During apt. 1986 to Dec. 1988. the axial flap methodwas used for the treatment of the congenital blakker exstro-phy. The preliminary is reported in this paper. This group in-cluded 10 patients, 4 men and 6 women, and their agesranged from 4 to 20. Seven patients had experienced 1-3 op-erations with failure to repair the exstrophy or to urinarycontinence before admission to our hospetal. Using the axialflap method only 1 in 10 cases can not control the urinationwell, the others achive well the requcirement of functional bladder. The longest follow-up pcriod has lasted for more than 2 years. and the renal and bladder function ars completely normal. the axial flaps of the present method included skin flap, facial and vascular pedicles of 8 types. The application of the flaps has developed a new serjies of procedures that ars suitable for the treatmen of a varicty of extrophy deformities.
OBJECTIVE: To study the effect of color doppler flow imaging(CDFI) technique in the design of axial pattern flap. METHODS: From April 1996 to June 1999, 10 patients with residual wound were adopted in this study. Among them, there were seven males and three females, the area of wounds ranged from 6 cm x 8 cm to 15 cm x 20 cm. Before operation, the axial pattern flaps were designed by traditional method, then CDFI technique with high frequency(5.0-7.5 MHz) was used for examining the major supply artery of the flap. At last, the modified flaps were transferred to cover the wounds. RESULTS: All the patients except one case completed the operation successfully. The cosmetic and function of the flaps were excellent. CONCLUSION: CDFI is a simple, direct and accurate method for detecting the supply artery of axial pattern flap. This technique should be popularized to avoid the blindness of flap design.
OBJECTIVE: To explore the importance of the posterior and lateral arterial network of elbow in the application of the super-regional and mutual-pedicled axial flap. METHODS: Twenty-seven upper extremities of adult cadavers were prepared as casts of Acrylomintril Batradiene Styrene(ABS) resin and corroded in a b solution of NaOH according to natural layers of human tissue. The source, site and structure of the posterior and lateral arterial network of elbow were observed, the number and total sectional area of anastomosing branches crossing the line between two humeral epicondyles were measured and compared with the medial and anterior region. RESULTS: There are 8.64 +/- 2.74(36.42%) and 8.30 +/- 1.19(35.0%) anastomosing branches crossing the posterior and lateral regions, and total section areas are (0.48 +/- 0.11) mm2 and (0.37 +/- 0.03) mm2 respectively. So there is very rich arterial network around the elbow. CONCLUSION: The enough number of anastomosing branches and their section areas of the posterior and lateral region of the elbow make it possible to connect super-regional and mutual-pedicled axial flaps crossing the elbow.
The ulcer resulting from snake-bite injury was characterized by deep and wide tissue necrosis and secondary infection. The patient was at high risk of loss of function of his extremity. From 1989 to 1996, 16 cases with deep ulcer of the upper extremity resulting from snake-bite injury were treated with different types of axial thoraco-abdominal skin flaps, depending on the location of the ulcer. Thoraco-umbilical skin flap was used in 2 cases, lateral thoracoabdominal skin flap in 1 case, iliolumbar skin flaps in 5 cases, lower abdominal skin flaps in 6 cases, lower abdominal divided foliated skin flap in 1 case and Y-shaped hypogastric skin flap in 1 case. Reparative operation was carried out within 3 weeks after injury and primary repair were undertaken in 6 of them. The pedicles were divided in 17 to 24 days after operation. Twelve flaps survived. Three of the 6 flaps had mild signs of inflammation which disappeared after administration of antibiotics. One had necrosis of the distal part of the flap, and was healed with split skin graft. This type of skin flap was an ideal method for the treatment of snake-bite injury of the upper extremity.
Abstract In order to have more selective sources of skin flaps to repair soft tissue defects, the prefabricated flap combining with skin expander was tried. Implanted the dorsal thoracic artery and vein with a muscle bundle of latissimus dorsi into the lateral thoracic wall subdermally andset a skin expander subcutaneously. Injected saline into the expander to inflate the flap gradually. In a month, an axial flap with the dorsal thoracic vesselswas prepared. the flap was transferred to the defect by vascular anastomosis technique. This method was applied in two cases, one to the left ankle, another to the left side of the neck. The sizes of the two flaps were 20cm×14cmand 22cm×15cm respectively. After operation, the flaps were alive completely. The advantages included selective source of vascular pedicle, thinpliable flap with enough blood supply, and direct closure of the donor site without skin graft.
The first dorsal metacarpal vascular axial skin flap ofsixty adults were measured by the surface-projectingmethod. The line from the styloid process of the radius to thehead of the second metacarpal bone was designed as the sru-face signs. The result revealed that the surface projection ofthe artery was 0. 5cm lateral to the connecting line,and mostof them were situated at 4-8cm distal to the styloid processof the radius. How to obtain the skin flap quickly ,accurate-ly,approxiately and its application in the hand jnjury were investigated.
Objective To research the effects of vascular endothelial growth factor (VEGF) on the survival of reverse flow axial skin flaps. Methods A 8 cm×2 cm full thickness transverse dorsal flap based on right deep circumflex iliacartery was elevated in 20 SpragueDawley rats, which length crossing midline was 4.0 cm. The rats were randomized into two groups:experimental group (n=10), subcutaneous VEGF injections into the flap (200 ng, 200 μl) after flap elevation; controlgroup (n=10), subcutaneous saline injections into the flap (200 μl) after flap elevation. The flap was immediately sutured to its recipient beds then the injection was executed. Seven days after operation, the survival area of flaps and density of vessels were observed and measured, meanwhile its histological representation of the flaps was examined. Results After 7 days of recovery, the mean survival area of flaps was 15.55±0.27 cm2 in experimental group and 13.42±0.57 cm2 in control group. The difference was significant between experimental group and control group (P<0.01). The mean vessel density of flaps was 21.00±3.16 in control group and 34.40±3.75 in experimental group. The difference was significant between experimental group and control group (P<0.01). Histological analysis demonstrated that a qualitatively greater amount of granulation tissue, regular collagen fiber and a lot of fibrillated cells were observed in experimental group. Erythrocytes were leaked outfrom vessels, and inflammatory cells were observed around in control group. Conclusion In early survival of flaps, the VEGF can improve the survival of areverse flow axial skin flap through improving angiogenesis and increasing the perfusion of vessel. It is an effective method of improving the survival of reverse flow axial skin flaps that VEGF is fully injected in subcutaneous flaps by single, when flaps are elevated.
To explore the effects of tissue expansion on the anastomoses and the survival of the axial pattern flap with a crossing area supply so as to improve the survival of crossing area axial pattern flap and to provide a new idea for the development of original crossing area axial flap. Methods The experiment included two parts. Experiment A was divided into expansion group and control group. Square flaps were randomly designed on own control bilaterally in each animal with a boundary of midl ine. Experiment B was divided into expansion group and delay group. The flaps were also randomly designed on own control bilaterally. Angiographic analysis and gross survival observation were carried on. Results ExperimentA: Angiography showed that there were abundant anastomoses with big cal iber between deep il iac circumflex artery and superior epigastric artery in expansion group and there were only 3-4 anastomoses in control group. Experiment B: Angiography showed that there were abundant anastomoses with big cal iber in expansion group and there were two arterial systems with relatively less anastomoses and smaller cal iber in delay group. The survival rates in expansion group was significantly higher than that in the control group (90.16% ± 3.61% vs 72.67% ± 5.35%) in experiment A, and in experiment B the survival rate was 92.08% ± 3.30% in the expansion group and 80.79% ± 4.52% in the delay group, showing significant difference (P lt; 0.01). Conclusion Expansi on prefabrication can and improve the survival of the crossing area supply axial pattern flap. The mechanism is the bridging effect.
The parumblical axial skin flap contained leap the parumbilical perforating branch of the inferiorle expigastic artery in its pedicle. It was designed to treat the scaring wounds of the upper limb in 5 patients with success. In the five patients, the scar on the dorsal aspect of the hand in 2, over the elbow in 1, on the palmar aspect in 1 and wound over the elbow in 1. The size of the flap ranged form 23 cm x 10 cm to 16 cm x 7 cm. The pedicle of the flap was made a tube. The limb was immobilized by plasten of paris after operation. All of the flaps were survived. The pedicle was divided at the hird week postoperation. The vascular supply of the flap was constant. The operation was also easy. This flap was feasible for the repair of the scar or wound of the hand, wrist, forearm, and, especially the elbow.