Microvascular transfer-related abrogation of capillary flow motion in critically reperfused composite flaps

Capillary flow motion is defined as rhythmic fluctuations of blood flow in the capillaries. Although critical perfusion has been demonstrated to induce capillary flow motion, little is known about the role of capillary flow motion in microvascular free flaps. The aim of this study was to elucidate t...

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Bibliographic Details
Published in:British journal of plastic surgery 2002-03, Vol.55 (2), p.129-135
Main Authors: Rücker, Martin, Spitzer, Wolfgang J., Vollmar, Brigitte, Menger, Michael D., Roesken, Frank
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Bone Transplantation - methods
Capillaries - pathology
Capillaries - physiopathology
flow motion
intravital fluorescence microscopy
ischaemia-reperfusion
Medical sciences
microcirculation
Microscopy, Fluorescence
Muscle, Skeletal - blood supply
Muscle, Skeletal - transplantation
osteomyocutaneous flap
Pulsatile Flow
Rats
Rats, Wistar
Reperfusion Injury - physiopathology
Skin - blood supply
Skin plastic surgery
Skin Transplantation - methods
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Surgical Flaps - blood supply
Surgical Flaps - innervation
transfer
Vascular surgery: aorta, extremities, vena cava. Surgery of the lymphatic vessels
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Summary:Capillary flow motion is defined as rhythmic fluctuations of blood flow in the capillaries. Although critical perfusion has been demonstrated to induce capillary flow motion, little is known about the role of capillary flow motion in microvascular free flaps. The aim of this study was to elucidate the tissue-confined incidence and consequence of capillary flow motion in microvascularly transferred composite flaps, using intravital fluorescence microscopy. In Wistar rats, transferred osteomyocutaneous flaps ( n=7), which were exposed to 1 h of ischaemia during the anastomotic procedure followed by 1 h of reperfusion, were subjected to critical perfusion by stepwise reduction of the femoral-artery blood flow to 0.15 ml min −1, 0.10 ml min −1 and 0.05 ml min −1. Pedicled osteomyocutaneous flaps that were not subjected to ischaemia ( n=8) served as controls. In pedicled flaps critical perfusion induced capillary flow motion in the muscle, but not in the skin, subcutis and periosteum. In these flaps, the functional capillary density was preserved in all tissues analysed, including the skeletal muscle. Additional sympathetic denervation of the pedicled flaps did not change the incidence or pattern of capillary flow motion. In contrast, after flap transfer capillary flow motion in muscle tissue did not occur during critical perfusion. As a consequence, a shutdown of perfusion of individual capillaries was observed, resulting in a significant reduction ( P
ISSN:0007-1226
1465-3087
DOI:10.1054/bjps.2001.3748