骨内生长和附着强度的进展对经皮骨整合假体的稳定性的影响。

Progression of bone ingrowth and attachment strength for stability of percutaneous osseointegrated prostheses.

机构信息

Bone and Joint Research Laboratory, George E. Wahlen Department of Veterans Affairs Medical Center, Veterans Affairs Salt Lake City Health Care System, 500 Foothill Drive, Salt Lake City, UT, 84148, USA.

出版信息

Clin Orthop Relat Res. 2014 Oct;472(10):2957-65. doi: 10.1007/s11999-013-3381-0.

DOI:10.1007/s11999-013-3381-0

PMID:24258685

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4160472/

Abstract

BACKGROUND

Percutaneous osseointegrated prosthetic (POP) devices have been used clinically in Europe for decades. Unfortunately, their introduction into the United States has been delayed, in part due to the lack of data documenting the progression of osseointegration and mechanical stability.

QUESTIONS/PURPOSES: We determined the progression of bone ingrowth into porous-coated POP devices and established the interrelationship with mechanical stability.

METHODS

After amputation, 64 skeletally mature sheep received a custom porous-coated POP device and were then randomized into five time groups, with subsequent measurement of percentage of bone ingrowth into the available pore spaces (n = 32) and the mechanical pullout force (n = 32).

RESULTS

Postimplantation, there was an accelerated progression of bone ingrowth (~~48% from 0 to 3 months) producing a mean pullout force of 5066 ± 1543 N. Subsequently, there was a slower but continued progression of bone ingrowth (~~23% from 3 to 12 months) culminating with a mean pullout force of 13,485 ± 1855 N at 12 months postimplantation. There was a high linear correlation (R = 0.94) between the bone ingrowth and mechanical pullout stability.

CONCLUSIONS

This weightbearing model shows an accelerated progression of bone ingrowth into the porous coating; the amount of ingrowth observed at 3 months after surgery within the porous-coated POP devices was sufficient to generate mechanical stability.

CLINICAL RELEVANCE

The data document progression of bone ingrowth into porous-coated POP devices and establish a strong interrelationship between ingrowth and pullout strength. Further human data are needed to validate these findings.

摘要

背景

经皮骨整合假体（POP）设备在欧洲已临床应用数十年。不幸的是，它们在美国的引入被推迟了，部分原因是缺乏记录骨整合和机械稳定性进展的数据。

问题/目的：我们确定了多孔涂层 POP 设备中骨向内生长的进展，并建立了与机械稳定性的相互关系。

方法

截肢后，64 只骨骼成熟的绵羊接受了定制的多孔涂层 POP 设备，然后随机分为五个时间组，随后测量可用孔隙空间中骨向内生长的百分比（n = 32）和机械拔出力（n = 32）。

结果

植入后，骨向内生长的速度加快（0 至 3 个月时约为 48%），产生的平均拔出力为 5066 ± 1543 N。随后，骨向内生长的速度较慢但持续，3 至 12 个月时约为 23%，植入后 12 个月时平均拔出力为 13485 ± 1855 N。骨向内生长和机械拔出稳定性之间存在高度线性相关性（R = 0.94）。

结论

这个负重模型显示了多孔涂层中骨向内生长的加速进展；手术后 3 个月多孔涂层 POP 设备中观察到的向内生长量足以产生机械稳定性。

临床相关性

这些数据记录了多孔涂层 POP 设备中骨向内生长的进展，并建立了向内生长和拔出强度之间的紧密关系。需要进一步的人体数据来验证这些发现。

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