一种在脊髓损伤大鼠模型中产生不同严重程度压疮的非侵入性方法。

A non-invasive method to produce pressure ulcers of varying severity in a spinal cord-injured rat model.

作者信息

Ahmed A K, Goodwin C R, Sarabia-Estrada R, Lay F, Ansari A M, Steenbergen C, Pang C, Cohen R, Born L J, Matsangos A E, Ng C, Marti G P, Abu-Bonsrah N, Phillips N A, Suk I, Sciubba D M, Harmon J W

机构信息

Department of Surgery and Hendrix Burn/Wound Laboratory, The Johns Hopkins University School of Medicine, Baltimore, MD, USA.

Department of Neurosurgery, The Johns Hopkins University School of Medicine, Baltimore, MD, USA.

出版信息

Spinal Cord. 2016 Dec;54(12):1096-1104. doi: 10.1038/sc.2016.61. Epub 2016 Jun 21.

DOI:10.1038/sc.2016.61

PMID:27324319

Abstract

STUDY DESIGN

Experimental study.

OBJECTIVES

The objective of this study was to establish a non-invasive model to produce pressure ulcers of varying severity in animals with spinal cord injury (SCI).

SETTING

The study was conducted at the Johns Hopkins Hospital in Baltimore, Maryland, USA.

METHODS

A mid-thoracic (T7-T9) left hemisection was performed on Sprague-Dawley rats. At 7 days post SCI, rats received varying degrees of pressure on the left posterior thigh region. Laser Doppler Flowmetry was used to record blood flow. Animals were killed 12 days after SCI. A cardiac puncture was performed for blood chemistry, and full-thickness tissue was harvested for histology.

RESULTS

Doppler blood flow after SCI prior to pressure application was 237.808±16.175 PFUs at day 7. Following pressure application, there was a statistically significant decrease in blood flow in all pressure-applied groups in comparison with controls with a mean perfusion of 118.361±18.223 (P<0.001). White blood cell counts and creatine kinase for each group were statistically significant from the control group (P=0.0107 and P=0.0028, respectively).

CONCLUSIONS

We have created a novel animal model of pressure ulcer formation in the setting of a SCI. Histological analysis revealed different stages of injury corresponding to the amount of pressure the animals were exposed to with decreased blood flow immediately after the insult along with a subsequent marked increase in blood flow the next day, conducive to an ischemia-reperfusion injury (IRI) and a possible inflammatory response following tissue injury. Following ischemia and hypoxia secondary to microcirculation impairment, free radicals generate lipid peroxidation, leading to ischemic tissue damage. Future studies should be aimed at measuring free radicals during this period of increased blood flow, following tissue ischemia.

摘要

研究设计

实验性研究。

目的

本研究的目的是建立一种非侵入性模型，用于在脊髓损伤（SCI）动物中产生不同严重程度的压疮。

地点

该研究在美国马里兰州巴尔的摩的约翰霍普金斯医院进行。

方法

对Sprague-Dawley大鼠进行胸中段（T7-T9）左侧半横断。脊髓损伤后7天，大鼠左侧后大腿区域接受不同程度的压力。使用激光多普勒血流仪记录血流。脊髓损伤后12天处死动物。进行心脏穿刺以检测血液化学指标，并采集全层组织进行组织学检查。

结果

脊髓损伤后7天，施加压力前的多普勒血流为237.808±16.175 PFUs。施加压力后，与对照组相比，所有施加压力组的血流均有统计学意义的下降，平均灌注为118.361±18.223（P<0.001）。每组的白细胞计数和肌酸激酶与对照组相比有统计学意义（分别为P=0.0107和P=0.0028）。

结论

我们在脊髓损伤的背景下创建了一种新型的压疮形成动物模型。组织学分析显示，损伤的不同阶段与动物所承受的压力量相对应，损伤后立即出现血流减少，随后第二天血流显著增加，这有利于缺血再灌注损伤（IRI）以及组织损伤后的可能炎症反应。继微循环障碍导致的缺血缺氧后，自由基产生脂质过氧化，导致缺血组织损伤。未来的研究应旨在测量组织缺血后血流增加期间的自由基。

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一种在脊髓损伤大鼠模型中产生不同严重程度压疮的非侵入性方法。

A non-invasive method to produce pressure ulcers of varying severity in a spinal cord-injured rat model.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

SETTING

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

地点

方法

结果

结论

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