带蒂背阔肌肌瓣的局部灌注与氧合:游离和电刺激的影响
Regional perfusion and oxygenation in the pedicled latissimus dorsi muscle flap: the effect of mobilisation and electrical stimulation.
作者信息
Barron D J, Etherington P J, Winlove C P, Pepper J R
机构信息
Department of Cardiac Surgery, National Heart and Lung Institute, London, UK.
出版信息
Br J Plast Surg. 1997 Sep;50(6):435-42. doi: 10.1016/s0007-1226(97)90331-3.
BACKGROUND
The pedicled latissimus dorsi muscle flap is dependent upon an adequate blood supply via a single nutrient artery arising at its most proximal point. It has been suggested that when the latissimus dorsi muscle is used for cardiomyoplasty there is a risk of ischaemic damage to the distal regions of the flap under the additional metabolic stress of repeated electrical stimulation.
METHODS
A rabbit model was developed in which the latissimus dorsi muscle was raised as a pedicled flap (n = 10). Needle microelectrodes were used to measure oxygenation and perfusion simultaneously in different regions of the muscle. Perfusion was measured using a gas tracer technique in which nitrous oxide was used as the marker. Muscle performance was measured by electrical stimulation of the mobilised flap.
RESULTS
The mean (standard error) perfusion of the distal muscle fell significantly from 19.5 (6.2) to 11.9 (3.8) ml.min-1 100 g-1 (P < 0.05) as a consequence of mobilisation, although tissue oxygenation was maintained. Perfusion and pO2 of the proximal regions of the flap were unchanged. During electrical stimulation perfusion increased by 72 (12)% from resting levels in the proximal region, but by only 39 (8)% in the distal muscle. Tissue pO2 decreased during stimulation by 5.7 (1.8) mmHg proximally compared to 11.7 (3.7) mmHg distally P < 0.05). During recovery the pO2 remained below baseline for 24 minutes in the proximal muscle compared to 32 minutes in the distal muscle.
CONCLUSIONS
Mobilisation results in a reduction in the perfusion of distal areas of the latissimus dorsi muscle flap. During repeated contraction the perfusion remains reduced and is unable to maintain tissue oxygen requirements. This has implications for dynamic applications of the latissimus dorsi muscle flap and supports the suggestion that ischaemia is the cause of distal muscle atrophy and fibrosis in cardiomyoplasty. Combined perfusion and pO2 data provide a new insight into muscle viability studies.
背景
带蒂背阔肌肌瓣依赖于发自其最近端的单一营养动脉提供充足的血液供应。有人提出,当背阔肌用于心肌成形术时,在反复电刺激带来的额外代谢应激下,肌瓣远端区域存在缺血性损伤的风险。
方法
建立了一个兔模型,将背阔肌作为带蒂肌瓣掀起(n = 10)。使用针状微电极同时测量肌肉不同区域的氧合和灌注情况。灌注采用气体示踪技术测量,其中一氧化二氮用作标记物。通过对游离肌瓣进行电刺激来测量肌肉性能。
结果
尽管组织氧合得以维持,但由于游离操作,肌瓣远端肌肉的平均(标准误)灌注量从19.5(6.2)显著降至11.9(3.8)ml·min⁻¹·100g⁻¹(P < 0.05)。肌瓣近端区域的灌注和pO₂未发生变化。在电刺激期间,近端区域的灌注量较静息水平增加了72(12)%,而远端肌肉仅增加了39(8)%。刺激期间,近端组织pO₂下降了5.7(1.8)mmHg,而远端下降了11.7(3.7)mmHg(P < 0.05)。恢复期间,近端肌肉的pO₂在24分钟内保持低于基线水平,而远端肌肉则为32分钟。
结论
游离操作导致背阔肌肌瓣远端区域的灌注减少。在反复收缩期间,灌注量持续降低,无法维持组织的氧需求。这对背阔肌肌瓣的动态应用具有影响,并支持了缺血是心肌成形术中远端肌肉萎缩和纤维化原因的观点。灌注和pO₂数据相结合为肌肉活力研究提供了新的见解。
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