Hans Christian Rasmussen, Maya Bang, Johanne Gade Lilleøre, Josephine Olsen Kipp, Lars Lindgren, Annemarie Brüel, Mats Bue, Mads Kristian Duborg Mikkelsen, Jesper Skovhus Thomsen, Maiken Stilling
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引用次数: 0
Abstract
Purpose
Documentation of the wrist stabilizing effect and mechanical properties of common splinting materials is warranted to support evidence-based condition-specific recommendations for wrist immobilization. The objectives of this study were to assess the wrist stabilizing properties of volar and dorsal short-arm splints made of four different materials and evaluate the mechanical properties of the splinting materials.
Methods
Dorsal and volar short arm splints made of plaster of Paris (PoP) (eight layers), Woodcast (2 mm, rigid vented), X-lite (classic, two layers) or a 3D-printed material (polypropylene) were sequentially mounted on 10 cadaveric arm specimens and fixed in a radiolucent fixture. This enabled the evaluation of maximum wrist flexion and extension relative under an orthogonal load of 42 N via radiographic images. In addition, a three-point bending test was performed on ten sheet duplicates of each of the four splinting materials.
Results
When applied as a volar splint, PoP had the highest capability to resist wrist flexion and extension. However, when applied as a dorsal splint, Woodcast exhibited a lower wrist flexion and a similar wrist extension. The 3D-printed splints—both volar and dorsal—showed the highest mean wrist flexion and extension. The mechanical properties of the Woodcast, X-lite and 3D-printed splinting materials were very similar. PoP exhibited distinct properties with a stiffness of 146 (95% confidence interval [CI]: 120–173) N/mm and a deflection at Fmax of 0.6 (95% CI: 0.5–0.7) mm compared to ≤7.7 (95% CI: 7.4–7.9) N/mm and ≥20 (95% CI: 18–22) mm for the other materials.
Conclusion
PoP displayed better wrist stabilizing properties and material stiffness than Woodcast, X-lite and 3D-printed polypropylene. When considering wrist stabilizing properties, PoP may still prove to be the preferred choice for wrist immobilization.
目的:有必要对常见夹板材料的腕部稳定效果和机械性能进行记录,以支持针对腕部固定的循证建议。本研究的目的是评估由四种不同材料制成的短臂背侧夹板的腕部稳定特性,并评估夹板材料的机械特性:方法:将由巴黎石膏(PoP)(八层)、Woodcast(2 毫米,硬质通风)、X-lite(经典,两层)或 3D 打印材料(聚丙烯)制成的短臂背侧和侧臂夹板依次安装在 10 个尸体手臂标本上,并固定在放射透视夹具中。这样就能通过放射影像评估在 42 N 的正交负荷下腕关节的最大屈伸相对值。此外,还对四种夹板材料中的每种材料的十张复制品进行了三点弯曲测试:结果表明:当作为腕部夹板使用时,PoP 的抗腕关节屈伸能力最强。然而,当作为背侧夹板使用时,Woodcast 的腕关节屈曲能力较低,腕关节伸展能力与之相似。3D打印夹板--无论是伏侧夹板还是背侧夹板--显示出最高的平均腕关节屈伸能力。Woodcast、X-lite 和 3D 打印夹板材料的机械性能非常相似。PoP显示出与众不同的特性,其硬度为146(95%置信区间[CI]:120-173)牛顿/毫米,F最大值时的挠度为0.6(95%置信区间:0.5-0.7)毫米,而其他材料的硬度≤7.7(95%置信区间:7.4-7.9)牛顿/毫米,挠度≥20(95%置信区间:18-22)毫米:与 Woodcast、X-lite 和 3D 打印聚丙烯相比,PoP 显示出更好的腕部稳定特性和材料刚度。在考虑腕部稳定特性时,PoP仍可能被证明是腕部固定的首选:证据等级:不适用。
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