基于热积累和骨热坏死风险检查的孔间距和骨钻时间延迟的空间距离的影响。

The effect of spatial distances between holes and time delays between bone drillings based on examination of heat accumulation and risk of bone thermal necrosis.

机构信息

Department of Biomedical Engineering, Islamic Azad University-North Tehran Branch, P.O.B. 1651153311, Tehran, Iran.

Department of Manufacturing Engineering, Islamic Azad University-North Tehran Branch, Tehran, Iran.

出版信息

Biomed Eng Online. 2019 May 24;18(1):65. doi: 10.1186/s12938-019-0686-6.

DOI:10.1186/s12938-019-0686-6

PMID:31126308

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6534826/

Abstract

BACKGROUND AND OBJECTIVE

This study was designed to investigate heat accumulation and bone thermal necrosis for various distances between holes and time delays between drillings.

METHODS

The tests were performed at three distances (6, 12, 16 mm) and three time delays: 0, 5 and 10 s. To examine the efficiency of coolants, CO coolant was also tested in addition to two common cooling modes in bone drilling.

RESULTS

The main results were the trend of temperature-time graph, maximum temperature at drilling site, temperature distribution on the surface of drilling site, temperature durability and returning time. The effect of lateral drillings on the initial hole was notable in drilling at a distance of 6 mm without cooling. This effect did not disappear even by increasing the time delay up to 10 s. The results obtained for drilling with normal saline coolant were not sufficiently acceptable due to the manual and non-uniform cooling process as well as the relative obstruction of the chips exit path. Generally, drillings with two common cooling modes, even when the distances between holes and time delays between drillings were controlled, did not yield all favorable conditions for preventing bone thermal necrosis.

CONCLUSION

Bone drilling using CO coolant eliminates the risk of bone thermal necrosis completely even in cases that the distances between holes in plates or implants are 6 mm and there is no time delay between drillings. These results can be especially useful in emergency orthopedic surgeries and for designing the location of screw holes in implants and plates.

摘要

背景与目的

本研究旨在探讨不同孔距和钻间隔时间下的热量积累和骨热坏死情况。

方法

在三个距离（6、12、16mm）和三个钻间隔时间（0、5 和 10s）下进行了测试。为了检验冷却剂的效率，除了骨钻中两种常见的冷却模式外，还测试了 CO 冷却剂。

结果

主要结果是温度-时间图的趋势、钻孔处的最高温度、钻孔处表面的温度分布、温度耐久性和恢复时间。在没有冷却的情况下，距离为 6mm 的侧向钻孔对初始孔的影响显著。即使将钻间隔时间延长至 10s，这种影响也不会消失。由于手动和非均匀的冷却过程以及切屑出口路径的相对阻塞，生理盐水冷却剂的钻孔结果不够令人满意。通常，即使控制了孔距和钻间隔时间，两种常见冷却模式的钻孔也不能为防止骨热坏死提供所有有利条件。

结论

即使在板或植入物之间的孔距为 6mm 且无钻间隔时间的情况下，使用 CO 冷却剂进行骨钻可完全消除骨热坏死的风险。这些结果在紧急骨科手术中以及设计植入物和板上螺钉孔的位置时特别有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc66/6534826/5ff2f763fe64/12938_2019_686_Fig1_HTML.jpg

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基于热积累和骨热坏死风险检查的孔间距和骨钻时间延迟的空间距离的影响。

The effect of spatial distances between holes and time delays between bone drillings based on examination of heat accumulation and risk of bone thermal necrosis.

机构信息

出版信息

BACKGROUND AND OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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