容易松开的趋势。由于没有单一的缝线材料能满足所有要求,应根据本研究选择合适类型和口径的缝线。
