ABSTRACT
Objective:To investigate the clinical effect of free fibular flap of great toe without vein in repairing soft tissue defect of finger pulp.Methods:From June 2020 to January 2021, 8 cases of finger pulp soft tissue defect were repaired with free flap of fibular side of great toe without vein, including 6 males and 2 females, with an average age of 32(18-42) years old. The defect area of finger pulp was 1.0 cm×0.5 cm-1.8 cm×0.8 cm. The proper digital artery and digital nerve of the affected finger were anastomosed. All flaps did not carry reflux veins. The donor site of the toe was directly sutured. Postoperative routine anti infection, anti spasm and anticoagulant treatment was performed. Postoperative outpatient regular follow-up.Results:All flaps survived without vascular crisis, and the donor and recipient sites healed in the first stage. All patients were followed-up for an average of 6.4(4-12) months. At the last follow-up, the TPD was 6-8 mm, the hand function was evaluated according to the Trial Standard of Upper Limb Function Evaluation of Hand Surgery Society of Chinese Medical Association. Seven cases were excellent and 1 case was good.Conclusion:The free fibular flap of the great toe can be used to repair the small wound of finger pulp without carrying the draining vein, the flap can still survive. And it can provide a certain reference for the failure of anatomic separation of the draining vein.
ABSTRACT
Objective To investigate therapeutic effects of β-TCP/PLGA scaffolds seeded bone marrow mesenchymal stem cells (BMSCs) combing with hyperbaric oxygen (HBO) on bone defect with seawater immersing in rabbit radius.Methods BMSCs were seeded into the β-TCP/PLGA scaffolds to construct tissue engineering bone.60 New Zealand rabbits were created 1.5 cm bone defect in bilateral radius,and then bilateral wound limbs were immersed in seawater for 3 h.After debridement,all rabbits were randomly divided into 4 groups.In group A nothing was implanted into the bone defect.Only BMSCs was implanted in group B.BMSCs + HBO was given in group C.β-TCP/PLGA BMSCs + HBO was given in group D.At postoperative 4,8,12 weeks rabbits were sacrificed after radiography radius.X-ray radiography,HE staining,immunohistochemical observation were used to evaluate repairing effect of bone defect with seawater immersing.Results Radiographic analysis demonstrated that the bone defects were completely repaired with recanalization of the medullary cavity in group D,bone defects were partially repaired with partal recanalization of the medullary cavity in group C,bone defects were incompletely repaired in group B;bone defect repair unfinished and the broken ends were sclerous in group A.Each time point group D>group C>group B>group A in callus grey value (P<0.05).HE staining indicated after 12 weeks,a small amount of lainellar bone formated in group A;a small amount of lamellar bone formated in group B;a large amount of lamellar bone formated in group C;a large amount of lamellar bone formated in group D.Immunohistoehemical result indicated at postoperative 4 weeks,the expressions of osteocalcin(OCN) in each group were at high levels,the expressions decreased significantly at Postoperative 8 weeks,the expressions were at a low level at postoperative 12 weeks.At postoperative 4 and 8 weeks,the expression levels of OCN were group D> group C> group B>group A (P<0.05),there was no significant difference at postoperative 12 weeks between the 4 groups (P>0.05).Conelusion the β-TCP/PLGA composite BMSCs combined hyperbaric oxygen is the effective method to repair seawater immersed bone defect in rabbit.