The applied anatomy and clinical application were described in this paper. The blood supply of this flap was based on the second dorsal metacarpal artery. It gave some advantages of as easy of application, safe and reliable. Since November 1990, we had successfully used six such flaps in covering the soft tissue defects of the hand.
OBJECTIVE To repair facial and neck scar using tissue expanding technique. METHODS From January 1991 to January 1995, 16 cases with facial and neck scar were treated. Multiple tissue expanders were put under the normal skin of facial and neck area, after being fully expanded, the scars were excised and the expended skin flaps were transplanted to cover the defects. The size and number of tissue expanders were dependent on the location of the scars. Normally, 5 to 6 ml expanding volume was needed to repair 1 cm2 facial and neck defect. The incisions should be chosen along the cleavage lines or in the inconspicuous area, such as the nasolabial fold or submandibular region. The design of flap was different in the face and in the neck. In the face, direct advanced flap was most common used, whereas in the neck, transposition flap was often used. Appropriate tension was needed to achieve smooth and cosmetic effect. It was compared the advantages and disadvantages of several methods for repair of the defect after facial and neck scar excision. RESULTS Fifteen cases had no secondary deformity after scar excision. Among them, 1 case showed blood circulation disturbance and cured through dressing change. Ten cases were followed up and showed better color and texture in the flap, and satisfactory appearances. CONCLUSION Tissue expanding technique is the best method for the repair of facial and neck scar, whenever there is enough expandable normal skin.
Objective To observe the differences in protein contents of three transforming growth factorbeta(TGF-β) isoforms, β1, β2, β3 andtheir receptor(I) in hypertrophic scar and normal skin and to explore their influence on scar formation. Methods Eight cases of hypertrophic scar and their corresponding normal skin were detected to compare the expression and distribution of TGF-β1, β2, β3 and receptor(I) with immunohistochemistry and common pathological methods. Results Positive signals of TGF-β1, β2, and β3 could all be deteted in normal skin, mainly in the cytoplasm and extracellular matrix of epidermal cells; in addition, those factors could also be found in interfollicular keratinocytes and sweat gland cells; and the positive particles of TGF-β R(I) were mostly located in the membrane of keratinocytes and some fibroblasts. In hypertrophic scar, TGF-β1 and β3 could be detected in epidermal basal cells; TGFβ2 chiefly distributed in epidermal cells and some fibroblast cells; the protein contents of TGF-β1 and β3 were significantly lower than that of normal skin, while the change of TGF-β2 content was undistinguished when compared withnormalskin. In two kinds of tissues, the distribution and the content of TGF-β R(I) hadno obviously difference. ConclusionThe different expression and distribution of TGF-β1, β2 andβ3 between hypertrophic scar and normal skin may beassociated with the mechanism controlling scar formation, in which the role of the TGF-βR (I) and downstream signal factors need to be further studied.
Superficial cervical artery skin flap is widely used in clinical practice. In order to inprove the outcome of the flap in clinic, eleven cases of skin defect of scalp who were treated with the flap was discussed. After operation, the donor area healed but there was no hair growth on recipient area. Among them, six cases occurred partial necrosis of skin flaps. In order to avoid these problen, the relevant solution discussed as follows: 1. Handle well the pedicle of the skin flap to prevent the interference with venous returm. 2. Adhere strictly to indications. 3. Apply skin expander to obtain "extra" skin, then carryout the tranfer of skin flap and 4. Better use the skin flap with residual hair.
The soft-tissue-cutaneous flap adjacent to the abdominal incisional hernia was ultilized to repair huge hernia in 6 cases with success. Patients were followed up for 2y7 years without recurrence. The operative planning, the technique and the matters needing attention were introduced in details. The soft tissues and skin adjacent to hernia used for repair was easy to obtain and a simple technique. The adoption of this operation in hospitals at the grassroots level was feasible.
OBJECTIVE: To explore an effective method to repair the abdominal wall defect. METHODS: From July 1996 to December 2000, 7 cases with abdominal wall defect were repaired by pedicle graft of intestine seromuscular layer and skin graft, among them, intestinal fistula caused by previous injury during operation in 4 cases, abdominal wall defect caused by infection after primary fistulization of colon tumor in 2 cases, abdominal wall invaded by intestinal tumor in 1 case. Exploratory laparotomy was performed under general anesthesia, the infective and edematous tissue around abdominal wall defect was gotten rid off, and the pathologic intestine was removed. A segment of intestine with mesentery was intercepted, and the intestine along the longitudinal axis offside mesentery was cutted, the mucous layer of intestine was scraped. The intestine seromuscular layer was sutured to the margin of abdominal wall defect, and grafted by intermediate split thickness skin. RESULTS: The abdominal wall wound in 6 cases were healed by first intention, but part of grafted skin was necrosed, and it was healed by second skin graft. No intestinal anastomotic leakage was observed in all cases. Followed up 1 to 2 years, there were no abdominal hernia or abdominal internal hernia. All the cases could normally defecate. The nutriture of all cases were improved remarkably. CONCLUSION: Pedicle graft of intestine seromuscular layer is a reliable method to repair abdominal wall defect with low regional tension, abundant blood supply and high successful rate.
The comparative study of local application of magnetic piece dressings of different intensities (Gs) on the effect of survival of 48 skin flaps (2×5cm in size) and the healing of the incisional wornds was reported. Twelve Japanese long ear white rabbits were used for this study. It was noted that the magnetic field intensity of 200or 400 Gs showed remarkable increase of the area of survival of the skin flaps and enhancement of the healing of the incisional wounds.
OBJECTIVE: To seek a simple, safe and effective method for the instant repair of soft-tissue defects after excision of superficial tumor, chronic ulcer and scar constructure as well as injury. METHODS: From August 1993 to October 1997, according to the location and size of the lesion, adjacent single or double reverse tongue-shaped skin flaps were designed to repair the defects of head, face, limb and shoulder in 31 cases, and the donor sites were closed directly. RESULTS: The wounds were healed by first intention and the skin flaps were all survived postoperatively. CONCLUSION: It suggests that the tongue-shaped flap have the following characteristics: abundant blood supply, high survival rate, wide application, less trauma, and adjacent tissue can be fully used. It is a simple, safe and effective method for the instant repair of soft-tissue defects.
Abstract The narrow pedicled intercostal cutaneous perforater (np-ICP) thin flaps were successfully used for reconstruction of hand deformity from scar contraction. This flap was designed with a narrow pedicle (3~5cm in width) which included ICPs of 4th~9th intercostal spaces, and with awide distal part (the maximum is 15cm×15cm) which covered the lower chest and upper abdomen. The thickness of flap was cut until the subdermal vascular networkwas observed. The pedicle was divided between the 7th~14th days after operation. Sixteen flaps in 15 cases were transferred for covering of the skin defects at the dorsum of the hand. The perforators which were included in the narrow pediclewere mostly from the 7th intercostal spaces in 9 flaps. Fifteen of the 16 flapswere survived almost completely, except in one case there was necrosis of the distal portion of the flap. It seemed that this flap was more useful than the conventional methods, not only functionally but also aesthetically. Moreover, the operative techinque was more simple and safer than the island or free intercostalflap due to without the necessity to dissect the main trunk of the intercostalneurovascular bundle. Gentle pressure on the thinning portion of the flap for a short time after operation was important.
Objective To observe the protective role of the ectogenesis zinc on the cells in rat flap with ischemia reperfusion injury and study the mechanisms. Methods A right low abdominal island flap was created in Wistar rats. Fortyeight rats were randomly divded into 3 groups (n=16):the control group, the ischemia reperfusion group and adding zinc ischemia reperfusion group.The content of malondialdehyde(MDA) and the activity of myeloperoxidase(MPO) were measured by thiobarbituric acid methods and colorimetry. The location of expression of MT was observed,and the image analysis was performed. The quantity of MT was represented by the integratial optical density. The ultrastructure changes of skin flap with ischemia reperfusion injury and the flap viability were observed. Results In the ischemia reperfusion injury flaps, the content of MDA and MPO show no statistically significant difference among the control group,IR group and the adding-zinc-IR group (P>0.05). Compared with the control group at 1 h and 24 h of reperfusion, the level of MDA increased 62.2% and 136.4%(P<0.01) in the IR group, which increased 11.3% and 33.2%(P<0.01) in the adding-zinc-IR group. The activity of MPO increased 238.4% and 503.4%(P<0.01)in the IR group when compared with the control group, and increased 17.9%and 24.1%(P<0.05) when compared with the adding-zinc-IR group. In the ischemia reperfusion injury falps, the content of MT in the control group and the IR group is too minimal to measure. While the content ofMT in the adding-zinc-IR group is 45.30±7.60. At 1 h and 24 h of reperfusiion, the content of MT in the adding-zinc-IR group increased 41.5% and 44.9% (P<0.01) compared with the IR group, and increased 119.9% and 234.6% (P<0.01) compared with the control group. The flap viability is 100% in the control group, 19.65%±4.38% in the IR group, and 24.99%±5.12% in the adding-zinc-IR group, which increased 27.2% (P<0.05) compared with IR group. Conclusion Many kinds of cells in skin flap with ischemiareperfusion injury can be protected by ectogenesis zinc and the flap viability increases significantly.