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植皮片中神经再支配和血流模式。

Patterns of reinnervation and blood flow in split-skin grafts.

作者信息

Juma A, Oudit D, Ellabban M

机构信息

Countess of Chester Foundation Hospital, Chester;

出版信息

Can J Plast Surg. 2005 Fall;13(3):133-7. doi: 10.1177/229255030501300305.

Abstract

One of the most important functions of skin is thermoregulation. The alterations in the patterns of blood flow in skin is one of the main physiological processes responsible for thermoregulatory control. The mechanisms governing the thermoregulatory control of cutaneous blood flow are mainly neural and chemical in nature. At present, there is a lack of studies in the literature looking at the relationship between reinnervation and the blood flow pattern of skin grafts. The present study uses Laser Doppler flowmetry and the immunohistochemical stains protein gene product 9.5, calcitonin gene-related peptide and substance P to identify nerve fibres, and antibodies to CD31 and von Willebrand factor to identify endothelial tissues. The aim of the present study was to investigate the patterns of blood flow and nerve tissue regeneration in split-skin grafts up to 15 years following the original procedure. Thirty-two split-skin grafts were studied and these were placed into two groups based on the nature of the bed of excision: group I consisted of patients who underwent tangential excision and split-skin grafting (n=17), and group II consisted of patients with split-skin grafts placed onto fascial beds (n=15). Each subpopulation of patients was further divided into three groups based on the length of time following grafting: one to three years, four to six years and seven to 15 years. These divisions were arbitrarily chosen and called A1, A2 and A3, respectively. In the Laser Doppler flowmetry arm of the study, the grafts were assessed at various stages after heating, cooling and further reheating. The Laser Doppler flowmetry studies showed that, on subjecting the skin grafts in both groups I and II to heating and cooling followed by reheating, the overall response of the blood flow to changes in the temperature was slower. The immunohistochemical analysis showed that in all graft types and graft ages, protein gene product 9.5, calcitonin gene-related peptide and substance P stains demonstrated a relative lack of the presence of nerve fibres in the split-skin grafts compared with the control ('normal' skin). However, von Willebrand factor and CD31 immunological staining demonstrated that vessels were present in the split-skin grafts, with no significant difference in size or quantity from the control samples. It was found that the blood flow in the split-skin graft in response to thermal challenge, although present, was slower than that of normal skin, a finding which was independent of the age of the skin graft. It is thought that this was related to a lack of regeneration of nerve fibres and, hence, a deficiency in the neurally mediated reflexes of the blood vessels within the split-skin grafts.

摘要

皮肤最重要的功能之一是体温调节。皮肤血流模式的改变是负责体温调节控制的主要生理过程之一。控制皮肤血流体温调节的机制主要是神经和化学性质的。目前,文献中缺乏关于神经再支配与皮肤移植血流模式之间关系的研究。本研究使用激光多普勒血流仪以及免疫组织化学染色蛋白基因产物9.5、降钙素基因相关肽和P物质来识别神经纤维,并用抗CD31和血管性血友病因子的抗体来识别内皮组织。本研究的目的是调查在原手术15年内的断层皮片中的血流模式和神经组织再生情况。研究了32个断层皮片,并根据切除床的性质将其分为两组:第一组由接受削痂和断层皮片移植的患者组成(n = 17),第二组由断层皮片置于筋膜床上的患者组成(n = 15)。每组患者根据移植后的时间长度进一步分为三组:1至3年、4至6年和7至15年。这些分组是任意选择的,分别称为A1、A2和A3。在该研究的激光多普勒血流仪部分,在加热、冷却和再次加热后的不同阶段对皮片进行评估。激光多普勒血流仪研究表明,对第一组和第二组的皮肤移植进行加热、冷却然后再加热时,血流对温度变化的总体反应较慢。免疫组织化学分析表明,在所有移植类型和移植年龄中,与对照(“正常”皮肤)相比,断层皮片中蛋白基因产物9.5、降钙素基因相关肽和P物质染色显示神经纤维相对缺乏。然而,血管性血友病因子和CD31免疫染色表明断层皮片中存在血管,其大小或数量与对照样品无显著差异。研究发现,断层皮片对热刺激的血流虽然存在,但比正常皮肤慢,这一发现与皮肤移植的年龄无关。据认为,这与神经纤维再生不足有关,因此与断层皮片内血管的神经介导反射缺陷有关。

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